SPRUI30 User guide

SPRUI30H November 2015 – May 2024 DRA745 , DRA746 , DRA750 , DRA756

1
Read This First
1. Support Resources
2. Glossary
3. About This Manual
4. Information About Cautions and Warnings
5. Register, Field, and Bit Calls
6. Coding Rules
7. Flow Chart Rules
8. Export Control Notice
9. DRA75x, DRA74x MIPI® Disclaimer
10. Trademarks
1 Introduction
1. 1.1 DRA75x, DRA74x Overview
2. 1.2 DRA75x, DRA74x Environment
3. 1.3 DRA75x, DRA74x Description
4. 1.4 DRA75x, DRA74x Family
5. 1.5 DRA75x, DRA74x Device Identification
6. 1.6 DRA75x, DRA74x Package Characteristics Overview
2 Memory Mapping
1. 2.1 Introduction
2. 2.2 L3_MAIN Memory Map
  1. 2.2.1 L3_INSTR Memory Map
3. 2.3 L4 Memory Map
  1. 2.3.1 L4_CFG Memory Map
  2. 2.3.2 L4_WKUP Memory Map
4. 2.4 L4_PER Memory Map
5. 2.5 MPU Memory Map
6. 2.6 IPU Memory Map
7. 2.7 DSP Memory Map
8. 2.8 EVE Memory Map
9. 2.9 TILER View Memory Map
3 Power, Reset, and Clock Management
1. 3.1 Device Power Management Introduction
  1. 3.1.1 Device Power-Management Architecture Building Blocks
  2. 3.1.2 Power-Management Techniques
2. 3.2 PRCM Subsystem Overview
  1. 3.2.1 Introduction
  2. 3.2.2 Power-Management Framework Features
3. 3.3 PRCM Subsystem Environment
4. 3.4 PRCM Subsystem Integration
  1. 3.4.1 Device Power-Management Layout
  2. 3.4.2 Power-Management Scheme, Reset, and Interrupt Requests
5. 3.5 Reset Management Functional Description
6. 3.6 Clock Management Functional Description
7. 3.7 Power Management Functional Description
8. 3.8 Voltage-Management Functional Description
9. 3.9 Device Low-Power States
10. 3.10 PRCM Module Programming Guide
11. 3.11 546
12. 3.12 PRCM Software Configuration for OPP_PLUS
13. 3.13 PRCM Register Manual
4 Dual Cortex-A15 MPU Subsystem
1. 4.1 Dual Cortex-A15 MPU Subsystem Overview
  1. 4.1.1 Introduction
  2. 4.1.2 Features
2. 4.2 Dual Cortex-A15 MPU Subsystem Integration
  1. 4.2.1 Clock Distribution
  2. 4.2.2 Reset Distribution
3. 4.3 Dual Cortex-A15 MPU Subsystem Functional Description
4. 4.4 Dual Cortex-A15 MPU Subsystem Register Manual
5 DSP Subsystems
1. 5.1 DSP Subsystems Overview
  1. 5.1.1 DSP Subsystems Key Features
2. 5.2 DSP Subsystem Integration
3. 5.3 DSP Subsystems Functional Description
4. 5.4 DSP Subsystem Register Manual
6 IVA Subsystem
7 Dual Cortex-M4 IPU Subsystem
1. 7.1 Dual Cortex-M4 IPU Subsystem Overview
  1. 7.1.1 Introduction
  2. 7.1.2 Features
2. 7.2 Dual Cortex-M4 IPU Subsystem Integration
  1. 7.2.1 Dual Cortex-M4 IPU Subsystem Clock and Reset Distribution
    1. 7.2.1.1 Clock Distribution
    2. 7.2.1.2 Reset Distribution
3. 7.3 Dual Cortex-M4 IPU Subsystem Functional Description
4. 7.4 Dual Cortex-M4 IPU Subsystem Register Manual
8 Embedded Vision Engine
1. 8.1 Embedded Vision Engine (EVE) Subsystem
2. 8.2 ARP32 CPU and Instruction Set
  1. 8.2.1 Overview
  2. 8.2.2 Features
  3. 8.2.3 Block Diagram
  4. 8.2.4 Architecture
  5. 8.2.A Instruction Set
    1. 8.2.A.1 Instruction Operation and Execution Notations
    2. 8.2.A.2 Instruction Syntax and Opcode Notations
    3. 8.2.A.3 Instruction Scheduling Restrictions
    4. 8.2.A.4 Instruction Set Encoding
    5. 8.2.A.5 Instruction Descriptions
      1. ABS
      2. ADD
      3. ADD
      4. ADD
      5. ADD
      6. ADD
      7. AND
      8. AND
      9. B(cc)
      10. B(cc)
      11. B(cc)
      12. BIRP
      13. BKPT
      14. BNRP
      15. CALL
      16. CALL
      17. CLR
      18. CLR
      19. CMP
      20. CMP
      21. CMP
      22. CMPU
      23. CMPU
      24. CMPU
      25. DIV
      26. DIVU
      27. EXT
      28. EXT
      29. EXTU
      30. EXTU
      31. IDLE
      32. LDB(U)
      33. LDB(U)
      34. LDB(U)
      35. LDB(U)
      36. LDB(U)
      37. LDB(U)
      38. LDB(U)
      39. LDB(U)
      40. LDH(U)
      41. LDH(U)
      42. LDH(U)
      43. LDH(U)
      44. LDH(U)
      45. LDH(U)
      46. LDH(U)
      47. LDH(U)
      48. LDW
      49. LDW
      50. LDW
      51. LDW
      52. LDW
      53. LDW
      54. LDW
      55. LDW
      56. LDRF
      57. LMBD
      58. MAX
      59. MAXU
      60. MIN
      61. MINU
      62. MOD
      63. MODU
      64. MPY
      65. MPYU
      66. MV
      67. MVC
      68. MVC
      69. MVC
      70. MVCH
      71. MVK
      72. MVKH
      73. MVKLS
      74. MVKS
      75. MVS
      76. MVS
      77. NEG
      78. NOP
      79. NOT
      80. OR
      81. OR
      82. RET
      83. REV
      84. ROT
      85. ROTC
      86. SADD
      87. SATN
      88. SET
      89. SET
      90. SHL
      91. SHL
      92. SHRA
      93. SHRA
      94. SHRU
      95. SHRU
      96. SLA
      97. SSUB
      98. STB
      99. STB
      100. STB
      101. STB
      102. STB
      103. STB
      104. STB
      105. STB
      106. STH
      107. STH
      108. STH
      109. STH
      110. STH
      111. STH
      112. STH
      113. STH
      114. STW
      115. STW
      116. STW
      117. STW
      118. STW
      119. STW
      120. STW
      121. STW
      122. STHI
      123. STRF
      124. SUB
      125. SUB
      126. SUB
      127. SUB
      128. SUB
      129. SWI
      130. XOR
      131. XOR
  6. 8.2.B Clock, Reset, and Dynamic Power Management
    1. 8.2.B.1 Introduction
    2. 8.2.B.2 CPU Reset Modes
    3. 8.2.B.3 Dynamic Power Management
  7. 8.2.C Notes on Programming Model
    1. 8.2.C.1 Booting
    2. 8.2.C.2 Enabling and Disabling Interrupts
      1. 8.2.C.2.1 Globally Enabling or Disabling Maskable Interrupts
      2. 8.2.C.2.2 Enabling or Disabling Individual Interrupts
    3. 8.2.C.3 Stack Usage in Interrupt Service Routine
    4. 8.2.C.4 General Restrictions
3. 8.3 VCOP CPU and Instruction Set
9 Video Input Port
1. 9.1 VIP Overview
2. 9.2 VIP Environment
3. 9.3 VIP Integration
4. 9.4 VIP Functional Description
5. 9.5 VIP Register Manual
10Video Processing Engine
1. 10.1 VPE Overview
2. 10.2 VPE Integration
3. 10.3 VPE Functional Description
4. 10.4 VPE Register Manual
11Display Subsystem
1. 11.1 Display Subsystem Overview
2. 11.2 Display Controller
3. 11.3 High-Definition Multimedia Interface
  1. 11.3.1 HDMI Overview
    1. 11.3.1.1 HDMI Main Features
    2. 11.3.1.2 HDMI Video Formats and Timings
      1. 11.3.1.2.1 HDMI CEA-861-D Video Formats and Timings
      2. 11.3.1.2.2 VESA DMT Video Formats and Timings
123D Graphics Accelerator
1. 12.1 GPU Overview
  1. 12.1.1 GPU Features Overview
  2. 12.1.2 Graphics Feature Overview
2. 12.2 GPU Integration
3. 12.3 GPU Functional Description
4. 12.4 GPU Register Manual
  1. 12.4.1 GPU Instance Summary
  2. 12.4.2 GPU Registers
    1. 12.4.2.1 GPU_WRAPPER Register Summary
    2. 12.4.2.2 GPU_WRAPPER Register Description
132D Graphics Accelerator
1. 13.1 BB2D Overview
  1. 13.1.1 BB2D Key Features Overview
2. 13.2 BB2D Integration
3. 13.3 BB2D Functional Description
4. 13.4 BB2D Register Manual
  1. 13.4.1 BB2D Instance Summary
  2. 13.4.2 BB2D Registers
    1. 13.4.2.1 BB2D Register Summary
    2. 13.4.2.2 BB2D Register Description
14Interconnect
1. 14.1 Interconnect Overview
  1. 14.1.1 Terminology
  2. 14.1.2 Architecture Overview
2. 14.2 L3_MAIN Interconnect
3. 14.3 L4 Interconnects
15Memory Subsystem
1. 15.1 Memory Subsystem Overview
2. 15.2 Dynamic Memory Manager
3. 15.3 EMIF Controller
4. 15.4 General-Purpose Memory Controller
5. 15.5 Error Location Module
6. 15.6 On-Chip Memory (OCM) Subsystem
16DMA Controllers
1. 16.1 System DMA
2. 16.2 Enhanced DMA
17Interrupt Controllers
1. 17.1 Interrupt Controllers Overview
2. 17.2 Interrupt Controllers Environment
3. 17.3 Interrupt Controllers Integration
4. 17.4 Interrupt Controllers Functional Description
18Control Module
1. 18.1 Control Module Overview
2. 18.2 Control Module Environment
3. 18.3 Control Module Integration
4. 18.4 Control Module Functional Description
5. 18.5 Control Module Register Manual
6. 18.6 IODELAYCONFIG Module Integration
7. 18.7 IODELAYCONFIG Module Register Manual
19Mailbox
1. 19.1 Mailbox Overview
2. 19.2 Mailbox Integration
3. 19.3 Mailbox Functional Description
4. 19.4 Mailbox Programming Guide
  1. 19.4.1 Mailbox Low-level Programming Models
5. 19.5 Mailbox Register Manual
  1. 19.5.1 Mailbox Instance Summary
  2. 19.5.2 Mailbox Registers
    1. 19.5.2.1 Mailbox Register Summary
    2. 19.5.2.2 Mailbox Register Description
20Memory Management Units
1. 20.1 MMU Overview
2. 20.2 MMU Integration
3. 20.3 MMU Functional Description
4. 20.4 MMU Low-level Programming Models
  1. 20.4.1 Global Initialization
5. 20.5 MMU Register Manual
  1. 20.5.1 MMU Instance Summary
  2. 20.5.2 MMU Registers
    1. 20.5.2.1 MMU Register Summary
    2. 20.5.2.2 MMU Register Description
21Spinlock
1. 21.1 Spinlock Overview
2. 21.2 Spinlock Integration
3. 21.3 Spinlock Functional Description
4. 21.4 Spinlock Programming Guide
  1. 21.4.1 Spinlock Low-level Programming Models
    1. 21.4.1.1 Surrounding Modules Global Initialization
    2. 21.4.1.2 Basic Spinlock Operations
      1. 21.4.1.2.1 Spinlocks Clearing After a System Bug Recovery
      2. 21.4.1.2.2 Take and Release Spinlock
5. 21.5 Spinlock Register Manual
  1. 21.5.1 Spinlock Instance Summary
  2. 21.5.2 Spinlock Registers
    1. 21.5.2.1 Spinlock Register Summary
    2. 21.5.2.2 Spinlock Register Description
22Timers
1. 22.1 Timers Overview
2. 22.2 General-Purpose Timers
3. 22.3 32-kHz Synchronized Timer (COUNTER_32K)
4. 22.4 Watchdog Timer
23Real-Time Clock (RTC)
1. 23.1 RTC Overview
  1. 23.1.1 RTC Features
2. 23.2 RTC Environment
  1. 23.2.1 RTC External Interface
3. 23.3 RTC Integration
4. 23.4 RTC Functional Description
5. 23.5 RTC Low-Level Programming Guide
  1. 23.5.1 Global Initialization
    1. 23.5.1.1 Surrounding Modules Global Initialization
    2. 23.5.1.2 RTC Module Global Initialization
      1. 23.5.1.2.1 Main Sequence – RTC Module Global Initialization
6. 23.6 RTC Register Manual
  1. 23.6.1 RTC Instance Summary
  2. 23.6.2 RTC_SS Registers
    1. 23.6.2.1 RTC_SS Register Summary
    2. 23.6.2.2 RTC_SS Register Description
24Serial Communication Interfaces
1. 24.1 Multimaster High-Speed I2C Controller
2. 24.2 HDQ/1-Wire
3. 24.3 UART/IrDA/CIR
4. 24.4 Multichannel Serial Peripheral Interface
5. 24.5 Quad Serial Peripheral Interface
6. 24.6 Multichannel Audio Serial Port
7. 24.7 SuperSpeed USB DRD
8. 24.8 SATA Controller
9. 24.9 PCIe Controller
10. 24.10 DCAN
11. 24.11 Gigabit Ethernet Switch (GMAC_SW)
12. 24.12 Media Local Bus (MLB)
25eMMC/SD/SDIO
1. 25.1 eMMC/SD/SDIO Overview
  1. 25.1.1 eMMC/SD/SDIO Features
2. 25.2 eMMC/SD/SDIO Environment
  1. 25.2.1 eMMC/SD/SDIO Functional Modes
    1. 25.2.1.1 eMMC/SD/SDIO Connected to an eMMC, SD, or SDIO Card
  2. 25.2.2 Protocol and Data Format
    1. 25.2.2.1 Protocol
    2. 25.2.2.2 Data Format
3. 25.3 eMMC/SD/SDIO Integration
4. 25.4 eMMC/SD/SDIO Functional Description
5. 25.5 eMMC/SD/SDIO Programming Guide
  1. 25.5.1 Low-Level Programming Models
    1. 25.5.1.1 Global Initialization
      1. 25.5.1.1.1 Surrounding Modules Global Initialization
      2. 25.5.1.1.2 eMMC/SD/SDIO Host Controller Initialization Flow
        
        25.5.1.1.2.1 Enable Interface and Functional Clock for MMC Controller
        
        25.5.1.1.2.2 MMCHS Soft Reset Flow
        
        25.5.1.1.2.3 Set MMCHS Default Capabilities
        
        25.5.1.1.2.4 Wake-Up Configuration
        
        25.5.1.1.2.5 MMC Host and Bus Configuration
    2. 25.5.1.2 Operational Modes Configuration
6. 25.6 eMMC/SD/SDIO Register Manual
  1. 25.6.1 eMMC/SD/SDIO Instance Summary
  2. 25.6.2 eMMC/SD/SDIO Registers
    1. 25.6.2.1 eMMC/SD/SDIO Register Summary
    2. 25.6.2.2 eMMC/SD/SDIO Register Description
26Shared PHY Component Subsystem
1. 26.1 SATA PHY Subsystem
2. 26.2 USB3_PHY Subsystem
3. 26.3 USB3 PHY and SATA PHY Register Manual
4. 26.4 PCIe PHY Subsystem
27General-Purpose Interface
1. 27.1 General-Purpose Interface Overview
2. 27.2 General-Purpose Interface Environment
  1. 27.2.1 General-Purpose Interface as a Keyboard Interface
  2. 27.2.2 General-Purpose Interface Signals
3. 27.3 General-Purpose Interface Integration
4. 27.4 General-Purpose Interface Functional Description
5. 27.5 General-Purpose Interface Programming Guide
  1. 27.5.1 General-Purpose Interface Low-Level Programming Models
    1. 27.5.1.1 Global Initialization
      1. 27.5.1.1.1 Surrounding Modules Global Initialization
      2. 27.5.1.1.2 General-Purpose Interface Module Global Initialization
    2. 27.5.1.2 General-Purpose Interface Operational Modes Configuration
6. 27.6 General-Purpose Interface Register Manual
  1. 27.6.1 General-Purpose Interface Instance Summary
  2. 27.6.2 General-Purpose Interface Registers
    1. 27.6.2.1 General-Purpose Interface Register Summary
    2. 27.6.2.2 General-Purpose Interface Register Description
28Keyboard Controller
1. 28.1 Keyboard Controller Overview
2. 28.2 Keyboard Controller Environment
3. 28.3 Keyboard Controller Integration
4. 28.4 Keyboard Controller Functional Description
5. 28.5 Keyboard Controller Programming Guide
  1. 28.5.1 Keyboard Controller Low-Level Programming Models
6. 28.6 Keyboard Controller Register Manual
  1. 28.6.1 Keyboard Controller Instance Summary
  2. 28.6.2 Keyboard Controller Registers
    1. 28.6.2.1 Keyboard Controller Register Summary
    2. 28.6.2.2 Keyboard Controller Register Description
29Pulse-Width Modulation Subsystem
1. 29.1 PWM Subsystem Resources
2. 29.2 Enhanced PWM (ePWM) Module
3. 29.3 Enhanced Capture (eCAP) Module
4. 29.4 Enhanced Quadrature Encoder Pulse (eQEP) Module
30Viterbi-Decoder Coprocessor
1. 30.1 VCP Overview
  1. 30.1.1 VCP Features
2. 30.2 VCP Integration
3. 30.3 VCP Functional Description
4. 30.4 VCP Modules Programming Guide
  1. 30.4.1 EDMA Resources
    1. 30.4.1.1 VCP1 and VCP2 Dedicated EDMA Resources
    2. 30.4.1.2 Special VCP EDMA Programming Considerations
  2. 30.4.2 Input Configuration Words
5. 30.5 VCP Register Manual
  1. 30.5.1 VCP1 and VCP2 Instance Summary
  2. 30.5.2 VCP Registers
31Audio Tracking Logic
1. 31.1 ATL Overview
2. 31.2 ATL Environment
  1. 31.2.1 ATL Functions
  2. 31.2.2 ATL Signals Descriptions
3. 31.3 ATL Integration
  1. 31.3.1 ATL Distribution on Interconnects
  2. 31.3.2 ATL Regions Allocations
4. 31.4 ATL Functional Description
5. 31.5 ATL Register Manual
32Initialization
1. 32.1 Initialization Overview
  1. 32.1.1 Terminology
  2. 32.1.2 Initialization Process
2. 32.2 Preinitialization
3. 32.3 Device Initialization by ROM Code
4. 32.4 Services for HLOS Support
33On-Chip Debug Support
1. 33.1 Introduction
  1. 33.1.1 Key Features
2. 33.2 Debug Interfaces
3. 33.3 Debugger Connection
4. 33.4 Primary Debug Support
5. 33.5 Real-Time Debug
  1. 33.5.1 Real-Time Debug Events
    1. 33.5.1.1 Emulation Interrupts
6. 33.6 Power, Reset, and Clock Management Debug Support
  1. 33.6.1 Power and Clock Management
    1. 33.6.1.1 Power and Clock Control Override From Debugger
      1. 33.6.1.1.1 Debugger Directives
        
        33.6.1.1.1.1 FORCEACTIVE Debugger Directive
        
        33.6.1.1.1.2 INHIBITSLEEP Debugger Directive
      2. 33.6.1.1.2 Intrusive Debug Model
    2. 33.6.1.2 Debug Across Power Transition
      1. 33.6.1.2.1 Nonintrusive Debug Model
      2. 33.6.1.2.2 Debug Context Save and Restore
        
        33.6.1.2.2.1 Debug Context Save
        
        33.6.1.2.2.2 Debug Context Restore
  2. 33.6.2 Reset Management
    1. 33.6.2.1 Debugger Directives
7. 33.7 Performance Monitoring
8. 33.8 MPU Memory Adaptor (MPU_MA) Watchpoint
9. 33.9 Processor Trace
10. 33.10 System Instrumentation
11. 33.11 Concurrent Debug Modes
12. 33.12 DRM Register Manual
  1. 33.12.1 DRM Instance Summary
  2. 33.12.2 DRM Registers
    1. 33.12.2.1 DRM Register Summary
    2. 33.12.2.2 DRM Register Description
34Glossary
35Revision History

16.2.7.2.2.1 EDMA_TPCC Register Description

Table 16-91 through Table 16-203 describe the EDMA_TPCC module registers.

Table 16-91 EDMA_TPCC_PID

Address Offset	0x0000 0000
Physical Address	0x4330 0000 0x40D1 0000 0x4151 0000 0x01D1 0000 0x420A 0000 0x421A 0000	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Peripheral ID Register
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
REVISION

Bits	Field Name	Description	Type	Reset
31:0	REVISION	IP revision	R	TI internal data

Table 16-92 EDMA_TPCC_CCCFG

Address Offset	0x0000 0004
Physical Address	0x4330 0004 0x40D1 0004 0x4151 0004 0x01D1 0004 0x420A 0004 0x421A 0004	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	CC Configuration Register
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED						MPEXIST	CHMAPEXIST	RESERVED		NUMREGN		RESERVED	NUMTC			RESERVED	NUMPAENTRY			RESERVED	NUMINTCH			RESERVED	NUMQDMACH			RESERVED	NUMDMACH

Bits	Field Name	Description	Type	Reset
31:26	RESERVED	Reads return 0's	R	0x0
25	MPEXIST	Memory Protection Existence	R	See Table 16-52
		0x0: No memory protection
		0x1: Memory Protection logic included
24	CHMAPEXIST	Channel Mapping Existence	R	See Table 16-52
		0x0: No Channel mapping
		0x1: Channel mapping logic included
23:22	RESERVED	Reads return 0's	R	0x0
21:20	NUMREGN	Number of MP and Shadow regions	R	See Table 16-52
		0x0: 0 Regions
		0x1: 2 Regions
		0x2: 4 Regions
		0x3: 8 Regions
19	RESERVED	Reads return 0's	R	0x0
18:16	NUMTC	Number of Queues/Number of TCs	R	See Table 16-52
		0x0: 1 TC/Event Queue
		0x1: 2 TC/Event Queue
		0x2: 3 TC/Event Queue
		0x3: 4 TC/Event Queue
		0x4: 5 TC/Event Queue
		0x5: 6 TC/Event Queue
		0x6: 7 TC/Event Queue
		0x7: 8 TC/Event Queue
15	RESERVED	Reads return 0's	R	0x0
14:12	NUMPAENTRY	Number of PaRAM entries	R	See Table 16-52
		0x0: 16 entries
		0x1: 32 entries
		0x2: 64 entries
		0x3: 128 entries
		0x4: 256 entries
		0x5: 512 entries
11	RESERVED	Reads return 0's	R	0x0
10:8	NUMINTCH	Number of Interrupt Channels	R	See Table 16-52
		0x1: 8 Interrupt channels
		0x2: 16 Interrupt channels
		0x3: 32 Interrupt channels
		0x4: 64 Interrupt channels
7	RESERVED	reads return 0's	R	0x0
6:4	NUMQDMACH	Number of QDMA Channels	R	See Table 16-52
		0x0: No QDMA Channels
		0x1: 2 QDMA Channels
		0x2: 4 QDMA Channels
		0x3: 6 QDMA Channels
		0x4: 8 QDMA Channels
3	RESERVED	reads return 0's	R	0x0
2:0	NUMDMACH	Number of DMA Channels	R	See Table 16-52
		0x0: No DMA Channels
		0x1: 4 DMA Channels
		0x2: 8 DMA Channels
		0x3: 16 DMA Channels
		0x4: 32 DMA Channels
		0x5: 64 DMA Channels

Table 16-93 EDMA_TPCC_CLKGDIS

Address Offset	0x0000 00FC
Physical Address	0x4330 00FC 0x40D1 00FC 0x4151 00FC 0x01D1 00FC 0x420A 00FC 0x421A 00FC	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Auto Clock Gate Disable
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																															CLKGDIS

Bits	Field Name	Description	Type	Reset
31:1	RESERVED	Reserved	R	0x0
0	CLKGDIS	Auto Clock Gate Disable	RW	0x0

Table 16-94 EDMA_TPCC_DCHMAPN_m

Address Offset	0x0000 0100 + (0x4 * m)
Physical Address	0x4330 0100 + (0x4 * m) 0x40D1 0100 + (0x4 * m) 0x4151 0100 + (0x4 * m) 0x01D1 0100 + (0x4 * m) 0x420A 0100 + (0x4 * m) 0x421A 0100 + (0x4 * m)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	DMA Channel N Mapping Register
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																		PAENTRY									RESERVED

Bits	Field Name	Description	Type	Reset
31:14	RESERVED	Reserved	R	0x0
13:5	PAENTRY	PaRAM Entry number for DMA Channel N.	RW	0x0
4:0	RESERVED	Reserved	R	0x0

Table 16-95 EDMA_TPCC_QCHMAPN_j

Address Offset	0x0000 0200 + (0x4 * j)
Physical Address	0x4330 0200 + (0x4 * j) 0x40D1 0200 + (0x4 * j) 0x4151 0200 + (0x4 * j) 0x01D1 0200 + (0x4 * j) 0x420A 0200 + (0x4 * j) 0x421A 0200 + (0x4 * j)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Channel N Mapping Register
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																		PAENTRY									TRWORD			RESERVED

Bits	Field Name	Description	Type	Reset
31:14	RESERVED	Reserved	R	0x0
13:5	PAENTRY	PaRAM Entry number for QDMA Channel N.	RW	0x0
4:2	TRWORD	TRWORD points to the specific trigger word of the PaRAM Entry defined by PAENTRY. A write to the trigger word results in a QDMA Event being recognized.	RW	0x0
1:0	RESERVED	Reserved	R	0x0

Table 16-96 EDMA_TPCC_DMAQNUMN_k

Address Offset	0x0000 0240 + (0x4 * k)
Physical Address	0x4330 0240 + (0x4 * k) 0x40D1 0240 + (0x4 * k) 0x4151 0240 + (0x4 * k) 0x01D1 0240 + (0x4 * k) 0x420A 0240 + (0x4 * k) 0x421A 0240 + (0x4 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	DMA Queue Number Register n Contains the Event queue number to be used for the corresponding DMA Channel.
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED	E7			RESERVED	E6			RESERVED	E5			RESERVED	E4			RESERVED	E3			RESERVED	E2			RESERVED	E1			RESERVED	E0

Bits	Field Name	Description	Type	Reset
31	RESERVED	Reserved	R	0x0
30:28	E7	DMA Queue Number for event #7	RW	0x0
27	RESERVED	Reserved	R	0x0
26:24	E6	DMA Queue Number for event #6	RW	0x0
23	RESERVED	Reserved	R	0x0
22:20	E5	DMA Queue Number for event #5	RW	0x0
19	RESERVED	Reserved	R	0x0
18:16	E4	DMA Queue Number for event #4	RW	0x0
15	RESERVED	Reserved	R	0x0
14:12	E3	DMA Queue Number for event #3	RW	0x0
11	RESERVED	Reserved	R	0x0
10:8	E2	DMA Queue Number for event #2	RW	0x0
7	RESERVED	Reserved	R	0x0
6:4	E1	DMA Queue Number for event #1	RW	0x0
3	RESERVED	Reserved	R	0x0
2:0	E0	DMA Queue Number for event #0	RW	0x0

Table 16-97 EDMA_TPCC_QDMAQNUM

Address Offset	0x0000 0260
Physical Address	0x4330 0260 0x40D1 0260 0x4151 0260 0x01D1 0260 0x420A 0260 0x421A 0260	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Queue Number Register Contains the Event queue number to be used for the corresponding QDMA Channel.
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED	E7			RESERVED	E6			RESERVED	E5			RESERVED	E4			RESERVED	E3			RESERVED	E2			RESERVED	E1			RESERVED	E0

Bits	Field Name	Description	Type	Reset
31	RESERVED		R	0x0
30:28	E7	QDMA Queue Number for event #7	RW	0x0
27	RESERVED		R	0x0
26:24	E6	QDMA Queue Number for event #6	RW	0x0
23	RESERVED		R	0x0
22:20	E5	QDMA Queue Number for event #5	RW	0x0
19	RESERVED		R	0x0
18:16	E4	QDMA Queue Number for event #4	RW	0x0
15	RESERVED		R	0x0
14:12	E3	QDMA Queue Number for event #3	RW	0x0
11	RESERVED		R	0x0
10:8	E2	QDMA Queue Number for event #2	RW	0x0
7	RESERVED		R	0x0
6:4	E1	QDMA Queue Number for event #1	RW	0x0
3	RESERVED		R	0x0
2:0	E0	QDMA Queue Number for event #0	RW	0x0

Table 16-98 EDMA_TPCC_QUETCMAP

Address Offset	0x0000 0280
Physical Address	0x4330 0280 0x40D1 0280 0x4151 0280 0x01D1 0280 0x420A 0280 0x421A 0280	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Queue to TC Mapping
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																									TCNUMQ1			RESERVED	TCNUMQ0

Bits	Field Name	Description	Type	Reset
31:7	RESERVED	Reserved	R	0x0
6:4	TCNUMQ1	TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to.	RW	0x1
3	RESERVED	Reserved	R	0x0
2:0	TCNUMQ0	TC Number for Queue N: Defines the TC number that Event Queue N TRs are written to.	RW	0x0

Table 16-99 EDMA_TPCC_QUEPRI

Address Offset	0x0000 0284
Physical Address	0x4330 0284 0x40D1 0284 0x4151 0284 0x01D1 0284 0x420A 0284 0x421A 0284	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Queue Priority
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																									PRIQ1			RESERVED	PRIQ0

Bits	Field Name	Description	Type	Reset
31:7	RESERVED	Reserved	R	0x0
6:4	PRIQ1	Priority Level for Queue 1 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands.	RW	0x0
3	RESERVED	Reserved	R	0x0
2:0	PRIQ0	Priority Level for Queue 0 Dictates the priority level used for the OPTIONS field programmation for Qn TRs. Sets the priority used for TC read and write commands.	RW	0x0

Table 16-100 EDMA_TPCC_EMR

Address Offset	0x0000 0300
Physical Address	0x4330 0300 0x40D1 0300 0x4151 0300 0x01D1 0300 0x420A 0300 0x421A 0300	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Missed Register: The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated individually. If any bit in the EMR register is set (and all errors (including EDMA_TPCC_QEMR / EDMA_TPCC_CCERR) were previously clear), then an error will be signaled with TPCC error interrupt.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event Missed #31	R	0x0
30	E30	Event Missed #30	R	0x0
29	E29	Event Missed #29	R	0x0
28	E28	Event Missed #28	R	0x0
27	E27	Event Missed #27	R	0x0
26	E26	Event Missed #26	R	0x0
25	E25	Event Missed #25	R	0x0
24	E24	Event Missed #24	R	0x0
23	E23	Event Missed #23	R	0x0
22	E22	Event Missed #22	R	0x0
21	E21	Event Missed #21	R	0x0
20	E20	Event Missed #20	R	0x0
19	E19	Event Missed #19	R	0x0
18	E18	Event Missed #18	R	0x0
17	E17	Event Missed #17	R	0x0
16	E16	Event Missed #16	R	0x0
15	E15	Event Missed #15	R	0x0
14	E14	Event Missed #14	R	0x0
13	E13	Event Missed #13	R	0x0
12	E12	Event Missed #12	R	0x0
11	E11	Event Missed #11	R	0x0
10	E10	Event Missed #10	R	0x0
9	E9	Event Missed #9	R	0x0
8	E8	Event Missed #8	R	0x0
7	E7	Event Missed #7	R	0x0
6	E6	Event Missed #6	R	0x0
5	E5	Event Missed #5	R	0x0
4	E4	Event Missed #4	R	0x0
3	E3	Event Missed #3	R	0x0
2	E2	Event Missed #2	R	0x0
1	E1	Event Missed #1	R	0x0
0	E0	Event Missed #0	R	0x0

Table 16-101 EDMA_TPCC_EMRH

Address Offset	0x0000 0304
Physical Address	0x4330 0304 0x40D1 0304 0x4151 0304 0x01D1 0304 0x420A 0304 0x421A 0304	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Missed Register (High Part): The Event Missed register is set if 2 events are received without the first event being cleared or if a Null TR is serviced. Chained events (CER), Set Events (ESR), and normal events (ER) are treated individually. If any bit in the EMR register is set (and all errors (including EDMA_TPCC_QEMR / EDMA_TPCC_CCERR) were previously clear), then an error will be signaled with TPCC error interrupt.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event Missed #63	R	0x0
30	E62	Event Missed #62	R	0x0
29	E61	Event Missed #61	R	0x0
28	E60	Event Missed #60	R	0x0
27	E59	Event Missed #59	R	0x0
26	E58	Event Missed #58	R	0x0
25	E57	Event Missed #57	R	0x0
24	E56	Event Missed #56	R	0x0
23	E55	Event Missed #55	R	0x0
22	E54	Event Missed #54	R	0x0
21	E53	Event Missed #53	R	0x0
20	E52	Event Missed #52	R	0x0
19	E51	Event Missed #51	R	0x0
18	E50	Event Missed #50	R	0x0
17	E49	Event Missed #49	R	0x0
16	E48	Event Missed #48	R	0x0
15	E47	Event Missed #47	R	0x0
14	E46	Event Missed #46	R	0x0
13	E45	Event Missed #45	R	0x0
12	E44	Event Missed #44	R	0x0
11	E43	Event Missed #43	R	0x0
10	E42	Event Missed #42	R	0x0
9	E41	Event Missed #41	R	0x0
8	E40	Event Missed #40	R	0x0
7	E39	Event Missed #39	R	0x0
6	E38	Event Missed #38	R	0x0
5	E37	Event Missed #37	R	0x0
4	E36	Event Missed #36	R	0x0
3	E35	Event Missed #35	R	0x0
2	E34	Event Missed #34	R	0x0
1	E33	Event Missed #33	R	0x0
0	E32	Event Missed #32	R	0x0

Table 16-102 EDMA_TPCC_EMCR

Address Offset	0x0000 0308
Physical Address	0x4330 0308 0x40D1 0308 0x4151 0308 0x01D1 0308 0x420A 0308 0x421A 0308	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Missed Clear Register: CPU write of '1' to the EDMA_TPCC_EMCR.En bit causes the EDMA_TPCC_EMR.En bit to be cleared. CPU write of '0' has no effect.. All error bits must be cleared before additional error interrupts will be asserted by CC.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event Missed Clear #31	W	0x0
30	E30	Event Missed Clear #30	W	0x0
29	E29	Event Missed Clear #29	W	0x0
28	E28	Event Missed Clear #28	W	0x0
27	E27	Event Missed Clear #27	W	0x0
26	E26	Event Missed Clear #26	W	0x0
25	E25	Event Missed Clear #25	W	0x0
24	E24	Event Missed Clear #24	W	0x0
23	E23	Event Missed Clear #23	W	0x0
22	E22	Event Missed Clear #22	W	0x0
21	E21	Event Missed Clear #21	W	0x0
20	E20	Event Missed Clear #20	W	0x0
19	E19	Event Missed Clear #19	W	0x0
18	E18	Event Missed Clear #18	W	0x0
17	E17	Event Missed Clear #17	W	0x0
16	E16	Event Missed Clear #16	W	0x0
15	E15	Event Missed Clear #15	W	0x0
14	E14	Event Missed Clear #14	W	0x0
13	E13	Event Missed Clear #13	W	0x0
12	E12	Event Missed Clear #12	W	0x0
11	E11	Event Missed Clear #11	W	0x0
10	E10	Event Missed Clear #10	W	0x0
9	E9	Event Missed Clear #9	W	0x0
8	E8	Event Missed Clear #8	W	0x0
7	E7	Event Missed Clear #7	W	0x0
6	E6	Event Missed Clear #6	W	0x0
5	E5	Event Missed Clear #5	W	0x0
4	E4	Event Missed Clear #4	W	0x0
3	E3	Event Missed Clear #3	W	0x0
2	E2	Event Missed Clear #2	W	0x0
1	E1	Event Missed Clear #1	W	0x0
0	E0	Event Missed Clear #0	W	0x0

Table 16-103 EDMA_TPCC_EMCRH

Address Offset	0x0000 030C
Physical Address	0x4330 030C 0x40D1 030C 0x4151 030C 0x01D1 030C 0x420A 030C 0x421A 030C	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Missed Clear Register (High Part): CPU write of '1' to the EDMA_TPCC_EMCR.En bit causes the EDMA_TPCC_EMR.En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event Missed Clear #63	W	0x0
30	E62	Event Missed Clear #62	W	0x0
29	E61	Event Missed Clear #61	W	0x0
28	E60	Event Missed Clear #60	W	0x0
27	E59	Event Missed Clear #59	W	0x0
26	E58	Event Missed Clear #58	W	0x0
25	E57	Event Missed Clear #57	W	0x0
24	E56	Event Missed Clear #56	W	0x0
23	E55	Event Missed Clear #55	W	0x0
22	E54	Event Missed Clear #54	W	0x0
21	E53	Event Missed Clear #53	W	0x0
20	E52	Event Missed Clear #52	W	0x0
19	E51	Event Missed Clear #51	W	0x0
18	E50	Event Missed Clear #50	W	0x0
17	E49	Event Missed Clear #49	W	0x0
16	E48	Event Missed Clear #48	W	0x0
15	E47	Event Missed Clear #47	W	0x0
14	E46	Event Missed Clear #46	W	0x0
13	E45	Event Missed Clear #45	W	0x0
12	E44	Event Missed Clear #44	W	0x0
11	E43	Event Missed Clear #43	W	0x0
10	E42	Event Missed Clear #42	W	0x0
9	E41	Event Missed Clear #41	W	0x0
8	E40	Event Missed Clear #40	W	0x0
7	E39	Event Missed Clear #39	W	0x0
6	E38	Event Missed Clear #38	W	0x0
5	E37	Event Missed Clear #37	W	0x0
4	E36	Event Missed Clear #36	W	0x0
3	E35	Event Missed Clear #35	W	0x0
2	E34	Event Missed Clear #34	W	0x0
1	E33	Event Missed Clear #33	W	0x0
0	E32	Event Missed Clear #32	W	0x0

Table 16-104 EDMA_TPCC_QEMR

Address Offset	0x0000 0310
Physical Address	0x4330 0310 0x40D1 0310 0x4151 0310 0x01D1 0310 0x420A 0310 0x421A 0310	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Event Missed Register: The QDMA Event Missed register is set if 2 QDMA events are detected without the first event being cleared or if a Null TR is serviced. If any bit in the EDMA_TPCC_QEMR register is set (and all errors (including EDMA_TPCC_EMR / EDMA_TPCC_CCERR) were previously clear), then an error will be signaled with TPCC error interrupt.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R	0x0
7	E7	Event Missed #7	R	0x0
6	E6	Event Missed #6	R	0x0
5	E5	Event Missed #5	R	0x0
4	E4	Event Missed #4	R	0x0
3	E3	Event Missed #3	R	0x0
2	E2	Event Missed #2	R	0x0
1	E1	Event Missed #1	R	0x0
0	E0	Event Missed #0	R	0x0

Table 16-105 EDMA_TPCC_QEMCR

Address Offset	0x0000 0314
Physical Address	0x4330 0314 0x40D1 0314 0x4151 0314 0x01D1 0314 0x420A 0314 0x421A 0314	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Event Missed Clear Register: CPU write of '1' to the EDMA_TPCC_QEMCR.En bit causes the EDMA_TPCC_QEMR.En bit to be cleared. CPU write of '0' has no effect. All error bits must be cleared before additional error interrupts will be asserted by CC.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R	0x0
7	E7	Event Missed Clear #7	W	0x0
6	E6	Event Missed Clear #6	W	0x0
5	E5	Event Missed Clear #5	W	0x0
4	E4	Event Missed Clear #4	W	0x0
3	E3	Event Missed Clear #3	W	0x0
2	E2	Event Missed Clear #2	W	0x0
1	E1	Event Missed Clear #1	W	0x0
0	E0	Event Missed Clear #0	W	0x0

Table 16-106 EDMA_TPCC_CCERR

Address Offset	0x0000 0318
Physical Address	0x4330 0318 0x40D1 0318 0x4151 0318 0x01D1 0318 0x420A 0318 0x421A 0318	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	CC Error Register
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED															TCERR	RESERVED								QTHRXCD7	QTHRXCD6	QTHRXCD5	QTHRXCD4	QTHRXCD3	QTHRXCD2	QTHRXCD1	QTHRXCD0

Bits	Field Name	Description	Type	Reset
31:17	RESERVED	Reserved	R	0x0
16	TCERR	Transfer Completion Code Error	R	0x0
		0x0: Total number of allowed TCCs outstanding has not been reached.
		0x1: Total number of allowed TCCs has been reached.
		TCERR can be cleared by writing a '1' to corresponding bit in EDMA_TPCC_CCERRCLR register. If any bit in the EDMA_TPCC_CCERR register is set (and all errors were previously clear), then an error will be signaled with TPCC error interrupt.
15:8	RESERVED	Reserved	R	0x0
7	QTHRXCD7	Queue Threshold Error for Q7	R	0x0
		0x0: Watermark/threshold has not been exceeded.
		0x1: Watermark/threshold has been exceeded.
		QTHRXCD7 can be cleared by writing a '1' to corresponding bit in EDMA_TPCC_CCERRCLR register. If any bit in the EDMA_TPCC_CCERR register is set (and all errors (including EDMA_TPCC_EMR/EDMA_TPCC_QEMR) were previously clear), then an error will be signaled with the TPCC error interrupt.
6	QTHRXCD6	Queue Threshold Error for Q6	R	0x0
		0x0 : Watermark/threshold has not been exceeded.
		0x1 : Watermark/threshold has been exceeded.
		QTHRXCD6 can be cleared by writing a '1' to corresponding bit in EDMA_TPCC_CCERRCLR register. If any bit in the EDMA_TPCC_CCERR register is set (and all errors (including EDMA_TPCC_EMR/EDMA_TPCC_QEMR) were previously clear), then an error will be signaled with the TPCC error interrupt.
5	QTHRXCD5	Queue Threshold Error for Q5	R	0x0
		0x0 : Watermark/threshold has not been exceeded.
		0x1 : Watermark/threshold has been exceeded.
		QTHRXCD5 can be cleared by writing a '1' to corresponding bit in EDMA_TPCC_CCERRCLR register. If any bit in the EDMA_TPCC_CCERR register is set (and all errors (including EDMA_TPCC_EMR/EDMA_TPCC_QEMR) were previously clear), then an error will be signaled with the TPCC error interrupt.
4	QTHRXCD4	Queue Threshold Error for Q4	R	0x0
		0x0: Watermark/threshold has not been exceeded.
		0x1: Watermark/threshold has been exceeded.
		QTHRXCD4 can be cleared by writing a '1' to corresponding bit in EDMA_TPCC_CCERRCLR register. If any bit in the EDMA_TPCC_CCERR register is set (and all errors (including EDMA_TPCC_EMR/EDMA_TPCC_QEMR) were previously clear), then an error will be signaled with the TPCC error interrupt.
3	QTHRXCD3	Queue Threshold Error for Q3	R	0x0
		0x0: Watermark/threshold has not been exceeded.
		0x1 : Watermark/threshold has been exceeded.
		QTHRXCD3 can be cleared by writing a '1' to corresponding bit in EDMA_TPCC_CCERRCLR register. If any bit in the EDMA_TPCC_CCERR register is set (and all errors (including EDMA_TPCC_EMR/EDMA_TPCC_QEMR) were previously clear), then an error will be signaled with the TPCC error interrupt.
2	QTHRXCD2	Queue Threshold Error for Q2	R	0x0
		0x0: Watermark/threshold has not been exceeded.
		0x1: Watermark/threshold has been exceeded.
		QTHRXCD2 can be cleared by writing a '1' to corresponding bit in EDMA_TPCC_CCERRCLR register. If any bit in the EDMA_TPCC_CCERR register is set (and all errors (including EDMA_TPCC_EMR/EDMA_TPCC_QEMR) were previously clear), then an error will be signaled with the TPCC error interrupt.
1	QTHRXCD1	Queue Threshold Error for Q1	R	0x0
		0x0: Watermark/threshold has not been exceeded.
		0x1: Watermark/threshold has been exceeded.
		QTHRXCD1 can be cleared by writing a '1' to corresponding bit in EDMA_TPCC_CCERRCLR register. If any bit in the EDMA_TPCC_CCERR register is set (and all errors (including EDMA_TPCC_EMR/EDMA_TPCC_QEMR) were previously clear), then an error will be signaled with the TPCC error interrupt.
0	QTHRXCD0	Queue Threshold Error for Q0:	R	0x0
		0x0: Watermark/threshold has not been exceeded.
		0x1: Watermark/threshold has been exceeded.
		QTHRXCD0 can be cleared by writing a '1' to corresponding bit in EDMA_TPCC_CCERRCLR register. If any bit in the EDMA_TPCC_CCERR register is set (and all errors (including EDMA_TPCC_EMR/EDMA_TPCC_QEMR) were previously clear), then an error will be signaled with the TPCC error interrupt.

Table 16-107 EDMA_TPCC_CCERRCLR

Address Offset	0x0000 031C
Physical Address	0x4330 031C 0x40D1 031C 0x4151 031C 0x01D1 031C 0x420A 031C 0x421A 031C	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	CC Error Clear Register
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED															TCERR	RESERVED								QTHRXCD7	QTHRXCD6	QTHRXCD5	QTHRXCD4	QTHRXCD3	QTHRXCD2	QTHRXCD1	QTHRXCD0

Bits	Field Name	Description	Type	Reset
31:17	RESERVED	Reserved	R	0x0
16	TCERR	Clear Error for EDMA_TPCC_CCERR[16] TR.	W	0x0
		Write 0x1 to clear the value of EDMA_TPCC_CCERR[16] TCERR.
		Write 0x0 have no affect.
15:8	RESERVED	Reserved	R	0x0
7	QTHRXCD7	Clear error for EDMA_TPCC_CCERR[7]QTHRXCD7	W	0x0
		Write 0x0 have no affect.
		Write 0x1 to clear the values of QSTAT7.WM, QSTAT7.THRXCD, EDMA_TPCC_CCERR[7] QTHRXCD7
6	QTHRXCD6	Clear error for EDMA_TPCC_CCERR[6] QTHRXCD6	W	0x0
		Write 0x0 have no affect.
		Write 0x1 to clear the values of QSTAT6.WM, QSTAT6.THRXCD, EDMA_TPCC_CCERR[6]QTHRXCD6
5	QTHRXCD5	Clear error for EDMA_TPCC_CCERR[5] QTHRXCD5	W	0x0
		Write 0x0 have no affect.
		Write 0x1 to clear the values of QSTAT5.WM, QSTAT5.THRXCD, EDMA_TPCC_CCERR[5]QTHRXCD5
4	QTHRXCD4	Clear error for EDMA_TPCC_CCERR[4] QTHRXCD4:	W	0x0
		Write 0x0 have no affect.
		Write 0x1 to clear the values of QSTAT4.WM, QSTAT4.THRXCD, EDMA_TPCC_CCERR[4] QTHRXCD4
3	QTHRXCD3	Clear error for EDMA_TPCC_CCERR[3] QTHRXCD3	W	0x0
		Write 0x1 to clear the values of QSTAT3.WM, QSTAT3.THRXCD, EDMA_TPCC_CCERR[3] QTHRXCD3
		Write 0x0 have no affect.
2	QTHRXCD2	Clear error for EDMA_TPCC_CCERR[2] QTHRXCD2	W	0x0
		Write 0x0 have no affect.
		Write 0x1 to clear the values of QSTAT2.WM, QSTAT2.THRXCD, EDMA_TPCC_CCERR[2] QTHRXCD2
1	QTHRXCD1	Clear error for EDMA_TPCC_CCERR[1] QTHRXCD1	W	0x0
		Write 0x1 to clear the values of QSTAT1.WM, QSTAT1.THRXCD, EDMA_TPCC_CCERR[1] QTHRXCD1
		Write 0x0 have no affect.
0	QTHRXCD0	Clear error for EDMA_TPCC_CCERR[0] QTHRXCD0	W	0x0
		Write 0x0 have no affect.
		Write 0x1 to clear the values of QSTAT0.WM, QSTAT0.THRXCD, EDMA_TPCC_CCERR[0] QTHRXCD0

Table 16-108 EDMA_TPCC_EEVAL

Address Offset	0x0000 0320
Physical Address	0x4330 0320 0x40D1 0320 0x4151 0320 0x01D1 0320 0x420A 0320 0x421A 0320	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Error Eval Register
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																														SET	EVAL

Bits	Field Name	Description	Type	Reset
31:2	RESERVED	Reserved	R	0x000000
1	SET	Error Interrupt Set	W	0x0
		CPU writes 0x0 has no effect.
		CPU writes 0x1 to the SET bit causes the TPCC error interrupt to be pulsed regardless of state of EDMA_TPCC_EMR/EDMA_TPCC_EMRH, EDMA_TPCC_QEMR, or EDMA_TPCC_CCERR.
0	EVAL	Error Interrupt Evaluate	W	0x0
		CPU writes 0x0 has no effect.
		CPU writes 0x1 to the EVAL bit causes the TPCC error interrupt to be pulsed if any errors have not been cleared in the EDMA_TPCC_EMR/EDMA_TPCC_EMRH, EDMA_TPCC_QEMR, or EDMA_TPCC_CCERR registers. The CPU must also write 0x1 after any error interrupts are serviced in order for subsequent interrupts to be asserted.

Table 16-109 EDMA_TPCC_DRAEM_k

Address Offset	0x0000 0340 + (0x8 * k)
Physical Address	0x4330 0340 + (0x8 * k) 0x40D1 0340 + (0x8 * k) 0x4151 0340 + (0x8 * k) 0x01D1 0340 + (0x8 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC
Description	DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled interrupt bits for bit N do not contribute to the generation of the TPCC region M interrupt. En = 1 : Accesses via Region M address space to Bit N in any DMA Channel Register are allowed. Reads will return the value from Bit N and writes will modify the state of bit N. Enabled interrupt bits for bit N do contribute to the generation of the TPCC region M interrupt.
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	DMA Region Access enable for Region M, bit #31	RW	0x0
30	E30	DMA Region Access enable for Region M, bit #30	RW	0x0
29	E29	DMA Region Access enable for Region M, bit #29	RW	0x0
28	E28	DMA Region Access enable for Region M, bit #28	RW	0x0
27	E27	DMA Region Access enable for Region M, bit #27	RW	0x0
26	E26	DMA Region Access enable for Region M, bit #26	RW	0x0
25	E25	DMA Region Access enable for Region M, bit #25	RW	0x0
24	E24	DMA Region Access enable for Region M, bit #24	RW	0x0
23	E23	DMA Region Access enable for Region M, bit #23	RW	0x0
22	E22	DMA Region Access enable for Region M, bit #22	RW	0x0
21	E21	DMA Region Access enable for Region M, bit #21	RW	0x0
20	E20	DMA Region Access enable for Region M, bit #20	RW	0x0
19	E19	DMA Region Access enable for Region M, bit #19	RW	0x0
18	E18	DMA Region Access enable for Region M, bit #18	RW	0x0
17	E17	DMA Region Access enable for Region M, bit #17	RW	0x0
16	E16	DMA Region Access enable for Region M, bit #16	RW	0x0
15	E15	DMA Region Access enable for Region M, bit #15	RW	0x0
14	E14	DMA Region Access enable for Region M, bit #14	RW	0x0
13	E13	DMA Region Access enable for Region M, bit #13	RW	0x0
12	E12	DMA Region Access enable for Region M, bit #12	RW	0x0
11	E11	DMA Region Access enable for Region M, bit #11	RW	0x0
10	E10	DMA Region Access enable for Region M, bit #10	RW	0x0
9	E9	DMA Region Access enable for Region M, bit #9	RW	0x0
8	E8	DMA Region Access enable for Region M, bit #8	RW	0x0
7	E7	DMA Region Access enable for Region M, bit #7	RW	0x0
6	E6	DMA Region Access enable for Region M, bit #6	RW	0x0
5	E5	DMA Region Access enable for Region M, bit #5	RW	0x0
4	E4	DMA Region Access enable for Region M, bit #4	RW	0x0
3	E3	DMA Region Access enable for Region M, bit #3	RW	0x0
2	E2	DMA Region Access enable for Region M, bit #2	RW	0x0
1	E1	DMA Region Access enable for Region M, bit #1	RW	0x0
0	E0	DMA Region Access enable for Region M, bit #0	RW	0x0

Table 16-110 EDMA_TPCC_DRAEHM_k

Address Offset	0x0000 0344 + (0x8 * k)
Physical Address	0x4330 0344 + (0x8 * k) 0x40D1 0344 + (0x8 * k) 0x4151 0344 + (0x8 * k) 0x01D1 0344 + (0x8 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC
Description	DMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled interrupt bits for bit N do not contribute to the generation of the TPCC region M interrupt. En = 1 : Accesses via Region M address space to Bit N in any DMA Channel Register are allowed. Reads will return the value from Bit N and writes will modify the state of bit N. Enabled interrupt bits for bit N do contribute to the generation of the TPCC region M interrupt. En = 0 : Accesses via Region M address space to Bit N in any DMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled interrupt bits for bit N do not contribute to the generation of the TPCC region M interrupt. En = 1 : Accesses via Region M address space to Bit N in any DMA Channel Register are allowed. Reads will return the value from Bit N and writes will modify the state of bit N. Enabled interrupt bits for bit N do contribute to the generation of the TPCC region M interrupt.
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	DMA Region Access enable for Region M, bit #63	RW	0x0
30	E62	DMA Region Access enable for Region M, bit #62	RW	0x0
29	E61	DMA Region Access enable for Region M, bit #61	RW	0x0
28	E60	DMA Region Access enable for Region M, bit #60	RW	0x0
27	E59	DMA Region Access enable for Region M, bit #59	RW	0x0
26	E58	DMA Region Access enable for Region M, bit #58	RW	0x0
25	E57	DMA Region Access enable for Region M, bit #57	RW	0x0
24	E56	DMA Region Access enable for Region M, bit #56	RW	0x0
23	E55	DMA Region Access enable for Region M, bit #55	RW	0x0
22	E54	DMA Region Access enable for Region M, bit #54	RW	0x0
21	E53	DMA Region Access enable for Region M, bit #53	RW	0x0
20	E52	DMA Region Access enable for Region M, bit #52	RW	0x0
19	E51	DMA Region Access enable for Region M, bit #51	RW	0x0
18	E50	DMA Region Access enable for Region M, bit #50	RW	0x0
17	E49	DMA Region Access enable for Region M, bit #49	RW	0x0
16	E48	DMA Region Access enable for Region M, bit #48	RW	0x0
15	E47	DMA Region Access enable for Region M, bit #47	RW	0x0
14	E46	DMA Region Access enable for Region M, bit #46	RW	0x0
13	E45	DMA Region Access enable for Region M, bit #45	RW	0x0
12	E44	DMA Region Access enable for Region M, bit #44	RW	0x0
11	E43	DMA Region Access enable for Region M, bit #43	RW	0x0
10	E42	DMA Region Access enable for Region M, bit #42	RW	0x0
9	E41	DMA Region Access enable for Region M, bit #41	RW	0x0
8	E40	DMA Region Access enable for Region M, bit #40	RW	0x0
7	E39	DMA Region Access enable for Region M, bit #39	RW	0x0
6	E38	DMA Region Access enable for Region M, bit #38	RW	0x0
5	E37	DMA Region Access enable for Region M, bit #37	RW	0x0
4	E36	DMA Region Access enable for Region M, bit #36	RW	0x0
3	E35	DMA Region Access enable for Region M, bit #35	RW	0x0
2	E34	DMA Region Access enable for Region M, bit #34	RW	0x0
1	E33	DMA Region Access enable for Region M, bit #33	RW	0x0
0	E32	DMA Region Access enable for Region M, bit #32	RW	0x0

Table 16-111 EDMA_TPCC_QRAEN_k

Address Offset	0x0000 0380 + (0x4 * k)
Physical Address	0x4330 0380 + (0x4 * k) 0x40D1 0380 + (0x4 * k) 0x4151 0380 + (0x4 * k) 0x01D1 0380 + (0x4 * k) 0x420A 0380 + (0x4 * k) 0x421A 0380 + (0x4 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Region Access enable for bit N in Region M: En = 0 : Accesses via Region M address space to Bit N in any QDMA Channel Register are not allowed. Reads will return 'b0 on Bit N and writes will not modify the state of bit N. Enabled interrupt bits for bit N do not contribute to the generation of the TPCC region M interrupt. En = 1 : Accesses via Region M address space to Bit N in any QDMA Channel Register are allowed. Reads will return the value from Bit N and writes will modify the state of bit N. Enabled interrupt bits for bit N do contribute to the generation of the TPCC region n interrupt.
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R	0x0
7	E7	QDMA Region Access enable for Region M, bit #7	RW	0x0
6	E6	QDMA Region Access enable for Region M, bit #6	RW	0x0
5	E5	QDMA Region Access enable for Region M, bit #5	RW	0x0
4	E4	QDMA Region Access enable for Region M, bit #4	RW	0x0
3	E3	QDMA Region Access enable for Region M, bit #3	RW	0x0
2	E2	QDMA Region Access enable for Region M, bit #2	RW	0x0
1	E1	QDMA Region Access enable for Region M, bit #1	RW	0x0
0	E0	QDMA Region Access enable for Region M, bit #0	RW	0x0

Table 16-112 EDMA_TPCC_Q0E_p

Address Offset	0x0000 0400 + (0x4 * l)
Physical Address	0x4330 0400 + (0x4 * p) 0x40D1 0400 + (0x4 * p) 0x4151 0400 + (0x4 * p) 0x01D1 0400 + (0x4 * p)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC
Description	Event Queue Entries Diagram for Queue 0 - Entry 0 through Entry 15
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								ETYPE		ENUM

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R	0x0
7:6	ETYPE	Event Type: Specifies the specific Event Type for the given entry in the Event Queue.	R	0x0
5:0	ENUM	Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER/EDMA_TPCC_ESR/EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Channel events (EDMA_TPCC_QER), ENUM will range between 0 and NUM_QDMACH (up to 7).	R	0x0

Table 16-113 EDMA_TPCC_Q1E_p

Address Offset	0x0000 0440 + (0x4 * l)
Physical Address	0x4330 0440 + (0x4 * p) 0x40D1 0440 + (0x4 * p) 0x4151 0440 + (0x4 * p) 0x01D1 0440 + (0x4 * p)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC
Description	Event Queue Entries Diagram for Queue 1 - Entry 0 through Entry 15
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								ETYPE		ENUM

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R	0x0
7:6	ETYPE	Event Type: Specifies the specific Event Type for the given entry in the Event Queue.	R	0x0
5:0	ENUM	Event Number: Specifies the specific Event Number for the given entry in the Event Queue. For DMA Channel events (EDMA_TPCC_ER / EDMA_TPCC_ESR / EDMA_TPCC_CER), ENUM will range between 0 and NUM_DMACH (up to 63). For QDMA Channel events (EDMA_TPCC_QER), ENUM will range between 0 and NUM_QDMACH (up to 7).	R	0x0

Table 16-114 EDMA_TPCC_QSTATN_i

Address Offset	0x0000 0600 + (0x4 * i)
Physical Address	0x4330 0600 + (0x4 * i) 0x40D1 0600 + (0x4 * i) 0x4151 0600 + (0x4 * i) 0x01D1 0600 + (0x4 * i) 0x420A 0600 + (0x4 * i) 0x421A 0600 + (0x4 * i)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QSTATn Register Set
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED							THRXCD	RESERVED			WM					RESERVED			NUMVAL					RESERVED				STRTPTR

Bits	Field Name	Description	Type	Reset
31:25	RESERVED	Reserved	R Returns 0's	0x0
24	THRXCD	Threshold Exceeded	R	0x0
		0x0 : Threshold specified by QWMTHR(A\|B).Qn has not been exceeded.
		0x1 : Threshold specified by QWMTHR(A\|B).Qn has been exceeded.
		THRXCD is cleared via EDMA_TPCC_CCERR. WMCLRn bit.
23:21	RESERVED	Reserved	R Returns 0's	0x0
20:16	WM	Watermark for Maximum Queue Usage: Watermark tracks the most entries that have been in QueueN since reset or since the last time that the watermark (WM) was cleared. QSTATn. WM is cleared via EDMA_TPCC_CCERR.WMCLRn bit. Legal values:	R	0x0
		0x0: empty
		0x10: full
15:13	RESERVED	Reserved	Returns 0's	0x0
12:8	NUMVAL	Number of Valid Entries in QueueN: Represents the total number of entries residing in the Queue Manager FIFO at a given instant. Always enabled. Legal values: = 0x0 (empty) to 0x10 (full)	R	0x0
		0x0: empty
		0x10: full
7:4	RESERVED	Reserved	Returns 0's	0x0
3:0	STRTPTR	Start Pointer: Represents the offset to the head entry of QueueN, in units of entries. Always enabled. Legal values:	R	0x0
		0x0: 0th entry
		0xF: 15th entry

Table 16-115 EDMA_TPCC_QWMTHRA

Address Offset	0x0000 0620
Physical Address	0x4330 0620 0x40D1 0620 0x4151 0620 0x01D1 0620 0x420A 0620 0x421A 0620	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Queue Threshold A, for Q[3:0]: EDMA_TPCC_CCERR.QTHRXCDn and QSTATn[24] THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by EDMA_TPCC_QWMTHRA.Qn. Legal values = 0x0 (ever used?) to 0x10 (ever full?) A value of 0x11 disables threshold errors.
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED			Q3					RESERVED			Q2					RESERVED			Q1					RESERVED			Q0

Bits	Field Name	Description	Type	Reset
31:29	RESERVED	Reserved	R	0x0
28:24	Q3	Queue Threshold for Q3 value	RW	0x10
23:21	RESERVED	Reserved	R	0x0
20:16	Q2	Queue Threshold for Q2 value	RW	0x10
15:13	RESERVED	Reserved	R	0x0
12:8	Q1	Queue Threshold for Q1 value	RW	0x10
7:5	RESERVED	Reserved	R	0x0
4:0	Q0	Queue Threshold for Q0 value	RW	0x10

Table 16-116 EDMA_TPCC_QWMTHRB

Address Offset	0x0000 0624
Physical Address	0x4330 0624 0x40D1 0624 0x4151 0624 0x01D1 0624 0x420A 0624 0x421A 0624	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Queue Threshold B, for Q[7:4]: EDMA_TPCC_CCERR.QTHRXCDn and QSTATn[24]THRXCD error bit is set when the number of Events in QueueN at an instant in time (visible via QSTATn[12:8] NUMVAL) equals or exceeds the value specified by QWMTHRB.Qn. Legal values = 0x0 (ever used?) to 0x10 (ever full?) A value of 0x11 disables threshold errors.
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED			Q7					RESERVED			Q6					RESERVED			Q5					RESERVED			Q4

Bits	Field Name	Description	Type	Reset
31:29	RESERVED	Reserved	R	0x0
28:24	Q7	Queue Threshold for Q7 value (unused in the context of IVAHD)	RW	0x10
23:21	RESERVED	Reserved	R	0x0
20:16	Q6	Queue Threshold for Q6 value (unused in the context of IVAHD)	RW	0x10
15:13	RESERVED	Reserved	R	0x0
12:8	Q5	Queue Threshold for Q5 value (unused in the context of IVAHD)	RW	0x10
7:5	RESERVED	Reserved	R	0x0
4:0	Q4	Queue Threshold for Q4 value (unused in the context of IVAHD)	RW	0x10

Table 16-117 EDMA_TPCC_CCSTAT

Address Offset	0x0000 0640
Physical Address	0x4330 0640 0x40D1 0640 0x4151 0640 0x01D1 0640 0x420A 0640 0x421A 0640	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	CC Status Register
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED								QUEACTV7	QUEACTV6	QUEACTV5	QUEACTV4	QUEACTV3	QUEACTV2	QUEACTV1	QUEACTV0	RESERVED		COMPACTV						RESERVED			ACTV	RESERVED	TRACTV	QEVTACTV	EVTACTV

Bits	Field Name	Description	Type	Reset
31:24	RESERVED	reads return 0's	R	0x0
23	QUEACTV7	Queue 7 Active	R	0x0
		0x0: No Evts are queued in Q7
		0x1: At least one TR is queued in Q7.
22	QUEACTV6	Queue 6 Active	R	0x0
		0x0: No Evts are queued in Q6.
		0x1: At least one TR is queued in Q6.
21	QUEACTV5	Queue 5 Active	R	0x0
		0x0: No Evts are queued in Q5
		0x1: At least one TR is queued in Q5.
20	QUEACTV4	Queue 4 Active	R	0x0
		0x0: No Evts are queued in Q4.
		0x1: At least one TR is queued in Q4.
19	QUEACTV3	Queue 3 Active	R	0x0
		0x0: No Evts are queued in Q3.
		0x1: At least one TR is queued in Q3.
18	QUEACTV2	Queue 2 Active QUEACTV2 = 0 : No Evts are queued in Q2. QUEACTV2 = 1 : At least one TR is queued in Q2.	R	0x0
		0x0:
		0x1:
17	QUEACTV1	Queue 1 Active	R	0x0
		0x0: No Evts are queued in Q1.
		0x1: At least one TR is queued in Q1.
16	QUEACTV0	Queue 0 Active	R	0x0
		0x0: No Evts are queued in Q0.
		0x1: At least one TR is queued in Q0.
15:14	RESERVED	Reserved	R reads return 0's	0x0
13:8	COMPACTV	Completion Request Active: Counter that tracks the total number of completion requests submitted to the TC. The counter increments when a TR is submitted with TCINTEN or TCCHEN set to '1'. The counter decrements for every valid completion code received from any of the external TCs. The CC will not service new TRs if COMPACTV count is already at the limit.	R	0x0
		0x0: No completion requests outstanding.
		0x1: Total of '1' completion request outstanding.
		...
		0x3F: Total of 63 completion requests are outstanding. No additional TRs will be submitted until count is less than 63.
7:5	RESERVED	reads return 0's	R	0x0
4	ACTV	Channel Controller Active Channel Controller Active is a logical-OR of each of the *ACTV signals. The ACTV bit must remain high through the life of a:	R	0x0
		0x0: Channel is idle.
		0x1: Channel is busy.
3	RESERVED	reads return 0's	R	0x0
2	TRACTV	Transfer Request Active TRACTV = 0 : Transfer Request processing/submission logic is inactive. TRACTV = 1 : Transfer Request processing/submission logic is active.	R	0x0
		0x0:
		0x1:
1	QEVTACTV	QDMA Event Active	R	0x0
		0x0: No enabled QDMA Events are active within the CC.
		0x1: At least one enabled DMA Event (EDMA_TPCC_ER, EDMA_TPCC_EER, EDMA_TPCC_ESR, EDMA_TPCC_CER) is active within the CC.
0	EVTACTV	DMA Event Active	R	0x0
		0x0: No enabled DMA Events are active within the CC.
		0x1: At least one enabled DMA Event (EDMA_TPCC_ER, EDMA_TPCC_EER, EDMA_TPCC_ESR, EDMA_TPCC_CER) is active within the CC.

Table 16-118 EDMA_TPCC_AETCTL

Address Offset	0x0000 0700
Physical Address	0x4330 0700 0x40D1 0700 0x4151 0700 0x01D1 0700 0x420A 0700 0x421A 0700	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Advanced Event Trigger Control
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
EN	RESERVED																	ENDINT						RESERVED	TYPE	STRTEVT

Bits	Field Name	Description	Type	Reset
31	EN	AET Enable	RW	0x0
		0x0: AET event generation is disabled.
		0x1: AET event generation is enabled.
30:14	RESERVED	Reserved	R	0x0
13:8	ENDINT	AET End Interrupt: Dictates the completion interrupt number that will force the tpcc_aet signal to be deasserted (low)	RW	0x0
7	RESERVED	Reserved	R	0x0
6	TYPE	AET Event Type	RW	0x0
		0x0: Event specified by STARTEVT applies to DMA Events (set by EDMA_TPCC_ER, EDMA_TPCC_ESR, or EDMA_TPCC_CER)
		0x1: Event specified by STARTEVT applies to QDMA Events
5:0	STRTEVT	AET Start Event: Dictates the Event Number that will force the tpcc_aet signal to be asserted (high)	RW	0x0

Table 16-119 EDMA_TPCC_AETSTAT

Address Offset	0x0000 0704
Physical Address	0x4330 0704 0x40D1 0704 0x4151 0704 0x01D1 0704 0x420A 0704 0x421A 0704	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Advanced Event Trigger Stat
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																															STAT

Bits	Field Name	Description	Type	Reset
31:1	RESERVED	Reserved	R Return 0's	0x0
0	STAT	AET Status	R	0x0
		0x0: tpcc_aet is currently low.
		0x1: tpcc_aet is currently high.

Table 16-120 EDMA_TPCC_AETCMD

Address Offset	0x0000 0708
Physical Address	0x4330 0708 0x40D1 0708 0x4151 0708 0x01D1 0708 0x420A 0708 0x421A 0708	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	AET Command
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																															CLR

Bits	Field Name	Description	Type	Reset
31:1	RESERVED	Reserved	R	0x0
0	CLR	AET Clear command	W	0x0
		CPU writes 0x0 has no effect.
		CPU writes 0x1 to the CLR bit causes the tpcc_aet output signal and EDMA_TPCC_AETSTAT[0]STAT register to be cleared.

Table 16-121 EDMA_TPCC_MPFAR

Address Offset	0x0000 0800
Physical Address	0x4330 0800 0x40D1 0800 0x4151 0800 0x01D1 0800 0x420A 0800 0x421A 0800	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	MMemory Protection Fault Address
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
FADDR

Bits	Field Name	Description	Type	Reset
31:0	FADDR	Fault Address: 32-bit read-only status register containing the faulting address when a mMemory protection violation is detected. This register can only be cleared via the EDMA_TPCC_MPFCR.	R	0x0

Table 16-122 EDMA_TPCC_MPFSR

Address Offset	0x0000 0804
Physical Address	0x4330 0804 0x40D1 0804 0x4151 0804 0x01D1 0804 0x420A 0804 0x421A 0804	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Memory Protection Fault Status Register
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																			FID				RESERVED			SRE	SWE	SXE	URE	UWE	UXE

Bits	Field Name	Description	Type	Reset
31:13	RESERVED	Reserved	R Returns 0	0x0
12:9	FID	Faulted ID: FID register contains valid info if any of the MP error bits (UXE, UWE, URE, SXE, SWE, SRE) are non-zero (i.e., if an error has been detected.) The FID field contains the VBus PrivID for the specific request/requestor that resulted in a MP Error.	R	0x0
8:6	RESERVED	Reserved	R Returns 0	0x0
5	SRE	Supervisor Read Error	R	0x0
		0x0: No error detected.
		0x1: Supervisor level task attempted to Read from a MP Page without SR permissions.
4	SWE	Supervisor Write Error	R	0x0
		0x0: No error detected.
		0x1: Supervisor level task attempted to Write to a MP Page without SW permissions.
3	SXE	Supervisor Execute Error	R	0x0
		0x0: No error detected.
		0x1: Supervisor level task attempted to Execute from a MP Page without SX permissions.
2	URE	User Read Error	R	0x0
		0x0: No error detected.
		0x1: User level task attempted to Read from a MP Page without UR permissions.
1	UWE	User Write Error	R	0x0
		0x0: No error detected.
		0x1: User level task attempted to Write to a MP Page without UW permissions.
0	UXE	User Execute Error	R	0x0
		0x0: No error detected
		0x1: User level task attempted to Execute from a MP Page without UX permissions.

Table 16-123 EDMA_TPCC_MPFCR

Address Offset	0x0000 0808
Physical Address	0x4330 0808 0x40D1 0808 0x4151 0808 0x01D1 0808 0x420A 0808 0x421A 0808	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Memory Protection Fault Command Register
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																															MPFCLR

Bits	Field Name	Description	Type	Reset
31:1	RESERVED	Reserved	R	0x0
0	MPFCLR	Fault Clear register	W	0x0
		CPU writes 0x0: has no effect
		CPU writes 0x1: to the MPFCLR bit causes any error conditions stored in EDMA_TPCC_MPFAR and EDMA_TPCC_MPFSR registers to be cleared.

Table 16-124 EDMA_TPCC_MPPAG

Address Offset	0x0000 080C
Physical Address	0x4330 080C 0x40D1 080C 0x4151 080C 0x01D1 080C 0x420A 080C 0x421A 080C	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Memory Protection Page Attribute for Global registers
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																AID5	AID4	AID3	AID2	AID1	AID0	EXT	RESERVED			SR	SW	SX	UR	UW	UX

Bits	Field Name	Description	Type	Reset
31:16	RESERVED	Reserved	R	0x0
15	AID5	Allowed ID 5	RW	0x1
		0x0: VBus requests with PrivID == '5' are not allowed regardless of permission settings (UW, UR, SW, SR).0
		0x1: VBus requests with PrivID == '5' are permitted if access type is allowed as defined by permission settings (UW, UR, SW, SR).
14	AID4	Allowed ID 4	RW	0x1
		0x0: VBus requests with PrivID == '4' are not allowed regardless of permission settings (UW, UR, SW, SR).
		0x1: VBus requests with PrivID == '4' are permitted if access type is allowed as defined by permission settings (UW, UR, SW, SR).
13	AID3	Allowed ID 3	RW	0x1
		0x0: VBus requests with PrivID == '3' are not allowed regardless of permission settings (UW, UR, SW, SR).
		0x1: VBus requests with PrivID == '3' are permitted if access type is allowed as defined by permission settings (UW, UR, SW, SR).
12	AID2	Allowed ID 2	RW	0x1
		0x0: VBus requests with PrivID == '2' are not allowed regardless of permission settings (UW, UR, SW, SR).
		0x1: VBus requests with PrivID == '2' are permitted if access type is allowed as defined by permission settings (UW, UR, SW, SR).
11	AID1	Allowed ID 1	RW	0x1
		0x0: VBus requests with PrivID == '1' are not allowed regardless of permission settings (UW, UR, SW, SR).
		0x1: VBus requests with PrivID == '1' are permitted if access type is allowed as defined by permission settings (UW, UR, SW, SR).
10	AID0	Allowed ID 0	RW	0x1
		0x0: VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR).
		0x1: VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission settings (UW, UR, SW, SR).
9	EXT	External Allowed ID	RW	0x1
		0x0: VBus requests with PrivID = '6' are not allowed regardless of permission settings (UW, UR, SW, SR).
		0x1: VBus requests with PrivID = '6' are permitted if access type is allowed as defined by permission settings (UW, UR, SW, SR).
8:6	RESERVED	Reserved	R	0x1
5	SR	Supervisor Read permission	RW	0x1
		0x0: Supervisor read accesses are not allowed
		0x1: Supervisor write accesses are allowed
4	SW	Supervisor Write permission	RW	0x1
		0x0: Supervisor write accesses are not allowed
		0x1: Supervisor write accesses are allowed
3	SX	Supervisor Execute permission	RW	0x0
		0x0: Supervisor execute accesses are not allowed
		0x1: Supervisor execute accesses are allowed
2	UR	User Read permission	RW	0x1
		0x0: User read accesses are not allowed
		0x1: User write accesses are allowed
1	UW	User Write permission	RW	0x1
		0x0: User write accesses are not allowed
		0x1: User write accesses are allowed
0	UX	User Execute permission	RW	0x0
		0x0: User execute accesses are not allowed
		0x1: User execute accesses are allowed

Table 16-125 EDMA_TPCC_MPPAN_k

Address Offset	0x0000 0810 + (0x4 * k)
Physical Address	0x4330 0810 + (0x4 * k) 0x40D1 0810 + (0x4 * k) 0x4151 0810 + (0x4 * k) 0x01D1 0810 + (0x4 * k) 0x420A 0810 + (0x4 * k) 0x421A 0810 + (0x4 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	P Permission Attribute for DMA Region n
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																AID5	AID4	AID3	AID2	AID1	AID0	EXT	RESERVED			SR	SW	SX	UR	UW	UX

Bits	Field Name	Description	Type	Reset
31:16	RESERVED	Reserved	R	0x0
15	AID5	Allowed ID 5	RW	0x1
		0x0: VBus requests with PrivID == '5' are not allowed regardless of permission settings (UW, UR, SW, SR).
		0x1: VBus requests with PrivID == '5' are permitted if access type is allowed as defined by permission settings (UW, UR, SW, SR).
14	AID4	Allowed ID 4	RW	0x1
		0x0: VBus requests with PrivID == '4' are not allowed regardless of permission settings (UW, UR, SW, SR).
		0x1: VBus requests with PrivID == '4' are permitted if access type is allowed as defined by permission settings (UW, UR, SW, SR).
13	AID3	Allowed ID 3	RW	0x1
		0x0: VBus requests with PrivID == '3' are not allowed regardless of permission settings (UW, UR, SW, SR).
		0x1: VBus requests with PrivID == '3' are permitted if access type is allowed as defined by permission settings (UW, UR, SW, SR).
12	AID2	Allowed ID 2	RW	0x1
		0x0: VBus requests with PrivID == '2' are not allowed regardless of permission settings (UW, UR, SW, SR).
		0x1: VBus requests with PrivID == '2' are permitted if access type is allowed as defined by permission settings (UW, UR, SW, SR).
11	AID1	Allowed ID 1	RW	0x1
		0x0: VBus requests with PrivID == '1' are not allowed regardless of permission settings (UW, UR, SW, SR).
		0x1: VBus requests with PrivID == '1' are permitted if access type is allowed as defined by permission settings (UW, UR, SW, SR).
10	AID0	Allowed ID 0: AID0 = 0 : VBus requests with PrivID == '0' are not allowed regardless of permission settings (UW, UR, SW, SR). AID0 = 1 : VBus requests with PrivID == '0' are permitted if access type is allowed as defined by permission settings (UW, UR, SW, SR).	RW	0x1
		0x0:
		0x1:
9	EXT	External Allowed ID	RW	0x1
		0x0: VBus requests with PrivID = '6' are not allowed regardless of permission settings (UW, UR, SW, SR).
		0x1: VBus requests with PrivID = '6' are permitted if access type is allowed as defined by permission settings (UW, UR, SW, SR).
8:6	RESERVED	Reserved	R	0x0
5	SR	Supervisor Read permission	RW	0x1
		0x0: Supervisor read accesses are not allowed
		0x1: Supervisor write accesses are allowed
4	SW	Supervisor Write permission	RW	0x1
		0x0: Supervisor write accesses are not allowed
		0x1: Supervisor write accesses are allowed
3	SX	Supervisor Execute permission	RW	0x0
		0x0: Supervisor execute accesses are not allowed
		0x1: Supervisor execute accesses are allowed
2	UR	User Read permission	RW	0x1
		0x0: User read accesses are not allowed
		0x1: User write accesses are allowed
1	UW	User Write permission	RW	0x1
		0x0: User write accesses are not allowed
		0x1: User write accesses are allowed
0	UX	User Execute permission	RW	0x0
		0x0: User execute accesses are not allowed
		0x0: User execute accesses are allowed

Table 16-126 EDMA_TPCC_ER

Address Offset	0x0000 1000
Physical Address	0x4330 1000 0x40D1 1000 0x4151 1000 0x01D1 1000 0x420A 1000 0x421A 1000	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Register: If EDMA_TPCC_ER.En bit is set and the EDMA_TPCC_EER.En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. EDMA_TPCC_ER.En bit is set when the input event #n transitions from inactive (low) to active (high), regardless of the state of EDMA_TPCC_EER.En bit. EDMA_TPCC_ER.En bit is cleared when the corresponding event is prioritized and serviced. If the EDMA_TPCC_ER.En bit is already set and a new inactive to active transition is detected on the input event #n input AND the corresponding bit in the EDMA_TPCC_EER register is set, then the corresponding bit in the Event Missed Register is set. Event N can be cleared via sw by writing a '1' to the EDMA_TPCC_ECR pseudo-register.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	R	0x0
30	E30	Event #30	R	0x0
29	E29	Event #29	R	0x0
28	E28	Event #28	R	0x0
27	E27	Event #27	R	0x0
26	E26	Event #26	R	0x0
25	E25	Event #25	R	0x0
24	E24	Event #24	R	0x0
23	E23	Event #23	R	0x0
22	E22	Event #22	R	0x0
21	E21	Event #21	R	0x0
20	E20	Event #20	R	0x0
19	E19	Event #19	R	0x0
18	E18	Event #18	R	0x0
17	E17	Event #17	R	0x0
16	E16	Event #16	R	0x0
15	E15	Event #15	R	0x0
14	E14	Event #14	R	0x0
13	E13	Event #13	R	0x0
12	E12	Event #12	R	0x0
11	E11	Event #11	R	0x0
10	E10	Event #10	R	0x0
9	E9	Event #9	R	0x0
8	E8	Event #8	R	0x0
7	E7	Event #7	R	0x0
6	E6	Event #6	R	0x0
5	E5	Event #5	R	0x0
4	E4	Event #4	R	0x0
3	E3	Event #3	R	0x0
2	E2	Event #2	R	0x0
1	E1	Event #1	R	0x0
0	E0	Event #0	R	0x0

Table 16-127 EDMA_TPCC_ERH

Address Offset	0x0000 1004
Physical Address	0x4330 1004 0x40D1 1004 0x4151 1004 0x01D1 1004 0x420A 1004 0x421A 1004	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Register (High Part): If EDMA_TPCC_ERH.En bit is set and the EDMA_TPCC_EERH.En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. EDMA_TPCC_ERH.En bit is set when the input event #n transitions from inactive (low) to active (high), regardless of the state of EDMA_TPCC_EERH.En bit. EDMA_TPCC_ER.En bit is cleared when the corresponding event is prioritized and serviced. If the EDMA_TPCC_ERH.En bit is already set and a new inactive to active transition is detected on the input event #n input AND the corresponding bit in the EDMA_TPCC_EERH register is set, then the corresponding bit in the Event Missed Register is set. Event N can be cleared via sw by writing a '1' to the EDMA_TPCC_ECRH pseudo-register.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	R	0x0
30	E62	Event #62	R	0x0
29	E61	Event #61	R	0x0
28	E60	Event #60	R	0x0
27	E59	Event #59	R	0x0
26	E58	Event #58	R	0x0
25	E57	Event #57	R	0x0
24	E56	Event #56	R	0x0
23	E55	Event #55	R	0x0
22	E54	Event #54	R	0x0
21	E53	Event #53	R	0x0
20	E52	Event #52	R	0x0
19	E51	Event #51	R	0x0
18	E50	Event #50	R	0x0
17	E49	Event #49	R	0x0
16	E48	Event #48	R	0x0
15	E47	Event #47	R	0x0
14	E46	Event #46	R	0x0
13	E45	Event #45	R	0x0
12	E44	Event #44	R	0x0
11	E43	Event #43	R	0x0
10	E42	Event #42	R	0x0
9	E41	Event #41	R	0x0
8	E40	Event #40	R	0x0
7	E39	Event #39	R	0x0
6	E38	Event #38	R	0x0
5	E37	Event #37	R	0x0
4	E36	Event #36	R	0x0
3	E35	Event #35	R	0x0
2	E34	Event #34	R	0x0
1	E33	Event #33	R	0x0
0	E32	Event #32	R	0x0

Table 16-128 EDMA_TPCC_ECR

Address Offset	0x0000 1008
Physical Address	0x4330 1008 0x40D1 1008 0x4151 1008 0x01D1 1008 0x420A 1008 0x421A 1008	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Clear Register: CPU write of '1' to the EDMA_TPCC_ECR.En bit causes the EDMA_TPCC_ER.En bit to be cleared. CPU write of '0' has no effect.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	W	0x0
30	E30	Event #30	W	0x0
29	E29	Event #29	W	0x0
28	E28	Event #28	W	0x0
27	E27	Event #27	W	0x0
26	E26	Event #26	W	0x0
25	E25	Event #25	W	0x0
24	E24	Event #24	W	0x0
23	E23	Event #23	W	0x0
22	E22	Event #22	W	0x0
21	E21	Event #21	W	0x0
20	E20	Event #20	W	0x0
19	E19	Event #19	W	0x0
18	E18	Event #18	W	0x0
17	E17	Event #17	W	0x0
16	E16	Event #16	W	0x0
15	E15	Event #15	W	0x0
14	E14	Event #14	W	0x0
13	E13	Event #13	W	0x0
12	E12	Event #12	W	0x0
11	E11	Event #11	W	0x0
10	E10	Event #10	W	0x0
9	E9	Event #9	W	0x0
8	E8	Event #8	W	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-129 EDMA_TPCC_ECRH

Address Offset	0x0000 100C
Physical Address	0x4330 100C 0x40D1 100C 0x4151 100C 0x01D1 100C 0x420A 100C 0x421A 100C	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Clear Register (High Part): CPU write of '1' to the EDMA_TPCC_ECRH.En bit causes the EDMA_TPCC_ERH.En bit to be cleared. CPU write of '0' has no effect.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	W	0x0
30	E62	Event #62	W	0x0
29	E61	Event #61	W	0x0
28	E60	Event #60	W	0x0
27	E59	Event #59	W	0x0
26	E58	Event #58	W	0x0
25	E57	Event #57	W	0x0
24	E56	Event #56	W	0x0
23	E55	Event #55	W	0x0
22	E54	Event #54	W	0x0
21	E53	Event #53	W	0x0
20	E52	Event #52	W	0x0
19	E51	Event #51	W	0x0
18	E50	Event #50	W	0x0
17	E49	Event #49	W	0x0
16	E48	Event #48	W	0x0
15	E47	Event #47	W	0x0
14	E46	Event #46	W	0x0
13	E45	Event #45	W	0x0
12	E44	Event #44	W	0x0
11	E43	Event #43	W	0x0
10	E42	Event #42	W	0x0
9	E41	Event #41	W	0x0
8	E40	Event #40	W	0x0
7	E39	Event #39	W	0x0
6	E38	Event #38	W	0x0
5	E37	Event #37	W	0x0
4	E36	Event #36	W	0x0
3	E35	Event #35	W	0x0
2	E34	Event #34	W	0x0
1	E33	Event #33	W	0x0
0	E32	Event #32	W	0x0

Table 16-130 EDMA_TPCC_ESR

Address Offset	0x0000 1010
Physical Address	0x4330 1010 0x40D1 1010 0x4151 1010 0x01D1 1010 0x420A 1010 0x421A 1010	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Set Register: CPU write of '1' to the EDMA_TPCC_ESR.En bit causes the EDMA_TPCC_ER.En bit to be set. CPU write of '0' has no effect.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	W	0x0
30	E30	Event #30	W	0x0
29	E29	Event #29	W	0x0
28	E28	Event #28	W	0x0
27	E27	Event #27	W	0x0
26	E26	Event #26	W	0x0
25	E25	Event #25	W	0x0
24	E24	Event #24	W	0x0
23	E23	Event #23	W	0x0
22	E22	Event #22	W	0x0
21	E21	Event #21	W	0x0
20	E20	Event #20	W	0x0
19	E19	Event #19	W	0x0
18	E18	Event #18	W	0x0
17	E17	Event #17	W	0x0
16	E16	Event #16	W	0x0
15	E15	Event #15	W	0x0
14	E14	Event #14	W	0x0
13	E13	Event #13	W	0x0
12	E12	Event #12	W	0x0
11	E11	Event #11	W	0x0
10	E10	Event #10	W	0x0
9	E9	Event #9	W	0x0
8	E8	Event #8	W	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-131 EDMA_TPCC_ESRH

Address Offset	0x0000 1014
Physical Address	0x4330 1014 0x40D1 1014 0x4151 1014 0x01D1 1014 0x420A 1014 0x421A 1014	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Set Register (High Part) CPU write of '1' to the EDMA_TPCC_ESRH.En bit causes the EDMA_TPCC_ERH.En bit to be set. CPU write of '0' has no effect.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	W	0x0
30	E62	Event #62	W	0x0
29	E61	Event #61	W	0x0
28	E60	Event #60	W	0x0
27	E59	Event #59	W	0x0
26	E58	Event #58	W	0x0
25	E57	Event #57	W	0x0
24	E56	Event #56	W	0x0
23	E55	Event #55	W	0x0
22	E54	Event #54	W	0x0
21	E53	Event #53	W	0x0
20	E52	Event #52	W	0x0
19	E51	Event #51	W	0x0
18	E50	Event #50	W	0x0
17	E49	Event #49	W	0x0
16	E48	Event #48	W	0x0
15	E47	Event #47	W	0x0
14	E46	Event #46	W	0x0
13	E45	Event #45	W	0x0
12	E44	Event #44	W	0x0
11	E43	Event #43	W	0x0
10	E42	Event #42	W	0x0
9	E41	Event #41	W	0x0
8	E40	Event #40	W	0x0
7	E39	Event #39	W	0x0
6	E38	Event #38	W	0x0
5	E37	Event #37	W	0x0
4	E36	Event #36	W	0x0
3	E35	Event #35	W	0x0
2	E34	Event #34	W	0x0
1	E33	Event #33	W	0x0
0	E32	Event #32	W	0x0

Table 16-132 EDMA_TPCC_CER

Address Offset	0x0000 1018
Physical Address	0x4330 1018 0x40D1 1018 0x4151 1018 0x01D1 1018 0x420A 1018 0x421A 1018	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Chained Event Register: If EDMA_TPCC_CER.En bit is set (regardless of state of EDMA_TPCC_EER.En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. EDMA_TPCC_CER.En bit is set when a chaining completion code is returned from one of the 3PTCs via the completion interface, or is generated internally via Early Completion path. EDMA_TPCC_CER.En bit is cleared when the corresponding event is prioritized and serviced. If the EDMA_TPCC_CER.En bit is already set and the corresponding chaining completion code is returned from the TC, then the corresponding bit in the Event Missed Register is set. EDMA_TPCC_CER.En cannot be set or cleared via software.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	R	0x0
30	E30	Event #30	R	0x0
29	E29	Event #29	R	0x0
28	E28	Event #28	R	0x0
27	E27	Event #27	R	0x0
26	E26	Event #26	R	0x0
25	E25	Event #25	R	0x0
24	E24	Event #24	R	0x0
23	E23	Event #23	R	0x0
22	E22	Event #22	R	0x0
21	E21	Event #21	R	0x0
20	E20	Event #20	R	0x0
19	E19	Event #19	R	0x0
18	E18	Event #18	R	0x0
17	E17	Event #17	R	0x0
16	E16	Event #16	R	0x0
15	E15	Event #15	R	0x0
14	E14	Event #14	R	0x0
13	E13	Event #13	R	0x0
12	E12	Event #12	R	0x0
11	E11	Event #11	R	0x0
10	E10	Event #10	R	0x0
9	E9	Event #9	R	0x0
8	E8	Event #8	R	0x0
7	E7	Event #7	R	0x0
6	E6	Event #6	R	0x0
5	E5	Event #5	R	0x0
4	E4	Event #4	R	0x0
3	E3	Event #3	R	0x0
2	E2	Event #2	R	0x0
1	E1	Event #1	R	0x0
0	E0	Event #0	R	0x0

Table 16-133 EDMA_TPCC_CERH

Address Offset	0x0000 101C
Physical Address	0x4330 101C 0x40D1 101C 0x4151 101C 0x01D1 101C 0x420A 101C 0x421A 101C	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Chained Event Register (High Part): If EDMA_TPCC_CERH.En bit is set (regardless of state of EDMA_TPCC_EERH.En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. EDMA_TPCC_CERH.En bit is set when a chaining completion code is returned from one of the 3PTCs via the completion interface, or is generated internally via Early Completion path. EDMA_TPCC_CERH.En bit is cleared when the corresponding event is prioritized and serviced. If the EDMA_TPCC_CERH.En bit is already set and the corresponding chaining completion code is returned from the TC, then the corresponding bit in the Event Missed Register is set. EDMA_TPCC_CERH.En cannot be set or cleared via software.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	R	0x0
30	E62	Event #62	R	0x0
29	E61	Event #61	R	0x0
28	E60	Event #60	R	0x0
27	E59	Event #59	R	0x0
26	E58	Event #58	R	0x0
25	E57	Event #57	R	0x0
24	E56	Event #56	R	0x0
23	E55	Event #55	R	0x0
22	E54	Event #54	R	0x0
21	E53	Event #53	R	0x0
20	E52	Event #52	R	0x0
19	E51	Event #51	R	0x0
18	E50	Event #50	R	0x0
17	E49	Event #49	R	0x0
16	E48	Event #48	R	0x0
15	E47	Event #47	R	0x0
14	E46	Event #46	R	0x0
13	E45	Event #45	R	0x0
12	E44	Event #44	R	0x0
11	E43	Event #43	R	0x0
10	E42	Event #42	R	0x0
9	E41	Event #41	R	0x0
8	E40	Event #40	R	0x0
7	E39	Event #39	R	0x0
6	E38	Event #38	R	0x0
5	E37	Event #37	R	0x0
4	E36	Event #36	R	0x0
3	E35	Event #35	R	0x0
2	E34	Event #34	R	0x0
1	E33	Event #33	R	0x0
0	E32	Event #32	R	0x0

Table 16-134 EDMA_TPCC_EER

Address Offset	0x0000 1020
Physical Address	0x4330 1020 0x40D1 1020 0x4151 1020 0x01D1 1020 0x420A 1020 0x421A 1020	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Enable Register: Enables DMA transfers for EDMA_TPCC_ER.En pending events. EDMA_TPCC_ER.En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register (EDMA_TPCC_CER) or Event Set Register (EDMA_TPCC_ESR). Note that if a bit is set in EDMA_TPCC_ER.En while EDMA_TPCC_EER.En is disabled, no action is taken. If EDMA_TPCC_EER.En is enabled at a later point (and EDMA_TPCC_ER.En has not been cleared via SW) then the event will be recognized as a valid 'TR Sync' EDMA_TPCC_EER.En is not directly writeable. Events can be enabled via writes to EDMA_TPCC_EESR and can be disabled via writes to EDMA_TPCC_EECR register. EDMA_TPCC_EER.En = 0: EDMA_TPCC_ER.En is not enabled to trigger DMA transfers. EDMA_TPCC_EER.En = 1: EDMA_TPCC_ER.En is enabled to trigger DMA transfers.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	R	0x0
30	E30	Event #30	R	0x0
29	E29	Event #29	R	0x0
28	E28	Event #28	R	0x0
27	E27	Event #27	R	0x0
26	E26	Event #26	R	0x0
25	E25	Event #25	R	0x0
24	E24	Event #24	R	0x0
23	E23	Event #23	R	0x0
22	E22	Event #22	R	0x0
21	E21	Event #21	R	0x0
20	E20	Event #20	R	0x0
19	E19	Event #19	R	0x0
18	E18	Event #18	R	0x0
17	E17	Event #17	R	0x0
16	E16	Event #16	R	0x0
15	E15	Event #15	R	0x0
14	E14	Event #14	R	0x0
13	E13	Event #13	R	0x0
12	E12	Event #12	R	0x0
11	E11	Event #11	R	0x0
10	E10	Event #10	R	0x0
9	E9	Event #9	R	0x0
8	E8	Event #8	R	0x0
7	E7	Event #7	R	0x0
6	E6	Event #6	R	0x0
5	E5	Event #5	R	0x0
4	E4	Event #4	R	0x0
3	E3	Event #3	R	0x0
2	E2	Event #2	R	0x0
1	E1	Event #1	R	0x0
0	E0	Event #0	R	0x0

Table 16-135 EDMA_TPCC_EERH

Address Offset	0x0000 1024
Physical Address	0x4330 1024 0x40D1 1024 0x4151 1024 0x01D1 1024 0x420A 1024 0x421A 1024	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Enable Register (High Part): Enables DMA transfers for EDMA_TPCC_ERH.En pending events. EDMA_TPCC_ERH.En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register (EDMA_TPCC_CERH) or Event Set Register (EDMA_TPCC_ESRH). Note that if a bit is set in EDMA_TPCC_ERH.En while EDMA_TPCC_EERH.En is disabled, no action is taken. If EDMA_TPCC_EERH.En is enabled at a later point (and EDMA_TPCC_ERH.En has not been cleared via SW) then the event will be recognized as a valid 'TR Sync' EDMA_TPCC_EERH.En is not directly writeable. Events can be enabled via writes to EDMA_TPCC_EESRH and can be disabled via writes to EDMA_TPCC_EECRH register. EDMA_TPCC_EERH.En = 0: EDMA_TPCC_ER.En is not enabled to trigger DMA transfers. EDMA_TPCC_EERH.En = 1: EDMA_TPCC_ER.En is enabled to trigger DMA transfers.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	R	0x0
30	E62	Event #62	R	0x0
29	E61	Event #61	R	0x0
28	E60	Event #60	R	0x0
27	E59	Event #59	R	0x0
26	E58	Event #58	R	0x0
25	E57	Event #57	R	0x0
24	E56	Event #56	R	0x0
23	E55	Event #55	R	0x0
22	E54	Event #54	R	0x0
21	E53	Event #53	R	0x0
20	E52	Event #52	R	0x0
19	E51	Event #51	R	0x0
18	E50	Event #50	R	0x0
17	E49	Event #49	R	0x0
16	E48	Event #48	R	0x0
15	E47	Event #47	R	0x0
14	E46	Event #46	R	0x0
13	E45	Event #45	R	0x0
12	E44	Event #44	R	0x0
11	E43	Event #43	R	0x0
10	E42	Event #42	R	0x0
9	E41	Event #41	R	0x0
8	E40	Event #40	R	0x0
7	E39	Event #39	R	0x0
6	E38	Event #38	R	0x0
5	E37	Event #37	R	0x0
4	E36	Event #36	R	0x0
3	E35	Event #35	R	0x0
2	E34	Event #34	R	0x0
1	E33	Event #33	R	0x0
0	E32	Event #32	R	0x0

Table 16-136 EDMA_TPCC_EECR

Address Offset	0x0000 1028
Physical Address	0x4330 1028 0x40D1 1028 0x4151 1028 0x01D1 1028 0x420A 1028 0x421A 1028	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Enable Clear Register CPU writes of '1' to the EDMA_TPCC_EECR.En bit causes the EDMA_TPCC_EER.En bit to be cleared. CPU writes of '0' has no effect..
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	W	0x0
30	E30	Event #30	W	0x0
29	E29	Event #29	W	0x0
28	E28	Event #28	W	0x0
27	E27	Event #27	W	0x0
26	E26	Event #26	W	0x0
25	E25	Event #25	W	0x0
24	E24	Event #24	W	0x0
23	E23	Event #23	W	0x0
22	E22	Event #22	W	0x0
21	E21	Event #21	W	0x0
20	E20	Event #20	W	0x0
19	E19	Event #19	W	0x0
18	E18	Event #18	W	0x0
17	E17	Event #17	W	0x0
16	E16	Event #16	W	0x0
15	E15	Event #15	W	0x0
14	E14	Event #14	W	0x0
13	E13	Event #13	W	0x0
12	E12	Event #12	W	0x0
11	E11	Event #11	W	0x0
10	E10	Event #10	W	0x0
9	E9	Event #9	W	0x0
8	E8	Event #8	W	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-137 EDMA_TPCC_EECRH

Address Offset	0x0000 102C
Physical Address	0x4330 102C 0x40D1 102C 0x4151 102C 0x01D1 102C 0x420A 102C 0x421A 102C	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Enable Clear Register (High Part) CPU writes of '1' to the EDMA_TPCC_EECRH.En bit causes the EERH.En bit to be cleared. CPU writes of '0' has no effect..
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	W	0x0
30	E62	Event #62	W	0x0
29	E61	Event #61	W	0x0
28	E60	Event #60	W	0x0
27	E59	Event #59	W	0x0
26	E58	Event #58	W	0x0
25	E57	Event #57	W	0x0
24	E56	Event #56	W	0x0
23	E55	Event #55	W	0x0
22	E54	Event #54	W	0x0
21	E53	Event #53	W	0x0
20	E52	Event #52	W	0x0
19	E51	Event #51	W	0x0
18	E50	Event #50	W	0x0
17	E49	Event #49	W	0x0
16	E48	Event #48	W	0x0
15	E47	Event #47	W	0x0
14	E46	Event #46	W	0x0
13	E45	Event #45	W	0x0
12	E44	Event #44	W	0x0
11	E43	Event #43	W	0x0
10	E42	Event #42	W	0x0
9	E41	Event #41	W	0x0
8	E40	Event #40	W	0x0
7	E39	Event #39	W	0x0
6	E38	Event #38	W	0x0
5	E37	Event #37	W	0x0
4	E36	Event #36	W	0x0
3	E35	Event #35	W	0x0
2	E34	Event #34	W	0x0
1	E33	Event #33	W	0x0
0	E32	Event #32	W	0x0

Table 16-138 EDMA_TPCC_EESR

Address Offset	0x0000 1030
Physical Address	0x4330 1030 0x40D1 1030 0x4151 1030 0x01D1 1030 0x420A 1030 0x421A 1030	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Enable Set Register CPU write of '1' to the EDMA_TPCC_EESR.En bit causes the EDMA_TPCC_EER.En bit to be set. CPU writes of '0' has no effect..
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	W	0x0
30	E30	Event #30	W	0x0
29	E29	Event #29	W	0x0
28	E28	Event #28	W	0x0
27	E27	Event #27	W	0x0
26	E26	Event #26	W	0x0
25	E25	Event #25	W	0x0
24	E24	Event #24	W	0x0
23	E23	Event #23	W	0x0
22	E22	Event #22	W	0x0
21	E21	Event #21	W	0x0
20	E20	Event #20	W	0x0
19	E19	Event #19	W	0x0
18	E18	Event #18	W	0x0
17	E17	Event #17	W	0x0
16	E16	Event #16	W	0x0
15	E15	Event #15	W	0x0
14	E14	Event #14	W	0x0
13	E13	Event #13	W	0x0
12	E12	Event #12	W	0x0
11	E11	Event #11	W	0x0
10	E10	Event #10	W	0x0
9	E9	Event #9	W	0x0
8	E8	Event #8	W	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-139 EDMA_TPCC_EESRH

Address Offset	0x0000 1034
Physical Address	0x4330 1034 0x40D1 1034 0x4151 1034 0x01D1 1034 0x420A 1034 0x421A 1034	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Enable Set Register (High Part) CPU writes of '1' to the EDMA_TPCC_EESRH.En bit causes the EDMA_TPCC_EERH.En bit to be set. CPU writes of '0' has no effect..
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	W	0x0
30	E62	Event #62	W	0x0
29	E61	Event #61	W	0x0
28	E60	Event #60	W	0x0
27	E59	Event #59	W	0x0
26	E58	Event #58	W	0x0
25	E57	Event #57	W	0x0
24	E56	Event #56	W	0x0
23	E55	Event #55	W	0x0
22	E54	Event #54	W	0x0
21	E53	Event #53	W	0x0
20	E52	Event #52	W	0x0
19	E51	Event #51	W	0x0
18	E50	Event #50	W	0x0
17	E49	Event #49	W	0x0
16	E48	Event #48	W	0x0
15	E47	Event #47	W	0x0
14	E46	Event #46	W	0x0
13	E45	Event #45	W	0x0
12	E44	Event #44	W	0x0
11	E43	Event #43	W	0x0
10	E42	Event #42	W	0x0
9	E41	Event #41	W	0x0
8	E40	Event #40	W	0x0
7	E39	Event #39	W	0x0
6	E38	Event #38	W	0x0
5	E37	Event #37	W	0x0
4	E36	Event #36	W	0x0
3	E35	Event #35	W	0x0
2	E34	Event #34	W	0x0
1	E33	Event #33	W	0x0
0	E32	Event #32	W	0x0

Table 16-140 EDMA_TPCC_SER

Address Offset	0x0000 1038
Physical Address	0x4330 1038 0x40D1 1038 0x4151 1038 0x01D1 1038 0x420A 1038 0x421A 1038	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Secondary Event Register The secondary event register is used along with the Event Register (EDMA_TPCC_ER) to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored in Event Queue. Event arbiter will not prioritize additional events.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	R	0x0
30	E30	Event #30	R	0x0
29	E29	Event #29	R	0x0
28	E28	Event #28	R	0x0
27	E27	Event #27	R	0x0
26	E26	Event #26	R	0x0
25	E25	Event #25	R	0x0
24	E24	Event #24	R	0x0
23	E23	Event #23	R	0x0
22	E22	Event #22	R	0x0
21	E21	Event #21	R	0x0
20	E20	Event #20	R	0x0
19	E19	Event #19	R	0x0
18	E18	Event #18	R	0x0
17	E17	Event #17	R	0x0
16	E16	Event #16	R	0x0
15	E15	Event #15	R	0x0
14	E14	Event #14	R	0x0
13	E13	Event #13	R	0x0
12	E12	Event #12	R	0x0
11	E11	Event #11	R	0x0
10	E10	Event #10	R	0x0
9	E9	Event #9	R	0x0
8	E8	Event #8	R	0x0
7	E7	Event #7	R	0x0
6	E6	Event #6	R	0x0
5	E5	Event #5	R	0x0
4	E4	Event #4	R	0x0
3	E3	Event #3	R	0x0
2	E2	Event #2	R	0x0
1	E1	Event #1	R	0x0
0	E0	Event #0	R	0x0

Table 16-141 EDMA_TPCC_SERH

Address Offset	0x0000 103C
Physical Address	0x4330 103C 0x40D1 103C 0x4151 103C 0x01D1 103C 0x420A 103C 0x421A 103C	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Secondary Event Register (High Part) The secondary event register is used along with the Event Register (EDMA_TPCC_ERH) to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored in Event Queue. Event arbiter will not prioritize additional events.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	R	0x0
30	E62	Event #62	R	0x0
29	E61	Event #61	R	0x0
28	E60	Event #60	R	0x0
27	E59	Event #59	R	0x0
26	E58	Event #58	R	0x0
25	E57	Event #57	R	0x0
24	E56	Event #56	R	0x0
23	E55	Event #55	R	0x0
22	E54	Event #54	R	0x0
21	E53	Event #53	R	0x0
20	E52	Event #52	R	0x0
19	E51	Event #51	R	0x0
18	E50	Event #50	R	0x0
17	E49	Event #49	R	0x0
16	E48	Event #48	R	0x0
15	E47	Event #47	R	0x0
14	E46	Event #46	R	0x0
13	E45	Event #45	R	0x0
12	E44	Event #44	R	0x0
11	E43	Event #43	R	0x0
10	E42	Event #42	R	0x0
9	E41	Event #41	R	0x0
8	E40	Event #40	R	0x0
7	E39	Event #39	R	0x0
6	E38	Event #38	R	0x0
5	E37	Event #37	R	0x0
4	E36	Event #36	R	0x0
3	E35	Event #35	R	0x0
2	E34	Event #34	R	0x0
1	E33	Event #33	R	0x0
0	E32	Event #32	R	0x0

Table 16-142 EDMA_TPCC_SECR

Address Offset	0x0000 1040
Physical Address	0x4330 1040 0x40D1 1040 0x4151 1040 0x01D1 1040 0x420A 1040 0x421A 1040	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Secondary Event Clear Register The secondary event clear register is used to clear the status of the EDMA_TPCC_SER registers. CPU write of '1' to the EDMA_TPCC_SECR.En bit clears the EDMA_TPCC_SER register. CPU write of '0' has no effect.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	W	0x0
30	E30	Event #30	W	0x0
29	E29	Event #29	W	0x0
28	E28	Event #28	W	0x0
27	E27	Event #27	W	0x0
26	E26	Event #26	W	0x0
25	E25	Event #25	W	0x0
24	E24	Event #24	W	0x0
23	E23	Event #23	W	0x0
22	E22	Event #22	W	0x0
21	E21	Event #21	W	0x0
20	E20	Event #20	W	0x0
19	E19	Event #19	W	0x0
18	E18	Event #18	W	0x0
17	E17	Event #17	W	0x0
16	E16	Event #16	W	0x0
15	E15	Event #15	W	0x0
14	E14	Event #14	W	0x0
13	E13	Event #13	W	0x0
12	E12	Event #12	W	0x0
11	E11	Event #11	W	0x0
10	E10	Event #10	W	0x0
9	E9	Event #9	W	0x0
8	E8	Event #8	W	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-143 EDMA_TPCC_SECRH

Address Offset	0x0000 1044
Physical Address	0x4330 1044 0x40D1 1044 0x4151 1044 0x01D1 1044 0x420A 1044 0x421A 1044	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the EDMA_TPCC_SERH registers. CPU write of '1' to the EDMA_TPCC_SECRH.En bit clears the EDMA_TPCC_SERH register. CPU write of '0' has no effect.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	W	0x0
30	E62	Event #62	W	0x0
29	E61	Event #61	W	0x0
28	E60	Event #60	W	0x0
27	E59	Event #59	W	0x0
26	E58	Event #58	W	0x0
25	E57	Event #57	W	0x0
24	E56	Event #56	W	0x0
23	E55	Event #55	W	0x0
22	E54	Event #54	W	0x0
21	E53	Event #53	W	0x0
20	E52	Event #52	W	0x0
19	E51	Event #51	W	0x0
18	E50	Event #50	W	0x0
17	E49	Event #49	W	0x0
16	E48	Event #48	W	0x0
15	E47	Event #47	W	0x0
14	E46	Event #46	W	0x0
13	E45	Event #45	W	0x0
12	E44	Event #44	W	0x0
11	E43	Event #43	W	0x0
10	E42	Event #42	W	0x0
9	E41	Event #41	W	0x0
8	E40	Event #40	W	0x0
7	E39	Event #39	W	0x0
6	E38	Event #38	W	0x0
5	E37	Event #37	W	0x0
4	E36	Event #36	W	0x0
3	E35	Event #35	W	0x0
2	E34	Event #34	W	0x0
1	E33	Event #33	W	0x0
0	E32	Event #32	W	0x0

Table 16-144 EDMA_TPCC_IER

Address Offset	0x0000 1050
Physical Address	0x4330 1050 0x40D1 1050 0x4151 1050 0x01D1 1050 0x420A 1050 0x421A 1050	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Int Enable Register EDMA_TPCC_IER.In is not directly writeable. Interrupts can be enabled via writes to EDMA_TPCC_IESR and can be disabled via writes to EDMA_TPCC_IECR register. EDMA_TPCC_IER. In = 0: EDMA_TPCC_IPR.In is NOT enabled for interrupts. EDMA_TPCC_IER. In = 1: EDMA_TPCC_IPR.In IS enabled for interrupts.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I31	I30	I29	I28	I27	I26	I25	I24	I23	I22	I21	I20	I19	I18	I17	I16	I15	I14	I13	I12	I11	I10	I9	I8	I7	I6	I5	I4	I3	I2	I1	I0

Bits	Field Name	Description	Type	Reset
31	I31	Interrupt associated with TCC #31	R	0x0
30	I30	Interrupt associated with TCC #30	R	0x0
29	I29	Interrupt associated with TCC #29	R	0x0
28	I28	Interrupt associated with TCC #28	R	0x0
27	I27	Interrupt associated with TCC #27	R	0x0
26	I26	Interrupt associated with TCC #26	R	0x0
25	I25	Interrupt associated with TCC #25	R	0x0
24	I24	Interrupt associated with TCC #24	R	0x0
23	I23	Interrupt associated with TCC #23	R	0x0
22	I22	Interrupt associated with TCC #22	R	0x0
21	I21	Interrupt associated with TCC #21	R	0x0
20	I20	Interrupt associated with TCC #20	R	0x0
19	I19	Interrupt associated with TCC #19	R	0x0
18	I18	Interrupt associated with TCC #18	R	0x0
17	I17	Interrupt associated with TCC #17	R	0x0
16	I16	Interrupt associated with TCC #16	R	0x0
15	I15	Interrupt associated with TCC #15	R	0x0
14	I14	Interrupt associated with TCC #14	R	0x0
13	I13	Interrupt associated with TCC #13	R	0x0
12	I12	Interrupt associated with TCC #12	R	0x0
11	I11	Interrupt associated with TCC #11	R	0x0
10	I10	Interrupt associated with TCC #10	R	0x0
9	I9	Interrupt associated with TCC #9	R	0x0
8	I8	Interrupt associated with TCC #8	R	0x0
7	I7	Interrupt associated with TCC #7	R	0x0
6	I6	Interrupt associated with TCC #6	R	0x0
5	I5	Interrupt associated with TCC #5	R	0x0
4	I4	Interrupt associated with TCC #4	R	0x0
3	I3	Interrupt associated with TCC #3	R	0x0
2	I2	Interrupt associated with TCC #2	R	0x0
1	I1	Interrupt associated with TCC #1	R	0x0
0	I0	Interrupt associated with TCC #0	R	0x0

Table 16-145 EDMA_TPCC_IERH

Address Offset	0x0000 1054
Physical Address	0x4330 1054 0x40D1 1054 0x4151 1054 0x01D1 1054 0x420A 1054 0x421A 1054	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Int Enable Register (High Part) EDMA_TPCC_IERH.In is not directly writeable. Interrupts can be enabled via writes to EDMA_TPCC_IESRH and can be disabled via writes to EDMA_TPCC_IECRH register. EDMA_TPCC_IERH. In = 0: EDMA_TPCC_IPRH.In is NOT enabled for interrupts. EDMA_TPCC_IERH. In = 1: EDMA_TPCC_IPRH.In IS enabled for interrupts.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I63	I62	I61	I60	I59	I58	I57	I56	I55	I54	I53	I52	I51	I50	I49	I48	I47	I46	I45	I44	I43	I42	I41	I40	I39	I38	I37	I36	I35	I34	I33	I32

Bits	Field Name	Description	Type	Reset
31	I63	Interrupt associated with TCC #63	R	0x0
30	I62	Interrupt associated with TCC #62	R	0x0
29	I61	Interrupt associated with TCC #61	R	0x0
28	I60	Interrupt associated with TCC #60	R	0x0
27	I59	Interrupt associated with TCC #59	R	0x0
26	I58	Interrupt associated with TCC #58	R	0x0
25	I57	Interrupt associated with TCC #57	R	0x0
24	I56	Interrupt associated with TCC #56	R	0x0
23	I55	Interrupt associated with TCC #55	R	0x0
22	I54	Interrupt associated with TCC #54	R	0x0
21	I53	Interrupt associated with TCC #53	R	0x0
20	I52	Interrupt associated with TCC #52	R	0x0
19	I51	Interrupt associated with TCC #51	R	0x0
18	I50	Interrupt associated with TCC #50	R	0x0
17	I49	Interrupt associated with TCC #49	R	0x0
16	I48	Interrupt associated with TCC #48	R	0x0
15	I47	Interrupt associated with TCC #47	R	0x0
14	I46	Interrupt associated with TCC #46	R	0x0
13	I45	Interrupt associated with TCC #45	R	0x0
12	I44	Interrupt associated with TCC #44	R	0x0
11	I43	Interrupt associated with TCC #43	R	0x0
10	I42	Interrupt associated with TCC #42	R	0x0
9	I41	Interrupt associated with TCC #41	R	0x0
8	I40	Interrupt associated with TCC #40	R	0x0
7	I39	Interrupt associated with TCC #39	R	0x0
6	I38	Interrupt associated with TCC #38	R	0x0
5	I37	Interrupt associated with TCC #37	R	0x0
4	I36	Interrupt associated with TCC #36	R	0x0
3	I35	Interrupt associated with TCC #35	R	0x0
2	I34	Interrupt associated with TCC #34	R	0x0
1	I33	Interrupt associated with TCC #33	R	0x0
0	I32	Interrupt associated with TCC #32	R	0x0

Table 16-146 EDMA_TPCC_IECR

Address Offset	0x0000 1058
Physical Address	0x4330 1058 0x40D1 1058 0x4151 1058 0x01D1 1058 0x420A 1058 0x421A 1058	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Int Enable Clear Register CPU writes of '1' to the EDMA_TPCC_IECR.In bit causes the EDMA_TPCC_IER.In bit to be cleared. CPU writes of '0' has no effect..
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I31	I30	I29	I28	I27	I26	I25	I24	I23	I22	I21	I20	I19	I18	I17	I16	I15	I14	I13	I12	I11	I10	I9	I8	I7	I6	I5	I4	I3	I2	I1	I0

Bits	Field Name	Description	Type	Reset
31	I31	Interrupt associated with TCC #31	W	0x0
30	I30	Interrupt associated with TCC #30	W	0x0
29	I29	Interrupt associated with TCC #29	W	0x0
28	I28	Interrupt associated with TCC #28	W	0x0
27	I27	Interrupt associated with TCC #27	W	0x0
26	I26	Interrupt associated with TCC #26	W	0x0
25	I25	Interrupt associated with TCC #25	W	0x0
24	I24	Interrupt associated with TCC #24	W	0x0
23	I23	Interrupt associated with TCC #23	W	0x0
22	I22	Interrupt associated with TCC #22	W	0x0
21	I21	Interrupt associated with TCC #21	W	0x0
20	I20	Interrupt associated with TCC #20	W	0x0
19	I19	Interrupt associated with TCC #19	W	0x0
18	I18	Interrupt associated with TCC #18	W	0x0
17	I17	Interrupt associated with TCC #17	W	0x0
16	I16	Interrupt associated with TCC #16	W	0x0
15	I15	Interrupt associated with TCC #15	W	0x0
14	I14	Interrupt associated with TCC #14	W	0x0
13	I13	Interrupt associated with TCC #13	W	0x0
12	I12	Interrupt associated with TCC #12	W	0x0
11	I11	Interrupt associated with TCC #11	W	0x0
10	I10	Interrupt associated with TCC #10	W	0x0
9	I9	Interrupt associated with TCC #9	W	0x0
8	I8	Interrupt associated with TCC #8	W	0x0
7	I7	Interrupt associated with TCC #7	W	0x0
6	I6	Interrupt associated with TCC #6	W	0x0
5	I5	Interrupt associated with TCC #5	W	0x0
4	I4	Interrupt associated with TCC #4	W	0x0
3	I3	Interrupt associated with TCC #3	W	0x0
2	I2	Interrupt associated with TCC #2	W	0x0
1	I1	Interrupt associated with TCC #1	W	0x0
0	I0	Interrupt associated with TCC #0	W	0x0

Table 16-147 EDMA_TPCC_IECRH

Address Offset	0x0000 105C
Physical Address	0x4330 105C 0x40D1 105C 0x4151 105C 0x01D1 105C 0x420A 105C 0x421A 105C	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Int Enable Clear Register (High Part) CPU write of '1' to the EDMA_TPCC_IECRH.In bit causes the EDMA_TPCC_IERH.In bit to be cleared. CPU write of '0' has no effect..
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I63	I62	I61	I60	I59	I58	I57	I56	I55	I54	I53	I52	I51	I50	I49	I48	I47	I46	I45	I44	I43	I42	I41	I40	I39	I38	I37	I36	I35	I34	I33	I32

Bits	Field Name	Description	Type	Reset
31	I63	Interrupt associated with TCC #63	W	0x0
30	I62	Interrupt associated with TCC #62	W	0x0
29	I61	Interrupt associated with TCC #61	W	0x0
28	I60	Interrupt associated with TCC #60	W	0x0
27	I59	Interrupt associated with TCC #59	W	0x0
26	I58	Interrupt associated with TCC #58	W	0x0
25	I57	Interrupt associated with TCC #57	W	0x0
24	I56	Interrupt associated with TCC #56	W	0x0
23	I55	Interrupt associated with TCC #55	W	0x0
22	I54	Interrupt associated with TCC #54	W	0x0
21	I53	Interrupt associated with TCC #53	W	0x0
20	I52	Interrupt associated with TCC #52	W	0x0
19	I51	Interrupt associated with TCC #51	W	0x0
18	I50	Interrupt associated with TCC #50	W	0x0
17	I49	Interrupt associated with TCC #49	W	0x0
16	I48	Interrupt associated with TCC #48	W	0x0
15	I47	Interrupt associated with TCC #47	W	0x0
14	I46	Interrupt associated with TCC #46	W	0x0
13	I45	Interrupt associated with TCC #45	W	0x0
12	I44	Interrupt associated with TCC #44	W	0x0
11	I43	Interrupt associated with TCC #43	W	0x0
10	I42	Interrupt associated with TCC #42	W	0x0
9	I41	Interrupt associated with TCC #41	W	0x0
8	I40	Interrupt associated with TCC #40	W	0x0
7	I39	Interrupt associated with TCC #39	W	0x0
6	I38	Interrupt associated with TCC #38	W	0x0
5	I37	Interrupt associated with TCC #37	W	0x0
4	I36	Interrupt associated with TCC #36	W	0x0
3	I35	Interrupt associated with TCC #35	W	0x0
2	I34	Interrupt associated with TCC #34	W	0x0
1	I33	Interrupt associated with TCC #33	W	0x0
0	I32	Interrupt associated with TCC #32	W	0x0

Table 16-148 EDMA_TPCC_IESR

Address Offset	0x0000 1060
Physical Address	0x4330 1060 0x40D1 1060 0x4151 1060 0x01D1 1060 0x420A 1060 0x421A 1060	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Int Enable Set Register CPU write of '1' to the EDMA_TPCC_IESR.In bit causes the EDMA_TPCC_IESR.In bit to be set. CPU write of '0' has no effect..
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I31	I30	I29	I28	I27	I26	I25	I24	I23	I22	I21	I20	I19	I18	I17	I16	I15	I14	I13	I12	I11	I10	I9	I8	I7	I6	I5	I4	I3	I2	I1	I0

Bits	Field Name	Description	Type	Reset
31	I31	Interrupt associated with TCC #31	W	0x0
30	I30	Interrupt associated with TCC #30	W	0x0
29	I29	Interrupt associated with TCC #29	W	0x0
28	I28	Interrupt associated with TCC #28	W	0x0
27	I27	Interrupt associated with TCC #27	W	0x0
26	I26	Interrupt associated with TCC #26	W	0x0
25	I25	Interrupt associated with TCC #25	W	0x0
24	I24	Interrupt associated with TCC #24	W	0x0
23	I23	Interrupt associated with TCC #23	W	0x0
22	I22	Interrupt associated with TCC #22	W	0x0
21	I21	Interrupt associated with TCC #21	W	0x0
20	I20	Interrupt associated with TCC #20	W	0x0
19	I19	Interrupt associated with TCC #19	W	0x0
18	I18	Interrupt associated with TCC #18	W	0x0
17	I17	Interrupt associated with TCC #17	W	0x0
16	I16	Interrupt associated with TCC #16	W	0x0
15	I15	Interrupt associated with TCC #15	W	0x0
14	I14	Interrupt associated with TCC #14	W	0x0
13	I13	Interrupt associated with TCC #13	W	0x0
12	I12	Interrupt associated with TCC #12	W	0x0
11	I11	Interrupt associated with TCC #11	W	0x0
10	I10	Interrupt associated with TCC #10	W	0x0
9	I9	Interrupt associated with TCC #9	W	0x0
8	I8	Interrupt associated with TCC #8	W	0x0
7	I7	Interrupt associated with TCC #7	W	0x0
6	I6	Interrupt associated with TCC #6	W	0x0
5	I5	Interrupt associated with TCC #5	W	0x0
4	I4	Interrupt associated with TCC #4	W	0x0
3	I3	Interrupt associated with TCC #3	W	0x0
2	I2	Interrupt associated with TCC #2	W	0x0
1	I1	Interrupt associated with TCC #1	W	0x0
0	I0	Interrupt associated with TCC #0	W	0x0

Table 16-149 EDMA_TPCC_IESRH

Address Offset	0x0000 1064
Physical Address	0x4330 1064 0x40D1 1064 0x4151 1064 0x01D1 1064 0x420A 1064 0x421A 1064	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Int Enable Set Register (High Part) CPU write of '1' to the EDMA_TPCC_IESRH.In bit causes the EDMA_TPCC_IESRH.In bit to be set. CPU write of '0' has no effect..
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I63	I62	I61	I60	I59	I58	I57	I56	I55	I54	I53	I52	I51	I50	I49	I48	I47	I46	I45	I44	I43	I42	I41	I40	I39	I38	I37	I36	I35	I34	I33	I32

Bits	Field Name	Description	Type	Reset
31	I63	Interrupt associated with TCC #63	W	0x0
30	I62	Interrupt associated with TCC #62	W	0x0
29	I61	Interrupt associated with TCC #61	W	0x0
28	I60	Interrupt associated with TCC #60	W	0x0
27	I59	Interrupt associated with TCC #59	W	0x0
26	I58	Interrupt associated with TCC #58	W	0x0
25	I57	Interrupt associated with TCC #57	W	0x0
24	I56	Interrupt associated with TCC #56	W	0x0
23	I55	Interrupt associated with TCC #55	W	0x0
22	I54	Interrupt associated with TCC #54	W	0x0
21	I53	Interrupt associated with TCC #53	W	0x0
20	I52	Interrupt associated with TCC #52	W	0x0
19	I51	Interrupt associated with TCC #51	W	0x0
18	I50	Interrupt associated with TCC #50	W	0x0
17	I49	Interrupt associated with TCC #49	W	0x0
16	I48	Interrupt associated with TCC #48	W	0x0
15	I47	Interrupt associated with TCC #47	W	0x0
14	I46	Interrupt associated with TCC #46	W	0x0
13	I45	Interrupt associated with TCC #45	W	0x0
12	I44	Interrupt associated with TCC #44	W	0x0
11	I43	Interrupt associated with TCC #43	W	0x0
10	I42	Interrupt associated with TCC #42	W	0x0
9	I41	Interrupt associated with TCC #41	W	0x0
8	I40	Interrupt associated with TCC #40	W	0x0
7	I39	Interrupt associated with TCC #39	W	0x0
6	I38	Interrupt associated with TCC #38	W	0x0
5	I37	Interrupt associated with TCC #37	W	0x0
4	I36	Interrupt associated with TCC #36	W	0x0
3	I35	Interrupt associated with TCC #35	W	0x0
2	I34	Interrupt associated with TCC #34	W	0x0
1	I33	Interrupt associated with TCC #33	W	0x0
0	I32	Interrupt associated with TCC #32	W	0x0

Table 16-150 EDMA_TPCC_IPR

Address Offset	0x0000 1068
Physical Address	0x4330 1068 0x40D1 1068 0x4151 1068 0x01D1 1068 0x420A 1068 0x421A 1068	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Interrupt Pending Register EDMA_TPCC_IPR.In bit is set when a interrupt completion code with TCC of N is detected. EDMA_TPCC_IPR.In bit is cleared via software by writing a '1' to EDMA_TPCC_ICR.In bit.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I31	I30	I29	I28	I27	I26	I25	I24	I23	I22	I21	I20	I19	I18	I17	I16	I15	I14	I13	I12	I11	I10	I9	I8	I7	I6	I5	I4	I3	I2	I1	I0

Bits	Field Name	Description	Type	Reset
31	I31	Interrupt associated with TCC #31	R	0x0
30	I30	Interrupt associated with TCC #30	R	0x0
29	I29	Interrupt associated with TCC #29	R	0x0
28	I28	Interrupt associated with TCC #28	R	0x0
27	I27	Interrupt associated with TCC #27	R	0x0
26	I26	Interrupt associated with TCC #26	R	0x0
25	I25	Interrupt associated with TCC #25	R	0x0
24	I24	Interrupt associated with TCC #24	R	0x0
23	I23	Interrupt associated with TCC #23	R	0x0
22	I22	Interrupt associated with TCC #22	R	0x0
21	I21	Interrupt associated with TCC #21	R	0x0
20	I20	Interrupt associated with TCC #20	R	0x0
19	I19	Interrupt associated with TCC #19	R	0x0
18	I18	Interrupt associated with TCC #18	R	0x0
17	I17	Interrupt associated with TCC #17	R	0x0
16	I16	Interrupt associated with TCC #16	R	0x0
15	I15	Interrupt associated with TCC #15	R	0x0
14	I14	Interrupt associated with TCC #14	R	0x0
13	I13	Interrupt associated with TCC #13	R	0x0
12	I12	Interrupt associated with TCC #12	R	0x0
11	I11	Interrupt associated with TCC #11	R	0x0
10	I10	Interrupt associated with TCC #10	R	0x0
9	I9	Interrupt associated with TCC #9	R	0x0
8	I8	Interrupt associated with TCC #8	R	0x0
7	I7	Interrupt associated with TCC #7	R	0x0
6	I6	Interrupt associated with TCC #6	R	0x0
5	I5	Interrupt associated with TCC #5	R	0x0
4	I4	Interrupt associated with TCC #4	R	0x0
3	I3	Interrupt associated with TCC #3	R	0x0
2	I2	Interrupt associated with TCC #2	R	0x0
1	I1	Interrupt associated with TCC #1	R	0x0
0	I0	Interrupt associated with TCC #0	R	0x0

Table 16-151 EDMA_TPCC_IPRH

Address Offset	0x0000 106C
Physical Address	0x4330 106C 0x40D1 106C 0x4151 106C 0x01D1 106C 0x420A 106C 0x421A 106C	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Interrupt Pending Register (High Part) EDMA_TPCC_IPRH.In bit is set when a interrupt completion code with TCC of N is detected. EDMA_TPCC_IPRH. In bit is cleared via software by writing a '1' to EDMA_TPCC_ICRH.In bit.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I63	I62	I61	I60	I59	I58	I57	I56	I55	I54	I53	I52	I51	I50	I49	I48	I47	I46	I45	I44	I43	I42	I41	I40	I39	I38	I37	I36	I35	I34	I33	I32

Bits	Field Name	Description	Type	Reset
31	I63	Interrupt associated with TCC #63	R	0x0
30	I62	Interrupt associated with TCC #62	R	0x0
29	I61	Interrupt associated with TCC #61	R	0x0
28	I60	Interrupt associated with TCC #60	R	0x0
27	I59	Interrupt associated with TCC #59	R	0x0
26	I58	Interrupt associated with TCC #58	R	0x0
25	I57	Interrupt associated with TCC #57	R	0x0
24	I56	Interrupt associated with TCC #56	R	0x0
23	I55	Interrupt associated with TCC #55	R	0x0
22	I54	Interrupt associated with TCC #54	R	0x0
21	I53	Interrupt associated with TCC #53	R	0x0
20	I52	Interrupt associated with TCC #52	R	0x0
19	I51	Interrupt associated with TCC #51	R	0x0
18	I50	Interrupt associated with TCC #50	R	0x0
17	I49	Interrupt associated with TCC #49	R	0x0
16	I48	Interrupt associated with TCC #48	R	0x0
15	I47	Interrupt associated with TCC #47	R	0x0
14	I46	Interrupt associated with TCC #46	R	0x0
13	I45	Interrupt associated with TCC #45	R	0x0
12	I44	Interrupt associated with TCC #44	R	0x0
11	I43	Interrupt associated with TCC #43	R	0x0
10	I42	Interrupt associated with TCC #42	R	0x0
9	I41	Interrupt associated with TCC #41	R	0x0
8	I40	Interrupt associated with TCC #40	R	0x0
7	I39	Interrupt associated with TCC #39	R	0x0
6	I38	Interrupt associated with TCC #38	R	0x0
5	I37	Interrupt associated with TCC #37	R	0x0
4	I36	Interrupt associated with TCC #36	R	0x0
3	I35	Interrupt associated with TCC #35	R	0x0
2	I34	Interrupt associated with TCC #34	R	0x0
1	I33	Interrupt associated with TCC #33	R	0x0
0	I32	Interrupt associated with TCC #32	R	0x0

Table 16-152 EDMA_TPCC_ICR

Address Offset	0x0000 1070
Physical Address	0x4330 1070 0x40D1 1070 0x4151 1070 0x01D1 1070 0x420A 1070 0x421A 1070	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Interrupt Clear Register CPU write of '1' to the EDMA_TPCC_ICR.In bit causes the EDMA_TPCC_IPR.In bit to be cleared. CPU write of '0' has no effect. All EDMA_TPCC_IPR.In bits must be cleared before additional interrupts will be asserted by CC.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I31	I30	I29	I28	I27	I26	I25	I24	I23	I22	I21	I20	I19	I18	I17	I16	I15	I14	I13	I12	I11	I10	I9	I8	I7	I6	I5	I4	I3	I2	I1	I0

Bits	Field Name	Description	Type	Reset
31	I31	Interrupt associated with TCC #31	W	0x0
30	I30	Interrupt associated with TCC #30	W	0x0
29	I29	Interrupt associated with TCC #29	W	0x0
28	I28	Interrupt associated with TCC #28	W	0x0
27	I27	Interrupt associated with TCC #27	W	0x0
26	I26	Interrupt associated with TCC #26	W	0x0
25	I25	Interrupt associated with TCC #25	W	0x0
24	I24	Interrupt associated with TCC #24	W	0x0
23	I23	Interrupt associated with TCC #23	W	0x0
22	I22	Interrupt associated with TCC #22	W	0x0
21	I21	Interrupt associated with TCC #21	W	0x0
20	I20	Interrupt associated with TCC #20	W	0x0
19	I19	Interrupt associated with TCC #19	W	0x0
18	I18	Interrupt associated with TCC #18	W	0x0
17	I17	Interrupt associated with TCC #17	W	0x0
16	I16	Interrupt associated with TCC #16	W	0x0
15	I15	Interrupt associated with TCC #15	W	0x0
14	I14	Interrupt associated with TCC #14	W	0x0
13	I13	Interrupt associated with TCC #13	W	0x0
12	I12	Interrupt associated with TCC #12	W	0x0
11	I11	Interrupt associated with TCC #11	W	0x0
10	I10	Interrupt associated with TCC #10	W	0x0
9	I9	Interrupt associated with TCC #9	W	0x0
8	I8	Interrupt associated with TCC #8	W	0x0
7	I7	Interrupt associated with TCC #7	W	0x0
6	I6	Interrupt associated with TCC #6	W	0x0
5	I5	Interrupt associated with TCC #5	W	0x0
4	I4	Interrupt associated with TCC #4	W	0x0
3	I3	Interrupt associated with TCC #3	W	0x0
2	I2	Interrupt associated with TCC #2	W	0x0
1	I1	Interrupt associated with TCC #1	W	0x0
0	I0	Interrupt associated with TCC #0	W	0x0

Table 16-153 EDMA_TPCC_ICRH

Address Offset	0x0000 1074
Physical Address	0x4330 1074 0x40D1 1074 0x4151 1074 0x01D1 1074 0x420A 1074 0x421A 1074	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Interrupt Clear Register (High Part) CPU write of '1' to the EDMA_TPCC_ICRH.In bit causes the EDMA_TPCC_IPRH.In bit to be cleared. CPU write of '0' has no effect. All EDMA_TPCC_IPRH.In bits must be cleared before additional interrupts will be asserted by CC.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I63	I62	I61	I60	I59	I58	I57	I56	I55	I54	I53	I52	I51	I50	I49	I48	I47	I46	I45	I44	I43	I42	I41	I40	I39	I38	I37	I36	I35	I34	I33	I32

Bits	Field Name	Description	Type	Reset
31	I63	Interrupt associated with TCC #63	W	0x0
30	I62	Interrupt associated with TCC #62	W	0x0
29	I61	Interrupt associated with TCC #61	W	0x0
28	I60	Interrupt associated with TCC #60	W	0x0
27	I59	Interrupt associated with TCC #59	W	0x0
26	I58	Interrupt associated with TCC #58	W	0x0
25	I57	Interrupt associated with TCC #57	W	0x0
24	I56	Interrupt associated with TCC #56	W	0x0
23	I55	Interrupt associated with TCC #55	W	0x0
22	I54	Interrupt associated with TCC #54	W	0x0
21	I53	Interrupt associated with TCC #53	W	0x0
20	I52	Interrupt associated with TCC #52	W	0x0
19	I51	Interrupt associated with TCC #51	W	0x0
18	I50	Interrupt associated with TCC #50	W	0x0
17	I49	Interrupt associated with TCC #49	W	0x0
16	I48	Interrupt associated with TCC #48	W	0x0
15	I47	Interrupt associated with TCC #47	W	0x0
14	I46	Interrupt associated with TCC #46	W	0x0
13	I45	Interrupt associated with TCC #45	W	0x0
12	I44	Interrupt associated with TCC #44	W	0x0
11	I43	Interrupt associated with TCC #43	W	0x0
10	I42	Interrupt associated with TCC #42	W	0x0
9	I41	Interrupt associated with TCC #41	W	0x0
8	I40	Interrupt associated with TCC #40	W	0x0
7	I39	Interrupt associated with TCC #39	W	0x0
6	I38	Interrupt associated with TCC #38	W	0x0
5	I37	Interrupt associated with TCC #37	W	0x0
4	I36	Interrupt associated with TCC #36	W	0x0
3	I35	Interrupt associated with TCC #35	W	0x0
2	I34	Interrupt associated with TCC #34	W	0x0
1	I33	Interrupt associated with TCC #33	W	0x0
0	I32	Interrupt associated with TCC #32	W	0x0

Table 16-154 EDMA_TPCC_IEVAL

Address Offset	0x0000 1078
Physical Address	0x4330 1078 0x40D1 1078 0x4151 1078 0x01D1 1078 0x420A 1078 0x421A 1078	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Interrupt Eval Register
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																														SET	EVAL

Bits	Field Name	Description	Type	Reset
31:2	RESERVED	Reserved	R	0x0
1	SET	Interrupt Set: CPU write of '1' to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn). CPU write of '0' has no effect.	W	0x0
0	EVAL	Interrupt Evaluate: CPU write of '1' to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn). CPU write of '0' has no effect.	W	0x0

Table 16-155 EDMA_TPCC_QER

Address Offset	0x0000 1080
Physical Address	0x4330 1080 0x40D1 1080 0x4151 1080 0x01D1 1080 0x420A 1080 0x421A 1080	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Event Register: If EDMA_TPCC_QER.En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. EDMA_TPCC_QER.En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. EDMA_TPCC_QER.En bit is cleared when the corresponding event is prioritized and serviced. EDMA_TPCC_QER.En is also cleared when user writes a '1' to the EDMA_TPCC_QSECR.En bit. If the EDMA_TPCC_QER.En bit is already set and a new QDMA event is detected due to user write to QDMA trigger location and EDMA_TPCC_QEER register is set, then the corresponding bit in the QDMA Event Missed Register is set.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R	0x0
7	E7	Event #7	R	0x0
6	E6	Event #6	R	0x0
5	E5	Event #5	R	0x0
4	E4	Event #4	R	0x0
3	E3	Event #3	R	0x0
2	E2	Event #2	R	0x0
1	E1	Event #1	R	0x0
0	E0	Event #0	R	0x0

Table 16-156 EDMA_TPCC_QEER

Address Offset	0x0000 1084
Physical Address	0x4330 1084 0x40D1 1084 0x4151 1084 0x01D1 1084 0x420A 1084 0x421A 1084	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. EDMA_TPCC_QEER.En is not directly writeable. QDMA channels can be enabled via writes to EDMA_TPCC_QEESR and can be disabled via writes to EDMA_TPCC_QEECR register. EDMA_TPCC_QEER.En = 1, The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in EDMA_TPCC_QER.En. EDMA_TPCC_QEER.En = 0, The corresponding QDMA channel comparator is disabled. Events will not be recognized/latched in EDMA_TPCC_QER.En.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R Return 0's	0x0
7	E7	Event #7	R	0x0
6	E6	Event #6	R	0x0
5	E5	Event #5	R	0x0
4	E4	Event #4	R	0x0
3	E3	Event #3	R	0x0
2	E2	Event #2	R	0x0
1	E1	Event #1	R	0x0
0	E0	Event #0	R	0x0

Table 16-157 EDMA_TPCC_QEECR

Address Offset	0x0000 1088
Physical Address	0x4330 1088 0x40D1 1088 0x4151 1088 0x01D1 1088 0x420A 1088 0x421A 1088	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Event Enable Clear Register CPU write of '1' to the EDMA_TPCC_QEECR.En bit causes the EDMA_TPCC_QEER.En bit to be cleared. CPU write of '0' has no effect..
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-158 EDMA_TPCC_QEESR

Address Offset	0x0000 108C
Physical Address	0x4330 108C 0x40D1 108C 0x4151 108C 0x01D1 108C 0x420A 108C 0x421A 108C	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Event Enable Set Register CPU write of '1' to the EDMA_TPCC_QEESR.En bit causes the EDMA_TPCC_QEESR.En bit to be set. CPU write of '0' has no effect..
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-159 EDMA_TPCC_QSER

Address Offset	0x0000 1090
Physical Address	0x4330 1090 0x40D1 1090 0x4151 1090 0x01D1 1090 0x420A 1090 0x421A 1090	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register (EDMA_TPCC_QER) to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored in Event Queue. Event arbiter will not prioritize additional events.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R Return 0's	0x0
7	E7	Event #7	R	0x0
6	E6	Event #6	R	0x0
5	E5	Event #5	R	0x0
4	E4	Event #4	R	0x0
3	E3	Event #3	R	0x0
2	E2	Event #2	R	0x0
1	E1	Event #1	R	0x0
0	E0	Event #0	R	0x0

Table 16-160 EDMA_TPCC_QSECR

Address Offset	0x0000 1094
Physical Address	0x4330 1094 0x40D1 1094 0x4151 1094 0x01D1 1094 0x420A 1094 0x421A 1094	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Secondary Event Clear Register The secondary event clear register is used to clear the status of the EDMA_TPCC_QSER and EDMA_TPCC_QER register (note that this is slightly different than the EDMA_TPCC_SER operation, which does not clear the EDMA_TPCC_ER.En register). CPU write of '1' to the EDMA_TPCC_QSECR.En bit clears the EDMA_TPCC_QSER.En and EDMA_TPCC_QER.En register fields. CPU write of '0' has no effect..
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-161 EDMA_TPCC_ER_RN_k

Address Offset	0x0000 2000 + (0x200 * k)
Physical Address	0x4330 2000 + (0x200 * k) 0x40D1 2000 + (0x200 * k) 0x4151 2000 + (0x200 * k) 0x01D1 2000 + (0x200 * k) 0x420A 2000 + (0x200 * k) 0x421A 2000 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Register If EDMA_TPCC_ER.En bit is set and the EDMA_TPCC_EER.En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. EDMA_TPCC_ER.En bit is set when the input event #n transitions from inactive (low) to active (high), regardless of the state of EDMA_TPCC_EER.En bit. EDMA_TPCC_ER.En bit is cleared when the corresponding event is prioritized and serviced. If the EDMA_TPCC_ER.En bit is already set and a new inactive to active transition is detected on the input event #n input AND the corresponding bit in the EDMA_TPCC_EER register is set, then the corresponding bit in the Event Missed Register is set. Event N can be cleared via sw by writing a '1' to the EDMA_TPCC_ECR pseudo-register.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	R	0x0
30	E30	Event #30	R	0x0
29	E29	Event #29	R	0x0
28	E28	Event #28	R	0x0
27	E27	Event #27	R	0x0
26	E26	Event #26	R	0x0
25	E25	Event #25	R	0x0
24	E24	Event #24	R	0x0
23	E23	Event #23	R	0x0
22	E22	Event #22	R	0x0
21	E21	Event #21	R	0x0
20	E20	Event #20	R	0x0
19	E19	Event #19	R	0x0
18	E18	Event #18	R	0x0
17	E17	Event #17	R	0x0
16	E16	Event #16	R	0x0
15	E15	Event #15	R	0x0
14	E14	Event #14	R	0x0
13	E13	Event #13	R	0x0
12	E12	Event #12	R	0x0
11	E11	Event #11	R	0x0
10	E10	Event #10	R	0x0
9	E9	Event #9	R	0x0
8	E8	Event #8	R	0x0
7	E7	Event #7	R	0x0
6	E6	Event #6	R	0x0
5	E5	Event #5	R	0x0
4	E4	Event #4	R	0x0
3	E3	Event #3	R	0x0
2	E2	Event #2	R	0x0
1	E1	Event #1	R	0x0
0	E0	Event #0	R	0x0

Table 16-162 EDMA_TPCC_ERH_RN_k

Address Offset	0x0000 2004 + (0x200 * k)
Physical Address	0x4330 2004 + (0x200 * k) 0x40D1 2004 + (0x200 * k) 0x4151 2004 + (0x200 * k) 0x01D1 2004 + (0x200 * k) 0x420A 2004 + (0x200 * k) 0x421A 2004 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Register (High Part) If EDMA_TPCC_ERH.En bit is set and the EDMA_TPCC_EERH.En bit is also set, then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. EDMA_TPCC_ERH.En bit is set when the input event #n transitions from inactive (low) to active (high), regardless of the state of EERH.En bit. EDMA_TPCC_ER.En bit is cleared when the corresponding event is prioritized and serviced. If the EDMA_TPCC_ERH.En bit is already set and a new inactive to active transition is detected on the input event #n input AND the corresponding bit in the EDMA_TPCC_EERH register is set, then the corresponding bit in the Event Missed Register is set. Event N can be cleared via sw by writing a '1' to the EDMA_TPCC_ECRH pseudo-register.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	R	0x0
30	E62	Event #62	R	0x0
29	E61	Event #61	R	0x0
28	E60	Event #60	R	0x0
27	E59	Event #59	R	0x0
26	E58	Event #58	R	0x0
25	E57	Event #57	R	0x0
24	E56	Event #56	R	0x0
23	E55	Event #55	R	0x0
22	E54	Event #54	R	0x0
21	E53	Event #53	R	0x0
20	E52	Event #52	R	0x0
19	E51	Event #51	R	0x0
18	E50	Event #50	R	0x0
17	E49	Event #49	R	0x0
16	E48	Event #48	R	0x0
15	E47	Event #47	R	0x0
14	E46	Event #46	R	0x0
13	E45	Event #45	R	0x0
12	E44	Event #44	R	0x0
11	E43	Event #43	R	0x0
10	E42	Event #42	R	0x0
9	E41	Event #41	R	0x0
8	E40	Event #40	R	0x0
7	E39	Event #39	R	0x0
6	E38	Event #38	R	0x0
5	E37	Event #37	R	0x0
4	E36	Event #36	R	0x0
3	E35	Event #35	R	0x0
2	E34	Event #34	R	0x0
1	E33	Event #33	R	0x0
0	E32	Event #32	R	0x0

Table 16-163 EDMA_TPCC_ECR_RN_k

Address Offset	0x0000 2008 + (0x200 * k)
Physical Address	0x4330 2008 + (0x200 * k) 0x40D1 2008 + (0x200 * k) 0x4151 2008 + (0x200 * k) 0x01D1 2008 + (0x200 * k) 0x420A 2008 + (0x200 * k) 0x421A 2008 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Clear Register CPU write of '1' to the EDMA_TPCC_ECR.En bit causes the EDMA_TPCC_ER.En bit to be cleared. CPU write of '0' has no effect.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	W	0x0
30	E30	Event #30	W	0x0
29	E29	Event #29	W	0x0
28	E28	Event #28	W	0x0
27	E27	Event #27	W	0x0
26	E26	Event #26	W	0x0
25	E25	Event #25	W	0x0
24	E24	Event #24	W	0x0
23	E23	Event #23	W	0x0
22	E22	Event #22	W	0x0
21	E21	Event #21	W	0x0
20	E20	Event #20	W	0x0
19	E19	Event #19	W	0x0
18	E18	Event #18	W	0x0
17	E17	Event #17	W	0x0
16	E16	Event #16	W	0x0
15	E15	Event #15	W	0x0
14	E14	Event #14	W	0x0
13	E13	Event #13	W	0x0
12	E12	Event #12	W	0x0
11	E11	Event #11	W	0x0
10	E10	Event #10	W	0x0
9	E9	Event #9	W	0x0
8	E8	Event #8	W	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-164 EDMA_TPCC_ECRH_RN_k

Address Offset	0x0000 200C + (0x200 * k)
Physical Address	0x4330 200C + (0x200 * k) 0x40D1 200C + (0x200 * k) 0x4151 200C + (0x200 * k) 0x01D1 200C + (0x200 * k) 0x420A 200C + (0x200 * k) 0x421A 200C + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Clear Register (High Part) CPU write of '1' to the EDMA_TPCC_ECRH.En bit causes the EDMA_TPCC_ERH.En bit to be cleared. CPU write of '0' has no effect.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	W	0x0
30	E62	Event #62	W	0x0
29	E61	Event #61	W	0x0
28	E60	Event #60	W	0x0
27	E59	Event #59	W	0x0
26	E58	Event #58	W	0x0
25	E57	Event #57	W	0x0
24	E56	Event #56	W	0x0
23	E55	Event #55	W	0x0
22	E54	Event #54	W	0x0
21	E53	Event #53	W	0x0
20	E52	Event #52	W	0x0
19	E51	Event #51	W	0x0
18	E50	Event #50	W	0x0
17	E49	Event #49	W	0x0
16	E48	Event #48	W	0x0
15	E47	Event #47	W	0x0
14	E46	Event #46	W	0x0
13	E45	Event #45	W	0x0
12	E44	Event #44	W	0x0
11	E43	Event #43	W	0x0
10	E42	Event #42	W	0x0
9	E41	Event #41	W	0x0
8	E40	Event #40	W	0x0
7	E39	Event #39	W	0x0
6	E38	Event #38	W	0x0
5	E37	Event #37	W	0x0
4	E36	Event #36	W	0x0
3	E35	Event #35	W	0x0
2	E34	Event #34	W	0x0
1	E33	Event #33	W	0x0
0	E32	Event #32	W	0x0

Table 16-165 EDMA_TPCC_ESR_RN_k

Address Offset	0x0000 2010 + (0x200 * k)
Physical Address	0x4330 2010 + (0x200 * k) 0x40D1 2010 + (0x200 * k) 0x4151 2010 + (0x200 * k) 0x01D1 2010 + (0x200 * k) 0x420A 2010 + (0x200 * k) 0x421A 2010 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Set Register CPU write of '1' to the EDMA_TPCC_ESR.En bit causes the EDMA_TPCC_ER.En bit to be set. CPU write of '0' has no effect.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	W	0x0
30	E30	Event #30	W	0x0
29	E29	Event #29	W	0x0
28	E28	Event #28	W	0x0
27	E27	Event #27	W	0x0
26	E26	Event #26	W	0x0
25	E25	Event #25	W	0x0
24	E24	Event #24	W	0x0
23	E23	Event #23	W	0x0
22	E22	Event #22	W	0x0
21	E21	Event #21	W	0x0
20	E20	Event #20	W	0x0
19	E19	Event #19	W	0x0
18	E18	Event #18	W	0x0
17	E17	Event #17	W	0x0
16	E16	Event #16	W	0x0
15	E15	Event #15	W	0x0
14	E14	Event #14	W	0x0
13	E13	Event #13	W	0x0
12	E12	Event #12	W	0x0
11	E11	Event #11	W	0x0
10	E10	Event #10	W	0x0
9	E9	Event #9	W	0x0
8	E8	Event #8	W	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-166 EDMA_TPCC_ESRH_RN_k

Address Offset	0x0000 2014 + (0x200 * k)
Physical Address	0x4330 2014 + (0x200 * k) 0x40D1 2014 + (0x200 * k) 0x4151 2014 + (0x200 * k) 0x01D1 2014 + (0x200 * k) 0x420A 2014 + (0x200 * k) 0x421A 2014 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Set Register (High Part) CPU write of '1' to the EDMA_TPCC_ESRH.En bit causes the EDMA_TPCC_ERH.En bit to be set. CPU write of '0' has no effect.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	W	0x0
30	E62	Event #62	W	0x0
29	E61	Event #61	W	0x0
28	E60	Event #60	W	0x0
27	E59	Event #59	W	0x0
26	E58	Event #58	W	0x0
25	E57	Event #57	W	0x0
24	E56	Event #56	W	0x0
23	E55	Event #55	W	0x0
22	E54	Event #54	W	0x0
21	E53	Event #53	W	0x0
20	E52	Event #52	W	0x0
19	E51	Event #51	W	0x0
18	E50	Event #50	W	0x0
17	E49	Event #49	W	0x0
16	E48	Event #48	W	0x0
15	E47	Event #47	W	0x0
14	E46	Event #46	W	0x0
13	E45	Event #45	W	0x0
12	E44	Event #44	W	0x0
11	E43	Event #43	W	0x0
10	E42	Event #42	W	0x0
9	E41	Event #41	W	0x0
8	E40	Event #40	W	0x0
7	E39	Event #39	W	0x0
6	E38	Event #38	W	0x0
5	E37	Event #37	W	0x0
4	E36	Event #36	W	0x0
3	E35	Event #35	W	0x0
2	E34	Event #34	W	0x0
1	E33	Event #33	W	0x0
0	E32	Event #32	W	0x0

Table 16-167 EDMA_TPCC_CER_RN_k

Address Offset	0x0000 2018 + (0x200 * k)
Physical Address	0x4330 2018 + (0x200 * k) 0x40D1 2018 + (0x200 * k) 0x4151 2018 + (0x200 * k) 0x01D1 2018 + (0x200 * k) 0x420A 2018 + (0x200 * k) 0x421A 2018 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Chained Event Register If EDMA_TPCC_CER.En bit is set (regardless of state of EDMA_TPCC_EER.En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. EDMA_TPCC_CER.En bit is set when a chaining completion code is returned from one of the 3PTCs via the completion interface, or is generated internally via Early Completion path. EDMA_TPCC_CER.En bit is cleared when the corresponding event is prioritized and serviced. If the EDMA_TPCC_CER.En bit is already set and the corresponding chaining completion code is returned from the TC, then the corresponding bit in the Event Missed Register is set. EDMA_TPCC_CER.En cannot be set or cleared via software.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	R	0x0
30	E30	Event #30	R	0x0
29	E29	Event #29	R	0x0
28	E28	Event #28	R	0x0
27	E27	Event #27	R	0x0
26	E26	Event #26	R	0x0
25	E25	Event #25	R	0x0
24	E24	Event #24	R	0x0
23	E23	Event #23	R	0x0
22	E22	Event #22	R	0x0
21	E21	Event #21	R	0x0
20	E20	Event #20	R	0x0
19	E19	Event #19	R	0x0
18	E18	Event #18	R	0x0
17	E17	Event #17	R	0x0
16	E16	Event #16	R	0x0
15	E15	Event #15	R	0x0
14	E14	Event #14	R	0x0
13	E13	Event #13	R	0x0
12	E12	Event #12	R	0x0
11	E11	Event #11	R	0x0
10	E10	Event #10	R	0x0
9	E9	Event #9	R	0x0
8	E8	Event #8	R	0x0
7	E7	Event #7	R	0x0
6	E6	Event #6	R	0x0
5	E5	Event #5	R	0x0
4	E4	Event #4	R	0x0
3	E3	Event #3	R	0x0
2	E2	Event #2	R	0x0
1	E1	Event #1	R	0x0
0	E0	Event #0	R	0x0

Table 16-168 EDMA_TPCC_CERH_RN_k

Address Offset	0x0000 201C + (0x200 * k)
Physical Address	0x4330 201C + (0x200 * k) 0x40D1 201C + (0x200 * k) 0x4151 201C + (0x200 * k) 0x01D1 201C + (0x200 * k) 0x420A 201C + (0x200 * k) 0x421A 201C + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Chained Event Register (High Part) If EDMA_TPCC_CERH.En bit is set (regardless of state of EDMA_TPCC_EERH.En), then the corresponding DMA channel is prioritized vs. other pending DMA events for submission to the TC. EDMA_TPCC_CERH.En bit is set when a chaining completion code is returned from one of the 3PTCs via the completion interface, or is generated internally via Early Completion path. EDMA_TPCC_CERH.En bit is cleared when the corresponding event is prioritized and serviced. If the EDMA_TPCC_CERH.En bit is already set and the corresponding chaining completion code is returned from the TC, then the corresponding bit in the Event Missed Register is set. EDMA_TPCC_CERH.En cannot be set or cleared via software.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	R	0x0
30	E62	Event #62	R	0x0
29	E61	Event #61	R	0x0
28	E60	Event #60	R	0x0
27	E59	Event #59	R	0x0
26	E58	Event #58	R	0x0
25	E57	Event #57	R	0x0
24	E56	Event #56	R	0x0
23	E55	Event #55	R	0x0
22	E54	Event #54	R	0x0
21	E53	Event #53	R	0x0
20	E52	Event #52	R	0x0
19	E51	Event #51	R	0x0
18	E50	Event #50	R	0x0
17	E49	Event #49	R	0x0
16	E48	Event #48	R	0x0
15	E47	Event #47	R	0x0
14	E46	Event #46	R	0x0
13	E45	Event #45	R	0x0
12	E44	Event #44	R	0x0
11	E43	Event #43	R	0x0
10	E42	Event #42	R	0x0
9	E41	Event #41	R	0x0
8	E40	Event #40	R	0x0
7	E39	Event #39	R	0x0
6	E38	Event #38	R	0x0
5	E37	Event #37	R	0x0
4	E36	Event #36	R	0x0
3	E35	Event #35	R	0x0
2	E34	Event #34	R	0x0
1	E33	Event #33	R	0x0
0	E32	Event #32	R	0x0

Table 16-169 EDMA_TPCC_EER_RN_k

Address Offset	0x0000 2020 + (0x200 * k)
Physical Address	0x4330 2020 + (0x200 * k) 0x40D1 2020 + (0x200 * k) 0x4151 2020 + (0x200 * k) 0x01D1 2020 + (0x200 * k) 0x420A 2020 + (0x200 * k) 0x421A 2020 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Enable Register Enables DMA transfers for EDMA_TPCC_ER.En pending events. EDMA_TPCC_ER.En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register (EDMA_TPCC_CER) or Event Set Register (EDMA_TPCC_ESR). NOTE: If a bit is set in EDMA_TPCC_ER.En while EDMA_TPCC_EER.En is disabled, no action is taken. If EDMA_TPCC_EER.En is enabled at a later point (and EDMA_TPCC_ER.En has not been cleared via SW) then the event will be recognized as a valid 'TR Sync' EDMA_TPCC_EER.En is not directly writeable. Events can be enabled via writes to EDMA_TPCC_EESR and can be disabled via writes to EDMA_TPCC_EECR register. EDMA_TPCC_EER.En = 0: EDMA_TPCC_ER.En is not enabled to trigger DMA transfers. EDMA_TPCC_EER.En = 1: EDMA_TPCC_ER.En is enabled to trigger DMA transfers.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	R	0x0
30	E30	Event #30	R	0x0
29	E29	Event #29	R	0x0
28	E28	Event #28	R	0x0
27	E27	Event #27	R	0x0
26	E26	Event #26	R	0x0
25	E25	Event #25	R	0x0
24	E24	Event #24	R	0x0
23	E23	Event #23	R	0x0
22	E22	Event #22	R	0x0
21	E21	Event #21	R	0x0
20	E20	Event #20	R	0x0
19	E19	Event #19	R	0x0
18	E18	Event #18	R	0x0
17	E17	Event #17	R	0x0
16	E16	Event #16	R	0x0
15	E15	Event #15	R	0x0
14	E14	Event #14	R	0x0
13	E13	Event #13	R	0x0
12	E12	Event #12	R	0x0
11	E11	Event #11	R	0x0
10	E10	Event #10	R	0x0
9	E9	Event #9	R	0x0
8	E8	Event #8	R	0x0
7	E7	Event #7	R	0x0
6	E6	Event #6	R	0x0
5	E5	Event #5	R	0x0
4	E4	Event #4	R	0x0
3	E3	Event #3	R	0x0
2	E2	Event #2	R	0x0
1	E1	Event #1	R	0x0
0	E0	Event #0	R	0x0

Table 16-170 EDMA_TPCC_EERH_RN_k

Address Offset	0x0000 2024 + (0x200 * k)
Physical Address	0x4330 2024 + (0x200 * k) 0x40D1 2024 + (0x200 * k) 0x4151 2024 + (0x200 * k) 0x01D1 2024 + (0x200 * k) 0x420A 2024 + (0x200 * k) 0x421A 2024 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Enable Register (High Part) Enables DMA transfers for EDMA_TPCC_ERH.En pending events. EDMA_TPCC_ERH.En is set based on externally asserted events (via tpcc_eventN_pi). This register has no effect on Chained Event Register (EDMA_TPCC_CERH) or Event Set Register (EDMA_TPCC_ESRH). NOTE: If a bit is set in EDMA_TPCC_ERH.En while EDMA_TPCC_EERH.En is disabled, no action is taken. If EDMA_TPCC_EERH.En is enabled at a later point (and EDMA_TPCC_ERH.En has not been cleared via SW) then the event will be recognized as a valid 'TR Sync' EDMA_TPCC_EERH.En is not directly writeable. Events can be enabled via writes to EDMA_TPCC_EESRH and can be disabled via writes to EDMA_TPCC_EECRH register. EDMA_TPCC_EERH.En = 0: EDMA_TPCC_ER.En is not enabled to trigger DMA transfers. EDMA_TPCC_EERH.En = 1: EDMA_TPCC_ER.En is enabled to trigger DMA transfers.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	R	0x0
30	E62	Event #62	R	0x0
29	E61	Event #61	R	0x0
28	E60	Event #60	R	0x0
27	E59	Event #59	R	0x0
26	E58	Event #58	R	0x0
25	E57	Event #57	R	0x0
24	E56	Event #56	R	0x0
23	E55	Event #55	R	0x0
22	E54	Event #54	R	0x0
21	E53	Event #53	R	0x0
20	E52	Event #52	R	0x0
19	E51	Event #51	R	0x0
18	E50	Event #50	R	0x0
17	E49	Event #49	R	0x0
16	E48	Event #48	R	0x0
15	E47	Event #47	R	0x0
14	E46	Event #46	R	0x0
13	E45	Event #45	R	0x0
12	E44	Event #44	R	0x0
11	E43	Event #43	R	0x0
10	E42	Event #42	R	0x0
9	E41	Event #41	R	0x0
8	E40	Event #40	R	0x0
7	E39	Event #39	R	0x0
6	E38	Event #38	R	0x0
5	E37	Event #37	R	0x0
4	E36	Event #36	R	0x0
3	E35	Event #35	R	0x0
2	E34	Event #34	R	0x0
1	E33	Event #33	R	0x0
0	E32	Event #32	R	0x0

Table 16-171 EDMA_TPCC_EECR_RN_k

Address Offset	0x0000 2028 + (0x200 * k)
Physical Address	0x4330 2028 + (0x200 * k) 0x40D1 2028 + (0x200 * k) 0x4151 2028 + (0x200 * k) 0x01D1 2028 + (0x200 * k) 0x420A 2028 + (0x200 * k) 0x421A 2028 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the EDMA_TPCC_EECR.En bit causes the EDMA_TPCC_EER.En bit to be cleared.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	W	0x0
30	E30	Event #30	W	0x0
29	E29	Event #29	W	0x0
28	E28	Event #28	W	0x0
27	E27	Event #27	W	0x0
26	E26	Event #26	W	0x0
25	E25	Event #25	W	0x0
24	E24	Event #24	W	0x0
23	E23	Event #23	W	0x0
22	E22	Event #22	W	0x0
21	E21	Event #21	W	0x0
20	E20	Event #20	W	0x0
19	E19	Event #19	W	0x0
18	E18	Event #18	W	0x0
17	E17	Event #17	W	0x0
16	E16	Event #16	W	0x0
15	E15	Event #15	W	0x0
14	E14	Event #14	W	0x0
13	E13	Event #13	W	0x0
12	E12	Event #12	W	0x0
11	E11	Event #11	W	0x0
10	E10	Event #10	W	0x0
9	E9	Event #9	W	0x0
8	E8	Event #8	W	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-172 EDMA_TPCC_EECRH_RN_k

Address Offset	0x0000 202C + (0x200 * k)
Physical Address	0x4330 202C + (0x200 * k) 0x40D1 202C + (0x200 * k) 0x4151 202C + (0x200 * k) 0x01D1 202C + (0x200 * k) 0x420A 202C + (0x200 * k) 0x421A 202C + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the EDMA_TPCC_EECRH.En bit causes the EDMA_TPCC_EERH.En bit to be cleared.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	W	0x0
30	E62	Event #62	W	0x0
29	E61	Event #61	W	0x0
28	E60	Event #60	W	0x0
27	E59	Event #59	W	0x0
26	E58	Event #58	W	0x0
25	E57	Event #57	W	0x0
24	E56	Event #56	W	0x0
23	E55	Event #55	W	0x0
22	E54	Event #54	W	0x0
21	E53	Event #53	W	0x0
20	E52	Event #52	W	0x0
19	E51	Event #51	W	0x0
18	E50	Event #50	W	0x0
17	E49	Event #49	W	0x0
16	E48	Event #48	W	0x0
15	E47	Event #47	W	0x0
14	E46	Event #46	W	0x0
13	E45	Event #45	W	0x0
12	E44	Event #44	W	0x0
11	E43	Event #43	W	0x0
10	E42	Event #42	W	0x0
9	E41	Event #41	W	0x0
8	E40	Event #40	W	0x0
7	E39	Event #39	W	0x0
6	E38	Event #38	W	0x0
5	E37	Event #37	W	0x0
4	E36	Event #36	W	0x0
3	E35	Event #35	W	0x0
2	E34	Event #34	W	0x0
1	E33	Event #33	W	0x0
0	E32	Event #32	W	0x0

Table 16-173 EDMA_TPCC_EESR_RN_k

Address Offset	0x0000 2030 + (0x200 * k)
Physical Address	0x4330 2030 + (0x200 * k) 0x40D1 2030 + (0x200 * k) 0x4151 2030 + (0x200 * k) 0x01D1 2030 + (0x200 * k) 0x420A 2030 + (0x200 * k) 0x421A 2030 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the EDMA_TPCC_EESR.En bit causes the EDMA_TPCC_EER.En bit to be set.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	W	0x0
30	E30	Event #30	W	0x0
29	E29	Event #29	W	0x0
28	E28	Event #28	W	0x0
27	E27	Event #27	W	0x0
26	E26	Event #26	W	0x0
25	E25	Event #25	W	0x0
24	E24	Event #24	W	0x0
23	E23	Event #23	W	0x0
22	E22	Event #22	W	0x0
21	E21	Event #21	W	0x0
20	E20	Event #20	W	0x0
19	E19	Event #19	W	0x0
18	E18	Event #18	W	0x0
17	E17	Event #17	W	0x0
16	E16	Event #16	W	0x0
15	E15	Event #15	W	0x0
14	E14	Event #14	W	0x0
13	E13	Event #13	W	0x0
12	E12	Event #12	W	0x0
11	E11	Event #11	W	0x0
10	E10	Event #10	W	0x0
9	E9	Event #9	W	0x0
8	E8	Event #8	W	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-174 EDMA_TPCC_EESRH_RN_k

Address Offset	0x0000 2034 + (0x200 * k)
Physical Address	0x4330 2034 + (0x200 * k) 0x40D1 2034 + (0x200 * k) 0x4151 2034 + (0x200 * k) 0x01D1 2034 + (0x200 * k) 0x420A 2034 + (0x200 * k) 0x421A 2034 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Event Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the EDMA_TPCC_EESRH.En bit causes the EDMA_TPCC_EERH.En bit to be set.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	W	0x0
30	E62	Event #62	W	0x0
29	E61	Event #61	W	0x0
28	E60	Event #60	W	0x0
27	E59	Event #59	W	0x0
26	E58	Event #58	W	0x0
25	E57	Event #57	W	0x0
24	E56	Event #56	W	0x0
23	E55	Event #55	W	0x0
22	E54	Event #54	W	0x0
21	E53	Event #53	W	0x0
20	E52	Event #52	W	0x0
19	E51	Event #51	W	0x0
18	E50	Event #50	W	0x0
17	E49	Event #49	W	0x0
16	E48	Event #48	W	0x0
15	E47	Event #47	W	0x0
14	E46	Event #46	W	0x0
13	E45	Event #45	W	0x0
12	E44	Event #44	W	0x0
11	E43	Event #43	W	0x0
10	E42	Event #42	W	0x0
9	E41	Event #41	W	0x0
8	E40	Event #40	W	0x0
7	E39	Event #39	W	0x0
6	E38	Event #38	W	0x0
5	E37	Event #37	W	0x0
4	E36	Event #36	W	0x0
3	E35	Event #35	W	0x0
2	E34	Event #34	W	0x0
1	E33	Event #33	W	0x0
0	E32	Event #32	W	0x0

Table 16-175 EDMA_TPCC_SER_RN_k

Address Offset	0x0000 2038 + (0x200 * k)
Physical Address	0x4330 2038 + (0x200 * k) 0x40D1 2038 + (0x200 * k) 0x4151 2038 + (0x200 * k) 0x01D1 2038 + (0x200 * k) 0x420A 2038 + (0x200 * k) 0x421A 2038 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Secondary Event Register The secondary event register is used along with the Event Register (EDMA_TPCC_ER) to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored in Event Queue. Event arbiter will not prioritize additional events.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	R	0x0
30	E30	Event #30	R	0x0
29	E29	Event #29	R	0x0
28	E28	Event #28	R	0x0
27	E27	Event #27	R	0x0
26	E26	Event #26	R	0x0
25	E25	Event #25	R	0x0
24	E24	Event #24	R	0x0
23	E23	Event #23	R	0x0
22	E22	Event #22	R	0x0
21	E21	Event #21	R	0x0
20	E20	Event #20	R	0x0
19	E19	Event #19	R	0x0
18	E18	Event #18	R	0x0
17	E17	Event #17	R	0x0
16	E16	Event #16	R	0x0
15	E15	Event #15	R	0x0
14	E14	Event #14	R	0x0
13	E13	Event #13	R	0x0
12	E12	Event #12	R	0x0
11	E11	Event #11	R	0x0
10	E10	Event #10	R	0x0
9	E9	Event #9	R	0x0
8	E8	Event #8	R	0x0
7	E7	Event #7	R	0x0
6	E6	Event #6	R	0x0
5	E5	Event #5	R	0x0
4	E4	Event #4	R	0x0
3	E3	Event #3	R	0x0
2	E2	Event #2	R	0x0
1	E1	Event #1	R	0x0
0	E0	Event #0	R	0x0

Table 16-176 EDMA_TPCC_SERH_RN_k

Address Offset	0x0000 203C + (0x200 * k)
Physical Address	0x4330 203C + (0x200 * k) 0x40D1 203C + (0x200 * k) 0x4151 203C + (0x200 * k) 0x01D1 203C + (0x200 * k) 0x420A 203C + (0x200 * k) 0x421A 203C + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Secondary Event Register (High Part) The secondary event register is used along with the Event Register (EDMA_TPCC_ERH) to provide information on the state of an Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored in Event Queue. Event arbiter will not prioritize additional events.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	R	0x0
30	E62	Event #62	R	0x0
29	E61	Event #61	R	0x0
28	E60	Event #60	R	0x0
27	E59	Event #59	R	0x0
26	E58	Event #58	R	0x0
25	E57	Event #57	R	0x0
24	E56	Event #56	R	0x0
23	E55	Event #55	R	0x0
22	E54	Event #54	R	0x0
21	E53	Event #53	R	0x0
20	E52	Event #52	R	0x0
19	E51	Event #51	R	0x0
18	E50	Event #50	R	0x0
17	E49	Event #49	R	0x0
16	E48	Event #48	R	0x0
15	E47	Event #47	R	0x0
14	E46	Event #46	R	0x0
13	E45	Event #45	R	0x0
12	E44	Event #44	R	0x0
11	E43	Event #43	R	0x0
10	E42	Event #42	R	0x0
9	E41	Event #41	R	0x0
8	E40	Event #40	R	0x0
7	E39	Event #39	R	0x0
6	E38	Event #38	R	0x0
5	E37	Event #37	R	0x0
4	E36	Event #36	R	0x0
3	E35	Event #35	R	0x0
2	E34	Event #34	R	0x0
1	E33	Event #33	R	0x0
0	E32	Event #32	R	0x0

Table 16-177 EDMA_TPCC_SECR_RN_k

Address Offset	0x0000 2040 + (0x200 * k)
Physical Address	0x4330 2040 + (0x200 * k) 0x40D1 2040 + (0x200 * k) 0x4151 2040 + (0x200 * k) 0x01D1 2040 + (0x200 * k) 0x420A 2040 + (0x200 * k) 0x421A 2040 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Secondary Event Clear Register The secondary event clear register is used to clear the status of the EDMA_TPCC_SER registers. CPU write of '0' has no effect. CPU write of '1' to the EDMA_TPCC_SECR.En bit clears the EDMA_TPCC_SER register.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31	E31	Event #31	W	0x0
30	E30	Event #30	W	0x0
29	E29	Event #29	W	0x0
28	E28	Event #28	W	0x0
27	E27	Event #27	W	0x0
26	E26	Event #26	W	0x0
25	E25	Event #25	W	0x0
24	E24	Event #24	W	0x0
23	E23	Event #23	W	0x0
22	E22	Event #22	W	0x0
21	E21	Event #21	W	0x0
20	E20	Event #20	W	0x0
19	E19	Event #19	W	0x0
18	E18	Event #18	W	0x0
17	E17	Event #17	W	0x0
16	E16	Event #16	W	0x0
15	E15	Event #15	W	0x0
14	E14	Event #14	W	0x0
13	E13	Event #13	W	0x0
12	E12	Event #12	W	0x0
11	E11	Event #11	W	0x0
10	E10	Event #10	W	0x0
9	E9	Event #9	W	0x0
8	E8	Event #8	W	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-178 EDMA_TPCC_SECRH_RN_k

Address Offset	0x0000 2044 + (0x200 * k)
Physical Address	0x4330 2044 + (0x200 * k) 0x40D1 2044 + (0x200 * k) 0x4151 2044 + (0x200 * k) 0x01D1 2044 + (0x200 * k) 0x420A 2044 + (0x200 * k) 0x421A 2044 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Secondary Event Clear Register (High Part) The secondary event clear register is used to clear the status of the EDMA_TPCC_SERH registers. CPU write of '0' has no effect. CPU write of '1' to the EDMA_TPCC_SECRH.En bit clears the EDMA_TPCC_SERH register.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

Bits	Field Name	Description	Type	Reset
31	E63	Event #63	W	0x0
30	E62	Event #62	W	0x0
29	E61	Event #61	W	0x0
28	E60	Event #60	W	0x0
27	E59	Event #59	W	0x0
26	E58	Event #58	W	0x0
25	E57	Event #57	W	0x0
24	E56	Event #56	W	0x0
23	E55	Event #55	W	0x0
22	E54	Event #54	W	0x0
21	E53	Event #53	W	0x0
20	E52	Event #52	W	0x0
19	E51	Event #51	W	0x0
18	E50	Event #50	W	0x0
17	E49	Event #49	W	0x0
16	E48	Event #48	W	0x0
15	E47	Event #47	W	0x0
14	E46	Event #46	W	0x0
13	E45	Event #45	W	0x0
12	E44	Event #44	W	0x0
11	E43	Event #43	W	0x0
10	E42	Event #42	W	0x0
9	E41	Event #41	W	0x0
8	E40	Event #40	W	0x0
7	E39	Event #39	W	0x0
6	E38	Event #38	W	0x0
5	E37	Event #37	W	0x0
4	E36	Event #36	W	0x0
3	E35	Event #35	W	0x0
2	E34	Event #34	W	0x0
1	E33	Event #33	W	0x0
0	E32	Event #32	W	0x0

Table 16-179 EDMA_TPCC_IER_RN_k

Address Offset	0x0000 2050 + (0x200 * k)
Physical Address	0x4330 2050 + (0x200 * k) 0x40D1 2050 + (0x200 * k) 0x4151 2050 + (0x200 * k) 0x01D1 2050 + (0x200 * k) 0x420A 2050 + (0x200 * k) 0x421A 2050 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Int Enable Register EDMA_TPCC_IER.In is not directly writeable. Interrupts can be enabled via writes to EDMA_TPCC_IESR and can be disabled via writes to EDMA_TPCC_IECR register. EDMA_TPCC_IER.In = 0: EDMA_TPCC_IPR.In is NOT enabled for interrupts. EDMA_TPCC_IER.In = 1: EDMA_TPCC_IPR.In IS enabled for interrupts.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I31	I30	I29	I28	I27	I26	I25	I24	I23	I22	I21	I20	I19	I18	I17	I16	I15	I14	I13	I12	I11	I10	I9	I8	I7	I6	I5	I4	I3	I2	I1	I0

Bits	Field Name	Description	Type	Reset
31	I31	Interrupt associated with TCC #31	R	0x0
30	I30	Interrupt associated with TCC #30	R	0x0
29	I29	Interrupt associated with TCC #29	R	0x0
28	I28	Interrupt associated with TCC #28	R	0x0
27	I27	Interrupt associated with TCC #27	R	0x0
26	I26	Interrupt associated with TCC #26	R	0x0
25	I25	Interrupt associated with TCC #25	R	0x0
24	I24	Interrupt associated with TCC #24	R	0x0
23	I23	Interrupt associated with TCC #23	R	0x0
22	I22	Interrupt associated with TCC #22	R	0x0
21	I21	Interrupt associated with TCC #21	R	0x0
20	I20	Interrupt associated with TCC #20	R	0x0
19	I19	Interrupt associated with TCC #19	R	0x0
18	I18	Interrupt associated with TCC #18	R	0x0
17	I17	Interrupt associated with TCC #17	R	0x0
16	I16	Interrupt associated with TCC #16	R	0x0
15	I15	Interrupt associated with TCC #15	R	0x0
14	I14	Interrupt associated with TCC #14	R	0x0
13	I13	Interrupt associated with TCC #13	R	0x0
12	I12	Interrupt associated with TCC #12	R	0x0
11	I11	Interrupt associated with TCC #11	R	0x0
10	I10	Interrupt associated with TCC #10	R	0x0
9	I9	Interrupt associated with TCC #9	R	0x0
8	I8	Interrupt associated with TCC #8	R	0x0
7	I7	Interrupt associated with TCC #7	R	0x0
6	I6	Interrupt associated with TCC #6	R	0x0
5	I5	Interrupt associated with TCC #5	R	0x0
4	I4	Interrupt associated with TCC #4	R	0x0
3	I3	Interrupt associated with TCC #3	R	0x0
2	I2	Interrupt associated with TCC #2	R	0x0
1	I1	Interrupt associated with TCC #1	R	0x0
0	I0	Interrupt associated with TCC #0	R	0x0

Table 16-180 EDMA_TPCC_IERH_RN_k

Address Offset	0x0000 2054 + (0x200 * k)
Physical Address	0x4330 2054 + (0x200 * k) 0x40D1 2054 + (0x200 * k) 0x4151 2054 + (0x200 * k) 0x01D1 2054 + (0x200 * k) 0x420A 2054 + (0x200 * k) 0x421A 2054 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Int Enable Register (High Part) EDMA_TPCC_IERH.In is not directly writeable. Interrupts can be enabled via writes to EDMA_TPCC_IESRH and can be disabled via writes to EDMA_TPCC_IECRH register. EDMA_TPCC_IERH.In = 0: EDMA_TPCC_IPRH.In is NOT enabled for interrupts. EDMA_TPCC_IERH.In = 1: EDMA_TPCC_IPRH.In IS enabled for interrupts.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I63	I62	I61	I60	I59	I58	I57	I56	I55	I54	I53	I52	I51	I50	I49	I48	I47	I46	I45	I44	I43	I42	I41	I40	I39	I38	I37	I36	I35	I34	I33	I32

Bits	Field Name	Description	Type	Reset
31	I63	Interrupt associated with TCC #63	R	0x0
30	I62	Interrupt associated with TCC #62	R	0x0
29	I61	Interrupt associated with TCC #61	R	0x0
28	I60	Interrupt associated with TCC #60	R	0x0
27	I59	Interrupt associated with TCC #59	R	0x0
26	I58	Interrupt associated with TCC #58	R	0x0
25	I57	Interrupt associated with TCC #57	R	0x0
24	I56	Interrupt associated with TCC #56	R	0x0
23	I55	Interrupt associated with TCC #55	R	0x0
22	I54	Interrupt associated with TCC #54	R	0x0
21	I53	Interrupt associated with TCC #53	R	0x0
20	I52	Interrupt associated with TCC #52	R	0x0
19	I51	Interrupt associated with TCC #51	R	0x0
18	I50	Interrupt associated with TCC #50	R	0x0
17	I49	Interrupt associated with TCC #49	R	0x0
16	I48	Interrupt associated with TCC #48	R	0x0
15	I47	Interrupt associated with TCC #47	R	0x0
14	I46	Interrupt associated with TCC #46	R	0x0
13	I45	Interrupt associated with TCC #45	R	0x0
12	I44	Interrupt associated with TCC #44	R	0x0
11	I43	Interrupt associated with TCC #43	R	0x0
10	I42	Interrupt associated with TCC #42	R	0x0
9	I41	Interrupt associated with TCC #41	R	0x0
8	I40	Interrupt associated with TCC #40	R	0x0
7	I39	Interrupt associated with TCC #39	R	0x0
6	I38	Interrupt associated with TCC #38	R	0x0
5	I37	Interrupt associated with TCC #37	R	0x0
4	I36	Interrupt associated with TCC #36	R	0x0
3	I35	Interrupt associated with TCC #35	R	0x0
2	I34	Interrupt associated with TCC #34	R	0x0
1	I33	Interrupt associated with TCC #33	R	0x0
0	I32	Interrupt associated with TCC #32	R	0x0

Table 16-181 EDMA_TPCC_IECR_RN_k

Address Offset	0x0000 2058 + (0x200 * k)
Physical Address	0x4330 2058 + (0x200 * k) 0x40D1 2058 + (0x200 * k) 0x4151 2058 + (0x200 * k) 0x01D1 2058 + (0x200 * k) 0x420A 2058 + (0x200 * k) 0x421A 2058 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Int Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the EDMA_TPCC_IECR.In bit causes the EDMA_TPCC_IER.In bit to be cleared.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I31	I30	I29	I28	I27	I26	I25	I24	I23	I22	I21	I20	I19	I18	I17	I16	I15	I14	I13	I12	I11	I10	I9	I8	I7	I6	I5	I4	I3	I2	I1	I0

Bits	Field Name	Description	Type	Reset
31	I31	Interrupt associated with TCC #31	W	0x0
30	I30	Interrupt associated with TCC #30	W	0x0
29	I29	Interrupt associated with TCC #29	W	0x0
28	I28	Interrupt associated with TCC #28	W	0x0
27	I27	Interrupt associated with TCC #27	W	0x0
26	I26	Interrupt associated with TCC #26	W	0x0
25	I25	Interrupt associated with TCC #25	W	0x0
24	I24	Interrupt associated with TCC #24	W	0x0
23	I23	Interrupt associated with TCC #23	W	0x0
22	I22	Interrupt associated with TCC #22	W	0x0
21	I21	Interrupt associated with TCC #21	W	0x0
20	I20	Interrupt associated with TCC #20	W	0x0
19	I19	Interrupt associated with TCC #19	W	0x0
18	I18	Interrupt associated with TCC #18	W	0x0
17	I17	Interrupt associated with TCC #17	W	0x0
16	I16	Interrupt associated with TCC #16	W	0x0
15	I15	Interrupt associated with TCC #15	W	0x0
14	I14	Interrupt associated with TCC #14	W	0x0
13	I13	Interrupt associated with TCC #13	W	0x0
12	I12	Interrupt associated with TCC #12	W	0x0
11	I11	Interrupt associated with TCC #11	W	0x0
10	I10	Interrupt associated with TCC #10	W	0x0
9	I9	Interrupt associated with TCC #9	W	0x0
8	I8	Interrupt associated with TCC #8	W	0x0
7	I7	Interrupt associated with TCC #7	W	0x0
6	I6	Interrupt associated with TCC #6	W	0x0
5	I5	Interrupt associated with TCC #5	W	0x0
4	I4	Interrupt associated with TCC #4	W	0x0
3	I3	Interrupt associated with TCC #3	W	0x0
2	I2	Interrupt associated with TCC #2	W	0x0
1	I1	Interrupt associated with TCC #1	W	0x0
0	I0	Interrupt associated with TCC #0	W	0x0

Table 16-182 EDMA_TPCC_IECRH_RN_k

Address Offset	0x0000 205C + (0x200 * k)
Physical Address	0x4330 205C + (0x200 * k) 0x40D1 205C + (0x200 * k) 0x4151 205C + (0x200 * k) 0x01D1 205C + (0x200 * k) 0x420A 205C + (0x200 * k) 0x421A 205C + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Int Enable Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the EDMA_TPCC_IECRH.In bit causes the EDMA_TPCC_IERH.In bit to be cleared.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I63	I62	I61	I60	I59	I58	I57	I56	I55	I54	I53	I52	I51	I50	I49	I48	I47	I46	I45	I44	I43	I42	I41	I40	I39	I38	I37	I36	I35	I34	I33	I32

Bits	Field Name	Description	Type	Reset
31	I63	Interrupt associated with TCC #63	W	0x0
30	I62	Interrupt associated with TCC #62	W	0x0
29	I61	Interrupt associated with TCC #61	W	0x0
28	I60	Interrupt associated with TCC #60	W	0x0
27	I59	Interrupt associated with TCC #59	W	0x0
26	I58	Interrupt associated with TCC #58	W	0x0
25	I57	Interrupt associated with TCC #57	W	0x0
24	I56	Interrupt associated with TCC #56	W	0x0
23	I55	Interrupt associated with TCC #55	W	0x0
22	I54	Interrupt associated with TCC #54	W	0x0
21	I53	Interrupt associated with TCC #53	W	0x0
20	I52	Interrupt associated with TCC #52	W	0x0
19	I51	Interrupt associated with TCC #51	W	0x0
18	I50	Interrupt associated with TCC #50	W	0x0
17	I49	Interrupt associated with TCC #49	W	0x0
16	I48	Interrupt associated with TCC #48	W	0x0
15	I47	Interrupt associated with TCC #47	W	0x0
14	I46	Interrupt associated with TCC #46	W	0x0
13	I45	Interrupt associated with TCC #45	W	0x0
12	I44	Interrupt associated with TCC #44	W	0x0
11	I43	Interrupt associated with TCC #43	W	0x0
10	I42	Interrupt associated with TCC #42	W	0x0
9	I41	Interrupt associated with TCC #41	W	0x0
8	I40	Interrupt associated with TCC #40	W	0x0
7	I39	Interrupt associated with TCC #39	W	0x0
6	I38	Interrupt associated with TCC #38	W	0x0
5	I37	Interrupt associated with TCC #37	W	0x0
4	I36	Interrupt associated with TCC #36	W	0x0
3	I35	Interrupt associated with TCC #35	W	0x0
2	I34	Interrupt associated with TCC #34	W	0x0
1	I33	Interrupt associated with TCC #33	W	0x0
0	I32	Interrupt associated with TCC #32	W	0x0

Table 16-183 EDMA_TPCC_IESR_RN_k

Address Offset	0x0000 2060 + (0x200 * k)
Physical Address	0x4330 2060 + (0x200 * k) 0x40D1 2060 + (0x200 * k) 0x4151 2060 + (0x200 * k) 0x01D1 2060 + (0x200 * k) 0x420A 2060 + (0x200 * k) 0x421A 2060 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Int Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the EDMA_TPCC_IESR.In bit causes the EDMA_TPCC_IESR.In bit to be set.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I31	I30	I29	I28	I27	I26	I25	I24	I23	I22	I21	I20	I19	I18	I17	I16	I15	I14	I13	I12	I11	I10	I9	I8	I7	I6	I5	I4	I3	I2	I1	I0

Bits	Field Name	Description	Type	Reset
31	I31	Interrupt associated with TCC #31	W	0x0
30	I30	Interrupt associated with TCC #30	W	0x0
29	I29	Interrupt associated with TCC #29	W	0x0
28	I28	Interrupt associated with TCC #28	W	0x0
27	I27	Interrupt associated with TCC #27	W	0x0
26	I26	Interrupt associated with TCC #26	W	0x0
25	I25	Interrupt associated with TCC #25	W	0x0
24	I24	Interrupt associated with TCC #24	W	0x0
23	I23	Interrupt associated with TCC #23	W	0x0
22	I22	Interrupt associated with TCC #22	W	0x0
21	I21	Interrupt associated with TCC #21	W	0x0
20	I20	Interrupt associated with TCC #20	W	0x0
19	I19	Interrupt associated with TCC #19	W	0x0
18	I18	Interrupt associated with TCC #18	W	0x0
17	I17	Interrupt associated with TCC #17	W	0x0
16	I16	Interrupt associated with TCC #16	W	0x0
15	I15	Interrupt associated with TCC #15	W	0x0
14	I14	Interrupt associated with TCC #14	W	0x0
13	I13	Interrupt associated with TCC #13	W	0x0
12	I12	Interrupt associated with TCC #12	W	0x0
11	I11	Interrupt associated with TCC #11	W	0x0
10	I10	Interrupt associated with TCC #10	W	0x0
9	I9	Interrupt associated with TCC #9	W	0x0
8	I8	Interrupt associated with TCC #8	W	0x0
7	I7	Interrupt associated with TCC #7	W	0x0
6	I6	Interrupt associated with TCC #6	W	0x0
5	I5	Interrupt associated with TCC #5	W	0x0
4	I4	Interrupt associated with TCC #4	W	0x0
3	I3	Interrupt associated with TCC #3	W	0x0
2	I2	Interrupt associated with TCC #2	W	0x0
1	I1	Interrupt associated with TCC #1	W	0x0
0	I0	Interrupt associated with TCC #0	W	0x0

Table 16-184 EDMA_TPCC_IESRH_RN_k

Address Offset	0x0000 2064 + (0x200 * k)
Physical Address	0x4330 2064 + (0x200 * k) 0x40D1 2064 + (0x200 * k) 0x4151 2064 + (0x200 * k) 0x01D1 2064 + (0x200 * k) 0x420A 2064 + (0x200 * k) 0x421A 2064 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Int Enable Set Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the EDMA_TPCC_IESRH.In bit causes the EDMA_TPCC_IESRH.In bit to be set.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I63	I62	I61	I60	I59	I58	I57	I56	I55	I54	I53	I52	I51	I50	I49	I48	I47	I46	I45	I44	I43	I42	I41	I40	I39	I38	I37	I36	I35	I34	I33	I32

Bits	Field Name	Description	Type	Reset
31	I63	Interrupt associated with TCC #63	W	0x0
30	I62	Interrupt associated with TCC #62	W	0x0
29	I61	Interrupt associated with TCC #61	W	0x0
28	I60	Interrupt associated with TCC #60	W	0x0
27	I59	Interrupt associated with TCC #59	W	0x0
26	I58	Interrupt associated with TCC #58	W	0x0
25	I57	Interrupt associated with TCC #57	W	0x0
24	I56	Interrupt associated with TCC #56	W	0x0
23	I55	Interrupt associated with TCC #55	W	0x0
22	I54	Interrupt associated with TCC #54	W	0x0
21	I53	Interrupt associated with TCC #53	W	0x0
20	I52	Interrupt associated with TCC #52	W	0x0
19	I51	Interrupt associated with TCC #51	W	0x0
18	I50	Interrupt associated with TCC #50	W	0x0
17	I49	Interrupt associated with TCC #49	W	0x0
16	I48	Interrupt associated with TCC #48	W	0x0
15	I47	Interrupt associated with TCC #47	W	0x0
14	I46	Interrupt associated with TCC #46	W	0x0
13	I45	Interrupt associated with TCC #45	W	0x0
12	I44	Interrupt associated with TCC #44	W	0x0
11	I43	Interrupt associated with TCC #43	W	0x0
10	I42	Interrupt associated with TCC #42	W	0x0
9	I41	Interrupt associated with TCC #41	W	0x0
8	I40	Interrupt associated with TCC #40	W	0x0
7	I39	Interrupt associated with TCC #39	W	0x0
6	I38	Interrupt associated with TCC #38	W	0x0
5	I37	Interrupt associated with TCC #37	W	0x0
4	I36	Interrupt associated with TCC #36	W	0x0
3	I35	Interrupt associated with TCC #35	W	0x0
2	I34	Interrupt associated with TCC #34	W	0x0
1	I33	Interrupt associated with TCC #33	W	0x0
0	I32	Interrupt associated with TCC #32	W	0x0

Table 16-185 EDMA_TPCC_IPR_RN_k

Address Offset	0x0000 2068 + (0x200 * k)
Physical Address	0x4330 2068 + (0x200 * k) 0x40D1 2068 + (0x200 * k) 0x4151 2068 + (0x200 * k) 0x01D1 2068 + (0x200 * k) 0x420A 2068 + (0x200 * k) 0x421A 2068 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Interrupt Pending Register EDMA_TPCC_IPR.In bit is set when a interrupt completion code with TCC of N is detected. EDMA_TPCC_IPR.In bit is cleared via software by writing a '1' to EDMA_TPCC_ICR.In bit.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I31	I30	I29	I28	I27	I26	I25	I24	I23	I22	I21	I20	I19	I18	I17	I16	I15	I14	I13	I12	I11	I10	I9	I8	I7	I6	I5	I4	I3	I2	I1	I0

Bits	Field Name	Description	Type	Reset
31	I31	Interrupt associated with TCC #31	R	0x0
30	I30	Interrupt associated with TCC #30	R	0x0
29	I29	Interrupt associated with TCC #29	R	0x0
28	I28	Interrupt associated with TCC #28	R	0x0
27	I27	Interrupt associated with TCC #27	R	0x0
26	I26	Interrupt associated with TCC #26	R	0x0
25	I25	Interrupt associated with TCC #25	R	0x0
24	I24	Interrupt associated with TCC #24	R	0x0
23	I23	Interrupt associated with TCC #23	R	0x0
22	I22	Interrupt associated with TCC #22	R	0x0
21	I21	Interrupt associated with TCC #21	R	0x0
20	I20	Interrupt associated with TCC #20	R	0x0
19	I19	Interrupt associated with TCC #19	R	0x0
18	I18	Interrupt associated with TCC #18	R	0x0
17	I17	Interrupt associated with TCC #17	R	0x0
16	I16	Interrupt associated with TCC #16	R	0x0
15	I15	Interrupt associated with TCC #15	R	0x0
14	I14	Interrupt associated with TCC #14	R	0x0
13	I13	Interrupt associated with TCC #13	R	0x0
12	I12	Interrupt associated with TCC #12	R	0x0
11	I11	Interrupt associated with TCC #11	R	0x0
10	I10	Interrupt associated with TCC #10	R	0x0
9	I9	Interrupt associated with TCC #9	R	0x0
8	I8	Interrupt associated with TCC #8	R	0x0
7	I7	Interrupt associated with TCC #7	R	0x0
6	I6	Interrupt associated with TCC #6	R	0x0
5	I5	Interrupt associated with TCC #5	R	0x0
4	I4	Interrupt associated with TCC #4	R	0x0
3	I3	Interrupt associated with TCC #3	R	0x0
2	I2	Interrupt associated with TCC #2	R	0x0
1	I1	Interrupt associated with TCC #1	R	0x0
0	I0	Interrupt associated with TCC #0	R	0x0

Table 16-186 EDMA_TPCC_IPRH_RN_k

Address Offset	0x0000 206C + (0x200 * k)
Physical Address	0x4330 206C + (0x200 * k) 0x40D1 206C + (0x200 * k) 0x4151 206C + (0x200 * k) 0x01D1 206C + (0x200 * k) 0x420A 206C + (0x200 * k) 0x421A 206C + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Interrupt Pending Register (High Part) EDMA_TPCC_IPRH.In bit is set when a interrupt completion code with TCC of N is detected. EDMA_TPCC_IPRH.In bit is cleared via software by writing a '1' to EDMA_TPCC_ICRH.In bit.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I63	I62	I61	I60	I59	I58	I57	I56	I55	I54	I53	I52	I51	I50	I49	I48	I47	I46	I45	I44	I43	I42	I41	I40	I39	I38	I37	I36	I35	I34	I33	I32

Bits	Field Name	Description	Type	Reset
31	I63	Interrupt associated with TCC #63	R	0x0
30	I62	Interrupt associated with TCC #62	R	0x0
29	I61	Interrupt associated with TCC #61	R	0x0
28	I60	Interrupt associated with TCC #60	R	0x0
27	I59	Interrupt associated with TCC #59	R	0x0
26	I58	Interrupt associated with TCC #58	R	0x0
25	I57	Interrupt associated with TCC #57	R	0x0
24	I56	Interrupt associated with TCC #56	R	0x0
23	I55	Interrupt associated with TCC #55	R	0x0
22	I54	Interrupt associated with TCC #54	R	0x0
21	I53	Interrupt associated with TCC #53	R	0x0
20	I52	Interrupt associated with TCC #52	R	0x0
19	I51	Interrupt associated with TCC #51	R	0x0
18	I50	Interrupt associated with TCC #50	R	0x0
17	I49	Interrupt associated with TCC #49	R	0x0
16	I48	Interrupt associated with TCC #48	R	0x0
15	I47	Interrupt associated with TCC #47	R	0x0
14	I46	Interrupt associated with TCC #46	R	0x0
13	I45	Interrupt associated with TCC #45	R	0x0
12	I44	Interrupt associated with TCC #44	R	0x0
11	I43	Interrupt associated with TCC #43	R	0x0
10	I42	Interrupt associated with TCC #42	R	0x0
9	I41	Interrupt associated with TCC #41	R	0x0
8	I40	Interrupt associated with TCC #40	R	0x0
7	I39	Interrupt associated with TCC #39	R	0x0
6	I38	Interrupt associated with TCC #38	R	0x0
5	I37	Interrupt associated with TCC #37	R	0x0
4	I36	Interrupt associated with TCC #36	R	0x0
3	I35	Interrupt associated with TCC #35	R	0x0
2	I34	Interrupt associated with TCC #34	R	0x0
1	I33	Interrupt associated with TCC #33	R	0x0
0	I32	Interrupt associated with TCC #32	R	0x0

Table 16-187 EDMA_TPCC_ICR_RN_k

Address Offset	0x0000 2070 + (0x200 * k)
Physical Address	0x4330 2070 + (0x200 * k) 0x40D1 2070 + (0x200 * k) 0x4151 2070 + (0x200 * k) 0x01D1 2070 + (0x200 * k) 0x420A 2070 + (0x200 * k) 0x421A 2070 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Interrupt Clear Register CPU writes of '0' has no effect. CPU write of '1' to the EDMA_TPCC_ICR.In bit causes the EDMA_TPCC_IPR.In bit to be cleared. All EDMA_TPCC_IPR.In bits must be cleared before additional interrupts will be asserted by CC.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I31	I30	I29	I28	I27	I26	I25	I24	I23	I22	I21	I20	I19	I18	I17	I16	I15	I14	I13	I12	I11	I10	I9	I8	I7	I6	I5	I4	I3	I2	I1	I0

Bits	Field Name	Description	Type	Reset
31	I31	Interrupt associated with TCC #31	W	0x0
30	I30	Interrupt associated with TCC #30	W	0x0
29	I29	Interrupt associated with TCC #29	W	0x0
28	I28	Interrupt associated with TCC #28	W	0x0
27	I27	Interrupt associated with TCC #27	W	0x0
26	I26	Interrupt associated with TCC #26	W	0x0
25	I25	Interrupt associated with TCC #25	W	0x0
24	I24	Interrupt associated with TCC #24	W	0x0
23	I23	Interrupt associated with TCC #23	W	0x0
22	I22	Interrupt associated with TCC #22	W	0x0
21	I21	Interrupt associated with TCC #21	W	0x0
20	I20	Interrupt associated with TCC #20	W	0x0
19	I19	Interrupt associated with TCC #19	W	0x0
18	I18	Interrupt associated with TCC #18	W	0x0
17	I17	Interrupt associated with TCC #17	W	0x0
16	I16	Interrupt associated with TCC #16	W	0x0
15	I15	Interrupt associated with TCC #15	W	0x0
14	I14	Interrupt associated with TCC #14	W	0x0
13	I13	Interrupt associated with TCC #13	W	0x0
12	I12	Interrupt associated with TCC #12	W	0x0
11	I11	Interrupt associated with TCC #11	W	0x0
10	I10	Interrupt associated with TCC #10	W	0x0
9	I9	Interrupt associated with TCC #9	W	0x0
8	I8	Interrupt associated with TCC #8	W	0x0
7	I7	Interrupt associated with TCC #7	W	0x0
6	I6	Interrupt associated with TCC #6	W	0x0
5	I5	Interrupt associated with TCC #5	W	0x0
4	I4	Interrupt associated with TCC #4	W	0x0
3	I3	Interrupt associated with TCC #3	W	0x0
2	I2	Interrupt associated with TCC #2	W	0x0
1	I1	Interrupt associated with TCC #1	W	0x0
0	I0	Interrupt associated with TCC #0	W	0x0

Table 16-188 EDMA_TPCC_ICRH_RN_k

Address Offset	0x0000 2074 + (0x200 * k)
Physical Address	0x4330 2074 + (0x200 * k) 0x40D1 2074 + (0x200 * k) 0x4151 2074 + (0x200 * k) 0x01D1 2074 + (0x200 * k) 0x420A 2074 + (0x200 * k) 0x421A 2074 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Interrupt Clear Register (High Part) CPU write of '0' has no effect. CPU write of '1' to the EDMA_TPCC_ICRH.In bit causes the EDMA_TPCC_IPRH.In bit to be cleared. All EDMA_TPCC_IPRH.In bits must be cleared before additional interrupts will be asserted by CC.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
I63	I62	I61	I60	I59	I58	I57	I56	I55	I54	I53	I52	I51	I50	I49	I48	I47	I46	I45	I44	I43	I42	I41	I40	I39	I38	I37	I36	I35	I34	I33	I32

Bits	Field Name	Description	Type	Reset
31	I63	Interrupt associated with TCC #63	W	0x0
30	I62	Interrupt associated with TCC #62	W	0x0
29	I61	Interrupt associated with TCC #61	W	0x0
28	I60	Interrupt associated with TCC #60	W	0x0
27	I59	Interrupt associated with TCC #59	W	0x0
26	I58	Interrupt associated with TCC #58	W	0x0
25	I57	Interrupt associated with TCC #57	W	0x0
24	I56	Interrupt associated with TCC #56	W	0x0
23	I55	Interrupt associated with TCC #55	W	0x0
22	I54	Interrupt associated with TCC #54	W	0x0
21	I53	Interrupt associated with TCC #53	W	0x0
20	I52	Interrupt associated with TCC #52	W	0x0
19	I51	Interrupt associated with TCC #51	W	0x0
18	I50	Interrupt associated with TCC #50	W	0x0
17	I49	Interrupt associated with TCC #49	W	0x0
16	I48	Interrupt associated with TCC #48	W	0x0
15	I47	Interrupt associated with TCC #47	W	0x0
14	I46	Interrupt associated with TCC #46	W	0x0
13	I45	Interrupt associated with TCC #45	W	0x0
12	I44	Interrupt associated with TCC #44	W	0x0
11	I43	Interrupt associated with TCC #43	W	0x0
10	I42	Interrupt associated with TCC #42	W	0x0
9	I41	Interrupt associated with TCC #41	W	0x0
8	I40	Interrupt associated with TCC #40	W	0x0
7	I39	Interrupt associated with TCC #39	W	0x0
6	I38	Interrupt associated with TCC #38	W	0x0
5	I37	Interrupt associated with TCC #37	W	0x0
4	I36	Interrupt associated with TCC #36	W	0x0
3	I35	Interrupt associated with TCC #35	W	0x0
2	I34	Interrupt associated with TCC #34	W	0x0
1	I33	Interrupt associated with TCC #33	W	0x0
0	I32	Interrupt associated with TCC #32	W	0x0

Table 16-189 EDMA_TPCC_IEVAL_RN_k

Address Offset	0x0000 2078 + (0x200 * k)
Physical Address	0x4330 2078 + (0x200 * k) 0x40D1 2078 + (0x200 * k) 0x4151 2078 + (0x200 * k) 0x01D1 2078 + (0x200 * k) 0x420A 2078 + (0x200 * k) 0x421A 2078 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Interrupt Eval Register
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																														SET	EVAL

Bits	Field Name	Description	Type	Reset
31:2	RESERVED	Reserved	R	0x0
1	SET	Interrupt Set	W	0x0
		CPU writes 0x0 has no effect.
		CPU writes 0x1 to the SETn bit causes the tpcc_intN output signal to be pulsed egardless of state of interrupts enable (IERn) and status (EDMA_TPCC_IPRn).
0	EVAL	Interrupt Evaluate	W	0x0
		CPU writes 0x0 has no effect.
		CPU writes 0x1 to the EVALn bit causes the tpcc_intN output signal to be pulsed if any enabled interrupts (IERn) are still pending (EDMA_TPCC_IPRn).

Table 16-190 EDMA_TPCC_QER_RN_k

Address Offset	0x0000 2080 + (0x200 * k)
Physical Address	0x4330 2080 + (0x200 * k) 0x40D1 2080 + (0x200 * k) 0x4151 2080 + (0x200 * k) 0x01D1 2080 + (0x200 * k) 0x420A 2080 + (0x200 * k) 0x421A 2080 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Event Register If EDMA_TPCC_QER.En bit is set, then the corresponding QDMA channel is prioritized vs. other qdma events for submission to the TC. EDMA_TPCC_QER.En bit is set when a vbus write byte matches the address defined in the QCHMAPn register. EDMA_TPCC_QER.En bit is cleared when the corresponding event is prioritized and serviced. EDMA_TPCC_QER.En is also cleared when user writes a '1' to the EDMA_TPCC_QSECR.En bit. If the EDMA_TPCC_QER.En bit is already set and a new QDMA event is detected due to user write to QDMA trigger location and EDMA_TPCC_QEER register is set, then the corresponding bit in the QDMA Event Missed Register is set.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R Return 0's	0x0
7	E7	Event #7	R	0x0
6	E6	Event #6	R	0x0
5	E5	Event #5	R	0x0
4	E4	Event #4	R	0x0
3	E3	Event #3	R	0x0
2	E2	Event #2	R	0x0
1	E1	Event #1	R	0x0
0	E0	Event #0	R	0x0

Table 16-191 EDMA_TPCC_QEER_RN_k

Address Offset	0x0000 2084 + (0x200 * k)
Physical Address	0x4330 2084 + (0x200 * k) 0x40D1 2084 + (0x200 * k) 0x4151 2084 + (0x200 * k) 0x01D1 2084 + (0x200 * k) 0x420A 2084 + (0x200 * k) 0x421A 2084 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Event Enable Register Enabled/disabled QDMA address comparator for QDMA Channel N. EDMA_TPCC_QEER.En is not directly writeable. The corresponding QDMA channel comparator is enabled and Events will be recognized and latched in EDMA_TPCC_QER.En. EDMA_TPCC_QEER.En = 0, The corresponding QDMA channel comparator is disabled. Events will not be recognized/latched in EDMA_TPCC_QER.En. QDMA channels can be enabled via writes to EDMA_TPCC_QEESR and can be disabled via writes to EDMA_TPCC_QEECR register. EDMA_TPCC_QEER.En = 1,
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R Return 0's	0x0
7	E7	Event #7	R	0x0
6	E6	Event #6	R	0x0
5	E5	Event #5	R	0x0
4	E4	Event #4	R	0x0
3	E3	Event #3	R	0x0
2	E2	Event #2	R	0x0
1	E1	Event #1	R	0x0
0	E0	Event #0	R	0x0

Table 16-192 EDMA_TPCC_QEECR_RN_k

Address Offset	0x0000 2088 + (0x200 * k)
Physical Address	0x4330 2088 + (0x200 * k) 0x40D1 2088 + (0x200 * k) 0x4151 2088 + (0x200 * k) 0x01D1 2088 + (0x200 * k) 0x420A 2088 + (0x200 * k) 0x421A 2088 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Event Enable Clear Register CPU write of '0' has no effect. CPU write of '1' to the EDMA_TPCC_QEECR.En bit causes the EDMA_TPCC_QEER.En bit to be cleared.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-193 EDMA_TPCC_QEESR_RN_k

Address Offset	0x0000 208C + (0x200 * k)
Physical Address	0x4330 208C + (0x200 * k) 0x40D1 208C + (0x200 * k) 0x4151 208C + (0x200 * k) 0x01D1 208C + (0x200 * k) 0x420A 208C + (0x200 * k) 0x421A 208C + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Event Enable Set Register CPU write of '0' has no effect. CPU write of '1' to the EDMA_TPCC_QEESR.En bit causes the EDMA_TPCC_QEESR.En bit to be set.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-194 EDMA_TPCC_QSER_RN_k

Address Offset	0x0000 2090 + (0x200 * k)
Physical Address	0x4330 2090 + (0x200 * k) 0x40D1 2090 + (0x200 * k) 0x4151 2090 + (0x200 * k) 0x01D1 2090 + (0x200 * k) 0x420A 2090 + (0x200 * k) 0x421A 2090 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Secondary Event Register The QDMA secondary event register is used along with the QDMA Event Register (EDMA_TPCC_QER) to provide information on the state of a QDMA Event. En = 0 : Event is not currently in the Event Queue. En = 1 : Event is currently stored in Event Queue. Event arbiter will not prioritize additional events.
Type	R

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	Reserved	R Return 0's	0x0
7	E7	Event #7	R	0x0
6	E6	Event #6	R	0x0
5	E5	Event #5	R	0x0
4	E4	Event #4	R	0x0
3	E3	Event #3	R	0x0
2	E2	Event #2	R	0x0
1	E1	Event #1	R	0x0
0	E0	Event #0	R	0x0

Table 16-195 EDMA_TPCC_QSECR_RN_k

Address Offset	0x0000 2094 + (0x200 * k)
Physical Address	0x4330 2094 + (0x200 * k) 0x40D1 2094 + (0x200 * k) 0x4151 2094 + (0x200 * k) 0x01D1 2094 + (0x200 * k) 0x420A 2094 + (0x200 * k) 0x421A 2094 + (0x200 * k)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	QDMA Secondary Event Clear Register CPU write of '0' has no effect. The secondary event clear register is used to clear the status of the EDMA_TPCC_QSER and EDMA_TPCC_QER register (note that this is slightly different than the EDMA_TPCC_SER operation, which does not clear the EDMA_TPCC_ER.En register). CPU write of '1' to the EDMA_TPCC_QSECR.En bit clears the EDMA_TPCC_QSER.En and EDMA_TPCC_QER.En register fields.
Type	W

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																								E7	E6	E5	E4	E3	E2	E1	E0

Bits	Field Name	Description	Type	Reset
31:8	RESERVED	write 0's for future compatibility	W	0x0
7	E7	Event #7	W	0x0
6	E6	Event #6	W	0x0
5	E5	Event #5	W	0x0
4	E4	Event #4	W	0x0
3	E3	Event #3	W	0x0
2	E2	Event #2	W	0x0
1	E1	Event #1	W	0x0
0	E0	Event #0	W	0x0

Table 16-196 EDMA_TPCC_OPT_n

Address Offset	0x0000 4000 + (0x20 * n)
Physical Address	0x4330 4000 + (0x20 * n) 0x40D1 4000 + (0x20 * n) 0x4151 4000 + (0x20 * n) 0x01D1 4000 + (0x20 * n) 0x420A 4000 + (0x20 * n) 0x421A 4000 + (0x20 * n)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Options Parameter
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
PRIV	RESERVED			PRIVID				ITCCHEN	TCCHEN	ITCINTEN	TCINTEN	WIMODE	RESERVED	TCC						TCCMODE	FWID			RESERVED				STATIC	SYNCDIM	DAM	SAM

Bits	Field Name	Description	Type	Reset
31	PRIV	Privilege level privilege level (supervisor vs. user) for the host/cpu/dma that programmed this PaRAM Entry. Value is set with the vbus priv value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata bus.	R	0x0
		0x0: User level privilege
		0x1: Supervisor level privilege
30:28	RESERVED	Reserved	R	0x0
27:24	PRIVID	Privilege ID Privilege ID for the external host/cpu/dma that programmed this PaRAM Entry. This value is set with the vbus privid value when any part of the PaRAM Entry is written. Not writeable via vbus wdata bus. Is readable via VBus rdata bus.	R	0x0
23	ITCCHEN	Intermediate transfer completion chaining enable	RW	0x0
		0x0: Intermediate transfer complete chaining is disabled.
		0x1: Intermediate transfer complete chaining is enabled.
22	TCCHEN	Transfer complete chaining enable	RW	0x0
		0x0: Transfer complete chaining is disabled.
		0x1: Transfer complete chaining is enabled.
21	ITCINTEN	Intermediate transfer completion interrupt enable	RW	0x0
		0x0: Intermediate transfer complete interrupt is disabled.
		0x1: Intermediate transfer complete interrupt is enabled (corresponding EDMA_TPCC_IER[TCC] bit must be set to 1 to generate interrupt)
20	TCINTEN	Transfer complete interrupt enable	RW	0x0
		0x0: Transfer complete interrupt is disabled.
		0x1: Transfer complete interrupt is enabled (corresponding EDMA_TPCC_IER[TCC] bit must be set to 1 to generate interrupt)
19	WIMODE	Backward compatibility mode	RW	0x0
		0x0: Normal operation
		0x1: WI Backwards Compatibility mode, forces BCNT to be adjusted by '1' upon TR submission (0 means 1, 1 means 2, ... ) and forces ACNT to be treated as a word-count (left shifted by 2 by hardware to create byte cnt for TR submission)
18	RESERVED	Reserved	R	0x0
17:12	TCC	Transfer Complete Code The 6-bit code is used to set the relevant bit in EDMA_TPCC_CER (bit EDMA_TPCC_CER[TCC]) for chaining or in EDMA_TPCC_IER (bit EDMA_TPCC_IER[TCC]) for interrupts.	RW	0x0
11	TCCMODE	Transfer complete code mode: Indicates the point at which a transfer is considered completed. Applies to both chaining and interrupt.	RW	0x0
		0x0: Normal Completion. A transfer is considered completed after the transfer parameters are returned to the CC from the TC (which was returned from the peripheral)
		0x1: Early Completion, A transfer is considered completed after the CC submits a TR to the TC. CC generates completion code internally.
10:8	FWID	FIFO width: Applies if either SAM or DAM is set to FIFO mode. Pass-thru to TC.	RW	0x0
7:4	RESERVED	Reserved	R	0x0
3	STATIC	Static Entry	RW	0x0
		0x0: Entry is updated as normal
		0x1: Entry is static, Count and Address updates are not updated after TRP is submitted. Linking is not performed.
2	SYNCDIM	Transfer Synchronization Dimension:	RW	0x0
		0x0: A-Sync, Each event triggers the transfer of ACNT elements.
		0x1: AB-Sync, Each event triggers the transfer of BCNT arrays of ACNT elements.
1	DAM	Destination Address Mode: Destination Address Mode within an array. Pass-thru to TC.	RW	0x0
		0x0: INCR, Dst addressing within an array increments. Dst is not a FIFO.
		0x1: FIFO, Dst addressing within an array wraps around upon reaching FIFO width.
0	SAM	Source Address Mode: Source Address Mode within an array. Pass-thru to TC.	RW	0x0
		0x0: INCR, Src addressing within an array increments. Source is not a FIFO.
		0x1: FIFO, Src addressing within an array wraps around upon reaching FIFO width.

Table 16-197 EDMA_TPCC_SRC_n

Address Offset	0x0000 4004 + (0x20 * n)
Physical Address	0x4330 4004 + (0x20 * n) 0x40D1 4004 + (0x20 * n) 0x4151 4004 + (0x20 * n) 0x01D1 4004 + (0x20 * n) 0x420A 4004 + (0x20 * n) 0x421A 4004 + (0x20 * n)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Source Address
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
SRC

Bits	Field Name	Description	Type	Reset
31:0	SRC	Source Address The 32-bit source address parameters specify the starting byte address of the source. If SAM is set to FIFO mode then the user should program the Source address to be aligned to the value specified by the EDMA_TPCC_OPT_n[10:8] FWID field. No errors are recognized here but TC will assert error if this is not true.	RW	0x0

Table 16-198 EDMA_TPCC_ABCNT_n

Address Offset	0x0000 4008 + (0x20 * n)
Physical Address	0x4330 4008 + (0x20 * n) 0x40D1 4008 + (0x20 * n) 0x4151 4008 + (0x20 * n) 0x01D1 4008 + (0x20 * n) 0x420A 4008 + (0x20 * n) 0x421A 4008 + (0x20 * n)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	A and B byte count
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
BCNT																ACNT

Bits	Field Name	Description	Type	Reset
31:16	BCNT	BCNT: Count for 2nd Dimension: BCNT is a 16-bit unsigned value that specifies the number of arrays of length ACNT. For normal operation, valid values for BCNT can be anywhere between 1 and 65535. Therefore, the maximum number of arrays in a frame is 65535 (64K-1 arrays). BCNT=1 means 1 array in the frame, and BCNT=0 means 0 arrays in the frame. In normal mode, a BCNT of '0' is considered as either a Null or Dummy transfer. A Dummy or Null transfer will generate a Completion code depending on the settings of the completion bit fields of the OPT field. If the EDMA_TPCC_OPT_n.WIMODE bit is set, then the programmed BCNT value will be incremented by '1' before submission to TC. I.e., 0 means 1, 1 means 2, 2 means 3, ..., 0xFFFE means 0xFFFF. A value of 0xFFFF is an illegal value that will be treated as a Null TR.	RW	0x0
15:0	ACNT	ACNT: number of bytes in 1st dimension: ACNT represents the number of bytes within the first dimension of a transfer. ACNT is a 16-bit unsigned value with valid values between 0 and 65535. Therefore, the maximum number of bytes in an array is 65535 bytes (64K-1 bytes). ACNT must be greater than or equal to '1' for a TR to be submitted to TC. An ACNT of '0' is considered as either a null or dummy transfer. A Dummy or Null transfer will generate a Completion code depending on the settings of the completion bit fields of the OPT field. If the EDMA_TPCC_OPT_n.WIMODE bit is set then the ACNT field represents a word count. The CC must internally multiply by 4 to translate the word count to a byte count prior to submission to the TC. The 2 MSBs of the 16-bit ACNT are reserved and should always be written as 'b00 by the user. If user writes a value other than 0, it will still be treated as 0 since the multiply-by-4 operation (to translate between a word count and a byte count) will drop the 2 msbits. For dummy and null transfer definition, the ACNT definition will disregard the 2 msbits. I.e., a programmed ACNT value of 0x8000 in WI-mode will be treated as 0 byte transfer, resulting in null or dummy operation dependent on the state of BCNT and CCNT.	RW	0x0

Table 16-199 EDMA_TPCC_DST_n

Address Offset	0x0000 400C + (0x20 * n)
Physical Address	0x4330 400C + (0x20 * n) 0x40D1 400C + (0x20 * n) 0x4151 400C + (0x20 * n) 0x01D1 400C + (0x20 * n) 0x420A 400C + (0x20 * n) 0x421A 400C + (0x20 * n)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Destination Address
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
DST

Bits	Field Name	Description	Type	Reset
31:0	DST	Destination Address: The 32-bit destination address parameters specify the starting byte address of the destination. If DAM is set to FIFO mode then the user should program the Destination address to be aligned to the value specified by the EDMA_TPCC_OPT_n.FWID field. No errors are recognized here but TC will assert error if this is not true.	RW	0x0

Table 16-200 EDMA_TPCC_BIDX_n

Address Offset	0x0000 4010 + (0x20 * n)
Physical Address	0x4330 4010 + (0x20 * n) 0x40D1 4010 + (0x20 * n) 0x4151 4010 + (0x20 * n) 0x01D1 4010 + (0x20 * n) 0x420A 4010 + (0x20 * n) 0x421A 4010 + (0x20 * n)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
DBIDX																SBIDX

Bits	Field Name	Description	Type	Reset
31:16	DBIDX	Destination 2nd Dimension Index: DBIDX is a 16-bit signed value (2's complement) used for destination address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of the destination array to the beginning of the next destination array within the current frame. It applies to both A-Sync and AB-Sync transfers.	RW	0x0
15:0	SBIDX	Source 2nd Dimension Index: SBIDX is a 16-bit signed value (2's complement) used for source address modification in between each array in the 2nd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of the source array to the beginning of the next source array. It applies to both A-sync and AB-sync transfers.	RW	0x0

Table 16-201 EDMA_TPCC_LNK_n

Address Offset	0x0000 4014 + (0x20 * n)
Physical Address	0x4330 4014 + (0x20 * n) 0x40D1 4014 + (0x20 * n) 0x4151 4014 + (0x20 * n) 0x01D1 4014 + (0x20 * n) 0x420A 4014 + (0x20 * n) 0x421A 4014 + (0x20 * n)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Link and Reload parameters
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
BCNTRLD																LINK

Bits	Field Name	Description	Type	Reset
31:16	BCNTRLD	BCNT Reload: BCNTRLD is a 16-bit unsigned value used to reload the BCNT field once the last array in the 2nd dimension is transferred. This field is only used for A-Sync'ed transfers. In this case, the CC decrements the BCNT value by one on each TR submission. When BCNT (conceptually) reaches zero, then the CC decrements CCNT and uses the BCNTRLD value to reinitialize the BCNT value. For AB-synchronized transfers, the CC submits the BCNT in the TR and therefore the TC is responsible to keep track of BCNT, not thus BCNTRLD is a don't care field.	RW	0x0
15:0	LINK	Link Address: The CC provides a mechanism to reload the current PaRAM Entry upon its natural termination (i.e., after count fields are decremented to '0') with a new PaRAM Entry. This is called 'linking'. The 16-bit parameter LINK specifies the byte address offset in the PaRAM from which the CC loads/reloads the next PaRAM entry in the link. The CC should disregard the value in the upper 2 bits of the LINK field as well as the lower 5-bits of the LINK field. The upper two bits are ignored such that the user can program either the 'literal' byte address of the LINK parameter or the 'PaRAM base-relative' address of the link field. Therefore, if the user uses the literal address with a range from 0x4000 to 0x7FFF, it will be treated as a PaRAM-base-relative value of 0x0000 to 0x3FFF. The lower-5 bits are ignored and treated as 'b00000, thereby guaranteeing that all Link pointers point to a 32-byte aligned PaRAM entry. In the latter case (5-lsbs), behavior is undefined for the user (i.e., don't have to test it). In the former case (2 msbs), user should be able to take advantage of this feature (i.e., do have to test it). If a Link Update is requested to a PaRAM address that is beyond the actual range of implemented PaRAM, then the Link will be treated as a Null Linkand all 0s plus 0xFFFF will be written to the current entry location. A LINK value of 0xFFFF is referred to as a NULL link which should cause the CC to write 0x0 to all entries of the current PaRAM Entry except for the LINK field which is set to 0xFFFF. The Priv/Privid state is overwritten to 0x0 when linking. MSBs and LSBS should not be masked when comparing against the 0xFFFF value. I.e., a value of 0x3FFE is a non-NULL PaRAM link field.	RW	0x0

Table 16-202 EDMA_TPCC_CIDX_n

Address Offset	0x0000 4018 + (0x20 * n)
Physical Address	0x4330 4018 + (0x20 * n) 0x40D1 4018 + (0x20 * n) 0x4151 4018 + (0x20 * n) 0x01D1 4018 + (0x20 * n) 0x420A 4018 + (0x20 * n) 0x421A 4018 + (0x20 * n)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	Source and destination frame indexes
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
DCIDX																SCIDX

Bits	Field Name	Description	Type	Reset
31:16	DCIDX	Destination Frame Index: DCIDX is a 16-bit signed value (2's complement) used for destination address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of the current array (pointed to by DST address) to the beginning of the first destination array in the next frame. It applies to both A-sync and AB-sync transfers. Note that when DCIDX is applied, the current array in an A-sync transfer is the last array in the frame, while the current array in a ABsync transfer is the first array in the frame.	RW	0x0
15:0	SCIDX	Source Frame Index: SCIDX is a 16-bit signed value (2's complement) used for source address modification for the 3rd dimension. It is a signed value between -32768 and 32767. It provides a byte address offset from the beginning of the current array (pointed to by SRC address) to the beginning of the first source array in the next frame. It applies to both A-sync and AB-sync transfers. Note that when SCIDX is applied, the current array in an A-sync transfer is the last array in the frame, while the current array in a AB-sync transfer is the first array in the frame.	RW	0x0

Table 16-203 EDMA_TPCC_CCNT_n

Address Offset	0x0000 401C + (0x20 * n)
Physical Address	0x4330 401C + (0x20 * n) 0x40D1 401C + (0x20 * n) 0x4151 401C + (0x20 * n) 0x01D1 401C + (0x20 * n) 0x420A 401C + (0x20 * n) 0x421A 401C + (0x20 * n)	Instance	SYS_EDMA_TPCC DSP1_EDMA_TPCC DSP2_EDMA_TPCC DSP_EDMA_TPCC EVE1_EDMA_TPCC EVE2_EDMA_TPCC
Description	C byte count
Type	RW

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																CCNT

Bits	Field Name	Description	Type	Reset
31:16	RESERVED	Reserved	RW	0x0
15:0	CCNT	CCNT: Count for 3rd Dimension: CCNT is a 16-bit unsigned value that specifies the number of frames in a block. Valid values for CCNT can be anywhere between 1 and 65535. Therefore, the maximum number of frames in a block is 65535 (64K-1 frames). CCNT of '1' means '1' frame in the block, and CCNT of '0' means '0' frames in the block. A CCNT value of '0' is considered as either a null or dummy transfer. A Dummy or Null transfer will generate a Completion code depending on the settings of the completion bit fields of the OPT field. WIMODE has no affect on CCNT operation.	RW	0x0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E31	E30	E29	E28	E27	E26	E25	E24	E23	E22	E21	E20	E19	E18	E17	E16	E15	E14	E13	E12	E11	E10	E9	E8	E7	E6	E5	E4	E3	E2	E1	E0

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
E63	E62	E61	E60	E59	E58	E57	E56	E55	E54	E53	E52	E51	E50	E49	E48	E47	E46	E45	E44	E43	E42	E41	E40	E39	E38	E37	E36	E35	E34	E33	E32