SPRUIM2H May   2020  – October 2023 AM2431 , AM2432 , AM2434 , AM6411 , AM6412 , AM6421 , AM6422 , AM6441 , AM6442

 

  1.   1
  2.   Read This First
    1.     About This Manual
    2.     Glossary
    3.     Related Documentation From Texas Instruments
    4.     6
    5.     Support Resources
    6.     Trademarks
    7.     Export Control Notice
  3. Introduction
    1. 1.1 Device Overview
    2.     12
    3. 1.2 Functional Block Diagram
      1. 1.2.1 Module Allocation and Instances within Device Domains
    4. 1.3 Device MAIN Domain
      1. 1.3.1  Arm Cortex-A53 Subsystem (A53SS)
      2.      Arm Cortex-R5F Processor (R5FSS)
      3. 1.3.2  Programmable Real-Time Unit and Industrial Communication Subsystem - Gigabit (PRU_ICSSG)
      4. 1.3.3  DDR 16-bit Subsystem (DDR16)
      5. 1.3.4  Region-based Address Translation Module (RAT)
      6. 1.3.5  Data Movement Subsystem (DMSS)
      7. 1.3.6  Mailbox (MAILBOX)
      8. 1.3.7  Spinlock (SPINLOCK)
      9. 1.3.8  Analog-to-Digital Converter (ADC)
      10. 1.3.9  General Purpose Input/Output Interface (GPIO)
      11. 1.3.10 Inter-Integrated Circuit Interface (I2C)
      12. 1.3.11 Serial Peripheral Interface (SPI)
      13. 1.3.12 Universal Asynchronous Receiver/Transmitter (UART)
      14. 1.3.13 3-port Gigabit Ethernet Switch (CPSW3G)
      15. 1.3.14 Peripheral Component Interconnect Express Subsystem (PCIE)
      16. 1.3.15 Serializer/Deserializer (SERDES)
      17. 1.3.16 Universal Serial Bus 3.1 Subsystem (USBSS)
      18. 1.3.17 General Purpose Memory Controller (GPMC)
      19. 1.3.18 Error Location Module (ELM)
      20. 1.3.19 Flash Subsystem (FSS) with Octal Serial Peripheral Interface (OSPI)
      21. 1.3.20 Multi-Media Card/Secure Digital Interface (MMCSD)
      22. 1.3.21 Enhanced Capture Module (ECAP)
      23. 1.3.22 Enhanced Pulse-Width Modulation Module (EPWM)
      24. 1.3.23 Enhanced Quadrature Encoder Pulse Module (EQEP)
      25. 1.3.24 Controller Area Network (MCAN)
      26. 1.3.25 Fast Serial Interface Receiver (FSI_RX)
      27. 1.3.26 Fast Serial Interface Transmitter (FSI_TX)
      28. 1.3.27 Timers
      29. 1.3.28 Internal Diagnostics Modules
    5. 1.4 Device MCU Domain
      1. 1.4.1 MCU Arm Cortex M4F Subsystem (MCU_M4FSS)
      2. 1.4.2 MCU General Purpose Input/Output Interface (MCU_GPIO)
      3. 1.4.3 MCU Inter-Integrated Circuit Interface (MCU_I2C)
      4. 1.4.4 MCU Multi-channel Serial Peripheral Interface (MCU_SPI)
      5. 1.4.5 MCU Universal Asynchronous Receiver/Transmitter (MCU_UART)
      6. 1.4.6 MCU Timers
      7. 1.4.7 MCU Internal Diagnostics Modules
    6. 1.5 Device Identification
  4. Memory Map
    1. 2.1 MAIN Domain Memory Map
    2. 2.2 MCU Domain Memory Map
    3. 2.3 Processors View Memory Map
    4. 2.4 Region-based Address Translation
  5. System Interconnect
    1. 3.1  Terminology
    2. 3.2  System Interconnect Overview
    3. 3.3  Initiator/Target Connectivity
    4. 3.4  Interrupt Condition for Interconnect
    5. 3.5  IO Coherency Support
    6. 3.6  Quality of Service (QoS) Block
      1.      66
    7. 3.7  Route ID
      1.      68
    8. 3.8  ISC and Firewall
      1. 3.8.1 Initiator-Side Security Controls (ISC)
        1.       71
        2. 3.8.1.1 ISC MMR
      2. 3.8.2 Transaction Attributes for BCDMA and PktDMA Transactions
      3. 3.8.3 Firewall Block
        1.       75
        2. 3.8.3.1 Region Based Firewall Programming
    9. 3.9  System Interconnect Integration
      1. 3.9.1 Interconnect Integration in MAIN/MCU Domain
    10. 3.10 System Interconnect Registers
      1. 3.10.1 CBASS Registers
        1. 3.10.1.1    ERR_PID Registers
        2. 3.10.1.2    ERR_DESTINATION_ID Registers
        3. 3.10.1.3    ERR_EXCEPTION_LOGGING_HEADER0 Registers
        4. 3.10.1.4    ERR_EXCEPTION_LOGGING_HEADER1 Registers
        5. 3.10.1.5    ERR_EXCEPTION_LOGGING_DATA0 Registers
        6. 3.10.1.6    ERR_EXCEPTION_LOGGING_DATA1 Registers
        7. 3.10.1.7    ERR_EXCEPTION_LOGGING_DATA2 Registers
        8. 3.10.1.8    ERR_EXCEPTION_LOGGING_DATA3 Registers
        9. 3.10.1.9    ERR_ERR_INTR_RAW_STAT Registers
        10. 3.10.1.10   ERR_ERR_INTR_ENABLED_STAT Registers
        11. 3.10.1.11   ERR_ERR_INTR_ENABLE_SET Registers
        12. 3.10.1.12   ERR_ERR_INTR_ENABLE_CLR Registers
        13. 3.10.1.13   ERR_EOI Registers
        14. 3.10.1.14   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_0_CONTROL Registers
        15. 3.10.1.15   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_0_PERMISSION_0 Registers
        16. 3.10.1.16   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_0_PERMISSION_1 Registers
        17. 3.10.1.17   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_0_PERMISSION_2 Registers
        18. 3.10.1.18   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_0_START_ADDRESS_L Registers
        19. 3.10.1.19   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_0_START_ADDRESS_H Registers
        20. 3.10.1.20   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_0_END_ADDRESS_L Registers
        21. 3.10.1.21   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_0_END_ADDRESS_H Registers
        22. 3.10.1.22   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_1_CONTROL Registers
        23. 3.10.1.23   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_1_PERMISSION_0 Registers
        24. 3.10.1.24   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_1_PERMISSION_1 Registers
        25. 3.10.1.25   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_1_PERMISSION_2 Registers
        26. 3.10.1.26   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_1_START_ADDRESS_L Registers
        27. 3.10.1.27   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_1_START_ADDRESS_H Registers
        28. 3.10.1.28   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_1_END_ADDRESS_L Registers
        29. 3.10.1.29   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_1_END_ADDRESS_H Registers
        30. 3.10.1.30   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_2_CONTROL Registers
        31. 3.10.1.31   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_2_PERMISSION_0 Registers
        32. 3.10.1.32   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_2_PERMISSION_1 Registers
        33. 3.10.1.33   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_2_PERMISSION_2 Registers
        34. 3.10.1.34   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_2_START_ADDRESS_L Registers
        35. 3.10.1.35   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_2_START_ADDRESS_H Registers
        36. 3.10.1.36   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_2_END_ADDRESS_L Registers
        37. 3.10.1.37   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_2_END_ADDRESS_H Registers
        38. 3.10.1.38   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_3_CONTROL Registers
        39. 3.10.1.39   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_3_PERMISSION_0 Registers
        40. 3.10.1.40   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_3_PERMISSION_1 Registers
        41. 3.10.1.41   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_3_PERMISSION_2 Registers
        42. 3.10.1.42   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_3_START_ADDRESS_L Registers
        43. 3.10.1.43   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_3_START_ADDRESS_H Registers
        44. 3.10.1.44   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_3_END_ADDRESS_L Registers
        45. 3.10.1.45   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_3_END_ADDRESS_H Registers
        46. 3.10.1.46   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_4_CONTROL Registers
        47. 3.10.1.47   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_4_PERMISSION_0 Registers
        48. 3.10.1.48   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_4_PERMISSION_1 Registers
        49. 3.10.1.49   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_4_PERMISSION_2 Registers
        50. 3.10.1.50   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_4_START_ADDRESS_L Registers
        51. 3.10.1.51   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_4_START_ADDRESS_H Registers
        52. 3.10.1.52   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_4_END_ADDRESS_L Registers
        53. 3.10.1.53   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_4_END_ADDRESS_H Registers
        54. 3.10.1.54   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_5_CONTROL Registers
        55. 3.10.1.55   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_5_PERMISSION_0 Registers
        56. 3.10.1.56   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_5_PERMISSION_1 Registers
        57. 3.10.1.57   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_5_PERMISSION_2 Registers
        58. 3.10.1.58   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_5_START_ADDRESS_L Registers
        59. 3.10.1.59   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_5_START_ADDRESS_H Registers
        60. 3.10.1.60   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_5_END_ADDRESS_L Registers
        61. 3.10.1.61   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_5_END_ADDRESS_H Registers
        62. 3.10.1.62   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_6_CONTROL Registers
        63. 3.10.1.63   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_6_PERMISSION_0 Registers
        64. 3.10.1.64   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_6_PERMISSION_1 Registers
        65. 3.10.1.65   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_6_PERMISSION_2 Registers
        66. 3.10.1.66   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_6_START_ADDRESS_L Registers
        67. 3.10.1.67   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_6_START_ADDRESS_H Registers
        68. 3.10.1.68   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_6_END_ADDRESS_L Registers
        69. 3.10.1.69   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_6_END_ADDRESS_H Registers
        70. 3.10.1.70   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_7_CONTROL Registers
        71. 3.10.1.71   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_7_PERMISSION_0 Registers
        72. 3.10.1.72   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_7_PERMISSION_1 Registers
        73. 3.10.1.73   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_7_PERMISSION_2 Registers
        74. 3.10.1.74   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_7_START_ADDRESS_L Registers
        75. 3.10.1.75   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_7_START_ADDRESS_H Registers
        76. 3.10.1.76   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_7_END_ADDRESS_L Registers
        77. 3.10.1.77   FW_ISAM64_DDR_WRAP_MAIN_0_DDRSS_FW_REGION_7_END_ADDRESS_H Registers
        78. 3.10.1.78   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_0_CONTROL Registers
        79. 3.10.1.79   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_0_PERMISSION_0 Registers
        80. 3.10.1.80   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_0_PERMISSION_1 Registers
        81. 3.10.1.81   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_0_PERMISSION_2 Registers
        82. 3.10.1.82   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_0_START_ADDRESS_L Registers
        83. 3.10.1.83   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_0_START_ADDRESS_H Registers
        84. 3.10.1.84   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_0_END_ADDRESS_L Registers
        85. 3.10.1.85   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_0_END_ADDRESS_H Registers
        86. 3.10.1.86   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_1_CONTROL Registers
        87. 3.10.1.87   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_1_PERMISSION_0 Registers
        88. 3.10.1.88   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_1_PERMISSION_1 Registers
        89. 3.10.1.89   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_1_PERMISSION_2 Registers
        90. 3.10.1.90   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_1_START_ADDRESS_L Registers
        91. 3.10.1.91   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_1_START_ADDRESS_H Registers
        92. 3.10.1.92   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_1_END_ADDRESS_L Registers
        93. 3.10.1.93   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_1_END_ADDRESS_H Registers
        94. 3.10.1.94   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_2_CONTROL Registers
        95. 3.10.1.95   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_2_PERMISSION_0 Registers
        96. 3.10.1.96   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_2_PERMISSION_1 Registers
        97. 3.10.1.97   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_2_PERMISSION_2 Registers
        98. 3.10.1.98   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_2_START_ADDRESS_L Registers
        99. 3.10.1.99   FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_2_START_ADDRESS_H Registers
        100. 3.10.1.100  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_2_END_ADDRESS_L Registers
        101. 3.10.1.101  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_2_END_ADDRESS_H Registers
        102. 3.10.1.102  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_3_CONTROL Registers
        103. 3.10.1.103  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_3_PERMISSION_0 Registers
        104. 3.10.1.104  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_3_PERMISSION_1 Registers
        105. 3.10.1.105  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_3_PERMISSION_2 Registers
        106. 3.10.1.106  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_3_START_ADDRESS_L Registers
        107. 3.10.1.107  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_3_START_ADDRESS_H Registers
        108. 3.10.1.108  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_3_END_ADDRESS_L Registers
        109. 3.10.1.109  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_3_END_ADDRESS_H Registers
        110. 3.10.1.110  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_4_CONTROL Registers
        111. 3.10.1.111  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_4_PERMISSION_0 Registers
        112. 3.10.1.112  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_4_PERMISSION_1 Registers
        113. 3.10.1.113  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_4_PERMISSION_2 Registers
        114. 3.10.1.114  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_4_START_ADDRESS_L Registers
        115. 3.10.1.115  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_4_START_ADDRESS_H Registers
        116. 3.10.1.116  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_4_END_ADDRESS_L Registers
        117. 3.10.1.117  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_4_END_ADDRESS_H Registers
        118. 3.10.1.118  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_5_CONTROL Registers
        119. 3.10.1.119  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_5_PERMISSION_0 Registers
        120. 3.10.1.120  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_5_PERMISSION_1 Registers
        121. 3.10.1.121  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_5_PERMISSION_2 Registers
        122. 3.10.1.122  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_5_START_ADDRESS_L Registers
        123. 3.10.1.123  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_5_START_ADDRESS_H Registers
        124. 3.10.1.124  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_5_END_ADDRESS_L Registers
        125. 3.10.1.125  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_5_END_ADDRESS_H Registers
        126. 3.10.1.126  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_6_CONTROL Registers
        127. 3.10.1.127  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_6_PERMISSION_0 Registers
        128. 3.10.1.128  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_6_PERMISSION_1 Registers
        129. 3.10.1.129  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_6_PERMISSION_2 Registers
        130. 3.10.1.130  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_6_START_ADDRESS_L Registers
        131. 3.10.1.131  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_6_START_ADDRESS_H Registers
        132. 3.10.1.132  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_6_END_ADDRESS_L Registers
        133. 3.10.1.133  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_6_END_ADDRESS_H Registers
        134. 3.10.1.134  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_7_CONTROL Registers
        135. 3.10.1.135  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_7_PERMISSION_0 Registers
        136. 3.10.1.136  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_7_PERMISSION_1 Registers
        137. 3.10.1.137  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_7_PERMISSION_2 Registers
        138. 3.10.1.138  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_7_START_ADDRESS_L Registers
        139. 3.10.1.139  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_7_START_ADDRESS_H Registers
        140. 3.10.1.140  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_7_END_ADDRESS_L Registers
        141. 3.10.1.141  FW_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_ACP_W_FW_REGION_7_END_ADDRESS_H Registers
        142. 3.10.1.142  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_0_CONTROL Registers
        143. 3.10.1.143  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_0_PERMISSION_0 Registers
        144. 3.10.1.144  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_0_PERMISSION_1 Registers
        145. 3.10.1.145  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_0_PERMISSION_2 Registers
        146. 3.10.1.146  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_0_START_ADDRESS_L Registers
        147. 3.10.1.147  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_0_START_ADDRESS_H Registers
        148. 3.10.1.148  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_0_END_ADDRESS_L Registers
        149. 3.10.1.149  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_0_END_ADDRESS_H Registers
        150. 3.10.1.150  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_1_CONTROL Registers
        151. 3.10.1.151  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_1_PERMISSION_0 Registers
        152. 3.10.1.152  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_1_PERMISSION_1 Registers
        153. 3.10.1.153  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_1_PERMISSION_2 Registers
        154. 3.10.1.154  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_1_START_ADDRESS_L Registers
        155. 3.10.1.155  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_1_START_ADDRESS_H Registers
        156. 3.10.1.156  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_1_END_ADDRESS_L Registers
        157. 3.10.1.157  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_1_END_ADDRESS_H Registers
        158. 3.10.1.158  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_2_CONTROL Registers
        159. 3.10.1.159  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_2_PERMISSION_0 Registers
        160. 3.10.1.160  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_2_PERMISSION_1 Registers
        161. 3.10.1.161  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_2_PERMISSION_2 Registers
        162. 3.10.1.162  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_2_START_ADDRESS_L Registers
        163. 3.10.1.163  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_2_START_ADDRESS_H Registers
        164. 3.10.1.164  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_2_END_ADDRESS_L Registers
        165. 3.10.1.165  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_2_END_ADDRESS_H Registers
        166. 3.10.1.166  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_3_CONTROL Registers
        167. 3.10.1.167  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_3_PERMISSION_0 Registers
        168. 3.10.1.168  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_3_PERMISSION_1 Registers
        169. 3.10.1.169  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_3_PERMISSION_2 Registers
        170. 3.10.1.170  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_3_START_ADDRESS_L Registers
        171. 3.10.1.171  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_3_START_ADDRESS_H Registers
        172. 3.10.1.172  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_3_END_ADDRESS_L Registers
        173. 3.10.1.173  FW_IMSRAM32KX64E_MAIN_0_SLV_FW_REGION_3_END_ADDRESS_H Registers
        174. 3.10.1.174  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_0_CONTROL Registers
        175. 3.10.1.175  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_0_PERMISSION_0 Registers
        176. 3.10.1.176  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_0_PERMISSION_1 Registers
        177. 3.10.1.177  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_0_PERMISSION_2 Registers
        178. 3.10.1.178  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_0_START_ADDRESS_L Registers
        179. 3.10.1.179  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_0_START_ADDRESS_H Registers
        180. 3.10.1.180  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_0_END_ADDRESS_L Registers
        181. 3.10.1.181  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_0_END_ADDRESS_H Registers
        182. 3.10.1.182  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_1_CONTROL Registers
        183. 3.10.1.183  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_1_PERMISSION_0 Registers
        184. 3.10.1.184  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_1_PERMISSION_1 Registers
        185. 3.10.1.185  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_1_PERMISSION_2 Registers
        186. 3.10.1.186  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_1_START_ADDRESS_L Registers
        187. 3.10.1.187  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_1_START_ADDRESS_H Registers
        188. 3.10.1.188  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_1_END_ADDRESS_L Registers
        189. 3.10.1.189  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_1_END_ADDRESS_H Registers
        190. 3.10.1.190  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_2_CONTROL Registers
        191. 3.10.1.191  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_2_PERMISSION_0 Registers
        192. 3.10.1.192  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_2_PERMISSION_1 Registers
        193. 3.10.1.193  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_2_PERMISSION_2 Registers
        194. 3.10.1.194  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_2_START_ADDRESS_L Registers
        195. 3.10.1.195  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_2_START_ADDRESS_H Registers
        196. 3.10.1.196  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_2_END_ADDRESS_L Registers
        197. 3.10.1.197  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_2_END_ADDRESS_H Registers
        198. 3.10.1.198  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_3_CONTROL Registers
        199. 3.10.1.199  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_3_PERMISSION_0 Registers
        200. 3.10.1.200  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_3_PERMISSION_1 Registers
        201. 3.10.1.201  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_3_PERMISSION_2 Registers
        202. 3.10.1.202  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_3_START_ADDRESS_L Registers
        203. 3.10.1.203  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_3_START_ADDRESS_H Registers
        204. 3.10.1.204  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_3_END_ADDRESS_L Registers
        205. 3.10.1.205  FW_IMSRAM32KX64E_MAIN_1_SLV_FW_REGION_3_END_ADDRESS_H Registers
        206. 3.10.1.206  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_0_CONTROL Registers
        207. 3.10.1.207  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_0_PERMISSION_0 Registers
        208. 3.10.1.208  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_0_PERMISSION_1 Registers
        209. 3.10.1.209  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_0_PERMISSION_2 Registers
        210. 3.10.1.210  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_0_START_ADDRESS_L Registers
        211. 3.10.1.211  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_0_START_ADDRESS_H Registers
        212. 3.10.1.212  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_0_END_ADDRESS_L Registers
        213. 3.10.1.213  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_0_END_ADDRESS_H Registers
        214. 3.10.1.214  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_1_CONTROL Registers
        215. 3.10.1.215  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_1_PERMISSION_0 Registers
        216. 3.10.1.216  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_1_PERMISSION_1 Registers
        217. 3.10.1.217  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_1_PERMISSION_2 Registers
        218. 3.10.1.218  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_1_START_ADDRESS_L Registers
        219. 3.10.1.219  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_1_START_ADDRESS_H Registers
        220. 3.10.1.220  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_1_END_ADDRESS_L Registers
        221. 3.10.1.221  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_1_END_ADDRESS_H Registers
        222. 3.10.1.222  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_2_CONTROL Registers
        223. 3.10.1.223  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_2_PERMISSION_0 Registers
        224. 3.10.1.224  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_2_PERMISSION_1 Registers
        225. 3.10.1.225  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_2_PERMISSION_2 Registers
        226. 3.10.1.226  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_2_START_ADDRESS_L Registers
        227. 3.10.1.227  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_2_START_ADDRESS_H Registers
        228. 3.10.1.228  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_2_END_ADDRESS_L Registers
        229. 3.10.1.229  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_2_END_ADDRESS_H Registers
        230. 3.10.1.230  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_3_CONTROL Registers
        231. 3.10.1.231  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_3_PERMISSION_0 Registers
        232. 3.10.1.232  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_3_PERMISSION_1 Registers
        233. 3.10.1.233  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_3_PERMISSION_2 Registers
        234. 3.10.1.234  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_3_START_ADDRESS_L Registers
        235. 3.10.1.235  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_3_START_ADDRESS_H Registers
        236. 3.10.1.236  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_3_END_ADDRESS_L Registers
        237. 3.10.1.237  FW_IMSRAM32KX64E_MAIN_2_SLV_FW_REGION_3_END_ADDRESS_H Registers
        238. 3.10.1.238  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_0_CONTROL Registers
        239. 3.10.1.239  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_0_PERMISSION_0 Registers
        240. 3.10.1.240  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_0_PERMISSION_1 Registers
        241. 3.10.1.241  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_0_PERMISSION_2 Registers
        242. 3.10.1.242  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_0_START_ADDRESS_L Registers
        243. 3.10.1.243  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_0_START_ADDRESS_H Registers
        244. 3.10.1.244  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_0_END_ADDRESS_L Registers
        245. 3.10.1.245  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_0_END_ADDRESS_H Registers
        246. 3.10.1.246  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_1_CONTROL Registers
        247. 3.10.1.247  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_1_PERMISSION_0 Registers
        248. 3.10.1.248  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_1_PERMISSION_1 Registers
        249. 3.10.1.249  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_1_PERMISSION_2 Registers
        250. 3.10.1.250  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_1_START_ADDRESS_L Registers
        251. 3.10.1.251  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_1_START_ADDRESS_H Registers
        252. 3.10.1.252  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_1_END_ADDRESS_L Registers
        253. 3.10.1.253  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_1_END_ADDRESS_H Registers
        254. 3.10.1.254  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_2_CONTROL Registers
        255. 3.10.1.255  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_2_PERMISSION_0 Registers
        256. 3.10.1.256  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_2_PERMISSION_1 Registers
        257. 3.10.1.257  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_2_PERMISSION_2 Registers
        258. 3.10.1.258  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_2_START_ADDRESS_L Registers
        259. 3.10.1.259  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_2_START_ADDRESS_H Registers
        260. 3.10.1.260  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_2_END_ADDRESS_L Registers
        261. 3.10.1.261  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_2_END_ADDRESS_H Registers
        262. 3.10.1.262  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_3_CONTROL Registers
        263. 3.10.1.263  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_3_PERMISSION_0 Registers
        264. 3.10.1.264  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_3_PERMISSION_1 Registers
        265. 3.10.1.265  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_3_PERMISSION_2 Registers
        266. 3.10.1.266  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_3_START_ADDRESS_L Registers
        267. 3.10.1.267  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_3_START_ADDRESS_H Registers
        268. 3.10.1.268  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_3_END_ADDRESS_L Registers
        269. 3.10.1.269  FW_IMSRAM32KX64E_MAIN_5_SLV_FW_REGION_3_END_ADDRESS_H Registers
        270. 3.10.1.270  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_0_CONTROL Registers
        271. 3.10.1.271  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_0_PERMISSION_0 Registers
        272. 3.10.1.272  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_0_PERMISSION_1 Registers
        273. 3.10.1.273  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_0_PERMISSION_2 Registers
        274. 3.10.1.274  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_0_START_ADDRESS_L Registers
        275. 3.10.1.275  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_0_START_ADDRESS_H Registers
        276. 3.10.1.276  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_0_END_ADDRESS_L Registers
        277. 3.10.1.277  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_0_END_ADDRESS_H Registers
        278. 3.10.1.278  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_1_CONTROL Registers
        279. 3.10.1.279  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_1_PERMISSION_0 Registers
        280. 3.10.1.280  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_1_PERMISSION_1 Registers
        281. 3.10.1.281  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_1_PERMISSION_2 Registers
        282. 3.10.1.282  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_1_START_ADDRESS_L Registers
        283. 3.10.1.283  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_1_START_ADDRESS_H Registers
        284. 3.10.1.284  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_1_END_ADDRESS_L Registers
        285. 3.10.1.285  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_1_END_ADDRESS_H Registers
        286. 3.10.1.286  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_2_CONTROL Registers
        287. 3.10.1.287  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_2_PERMISSION_0 Registers
        288. 3.10.1.288  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_2_PERMISSION_1 Registers
        289. 3.10.1.289  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_2_PERMISSION_2 Registers
        290. 3.10.1.290  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_2_START_ADDRESS_L Registers
        291. 3.10.1.291  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_2_START_ADDRESS_H Registers
        292. 3.10.1.292  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_2_END_ADDRESS_L Registers
        293. 3.10.1.293  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_2_END_ADDRESS_H Registers
        294. 3.10.1.294  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_3_CONTROL Registers
        295. 3.10.1.295  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_3_PERMISSION_0 Registers
        296. 3.10.1.296  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_3_PERMISSION_1 Registers
        297. 3.10.1.297  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_3_PERMISSION_2 Registers
        298. 3.10.1.298  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_3_START_ADDRESS_L Registers
        299. 3.10.1.299  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_3_START_ADDRESS_H Registers
        300. 3.10.1.300  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_3_END_ADDRESS_L Registers
        301. 3.10.1.301  FW_IMSRAM32KX64E_MAIN_4_SLV_FW_REGION_3_END_ADDRESS_H Registers
        302. 3.10.1.302  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_0_CONTROL Registers
        303. 3.10.1.303  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_0_PERMISSION_0 Registers
        304. 3.10.1.304  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_0_PERMISSION_1 Registers
        305. 3.10.1.305  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_0_PERMISSION_2 Registers
        306. 3.10.1.306  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_0_START_ADDRESS_L Registers
        307. 3.10.1.307  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_0_START_ADDRESS_H Registers
        308. 3.10.1.308  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_0_END_ADDRESS_L Registers
        309. 3.10.1.309  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_0_END_ADDRESS_H Registers
        310. 3.10.1.310  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_1_CONTROL Registers
        311. 3.10.1.311  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_1_PERMISSION_0 Registers
        312. 3.10.1.312  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_1_PERMISSION_1 Registers
        313. 3.10.1.313  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_1_PERMISSION_2 Registers
        314. 3.10.1.314  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_1_START_ADDRESS_L Registers
        315. 3.10.1.315  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_1_START_ADDRESS_H Registers
        316. 3.10.1.316  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_1_END_ADDRESS_L Registers
        317. 3.10.1.317  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_1_END_ADDRESS_H Registers
        318. 3.10.1.318  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_2_CONTROL Registers
        319. 3.10.1.319  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_2_PERMISSION_0 Registers
        320. 3.10.1.320  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_2_PERMISSION_1 Registers
        321. 3.10.1.321  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_2_PERMISSION_2 Registers
        322. 3.10.1.322  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_2_START_ADDRESS_L Registers
        323. 3.10.1.323  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_2_START_ADDRESS_H Registers
        324. 3.10.1.324  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_2_END_ADDRESS_L Registers
        325. 3.10.1.325  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_2_END_ADDRESS_H Registers
        326. 3.10.1.326  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_3_CONTROL Registers
        327. 3.10.1.327  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_3_PERMISSION_0 Registers
        328. 3.10.1.328  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_3_PERMISSION_1 Registers
        329. 3.10.1.329  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_3_PERMISSION_2 Registers
        330. 3.10.1.330  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_3_START_ADDRESS_L Registers
        331. 3.10.1.331  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_3_START_ADDRESS_H Registers
        332. 3.10.1.332  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_3_END_ADDRESS_L Registers
        333. 3.10.1.333  FW_IMSRAM32KX64E_MAIN_3_SLV_FW_REGION_3_END_ADDRESS_H Registers
        334. 3.10.1.334  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_0_CONTROL Registers
        335. 3.10.1.335  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_0_PERMISSION_0 Registers
        336. 3.10.1.336  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_0_PERMISSION_1 Registers
        337. 3.10.1.337  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_0_PERMISSION_2 Registers
        338. 3.10.1.338  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_0_START_ADDRESS_L Registers
        339. 3.10.1.339  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_0_START_ADDRESS_H Registers
        340. 3.10.1.340  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_0_END_ADDRESS_L Registers
        341. 3.10.1.341  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_0_END_ADDRESS_H Registers
        342. 3.10.1.342  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_1_CONTROL Registers
        343. 3.10.1.343  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_1_PERMISSION_0 Registers
        344. 3.10.1.344  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_1_PERMISSION_1 Registers
        345. 3.10.1.345  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_1_PERMISSION_2 Registers
        346. 3.10.1.346  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_1_START_ADDRESS_L Registers
        347. 3.10.1.347  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_1_START_ADDRESS_H Registers
        348. 3.10.1.348  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_1_END_ADDRESS_L Registers
        349. 3.10.1.349  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_1_END_ADDRESS_H Registers
        350. 3.10.1.350  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_2_CONTROL Registers
        351. 3.10.1.351  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_2_PERMISSION_0 Registers
        352. 3.10.1.352  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_2_PERMISSION_1 Registers
        353. 3.10.1.353  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_2_PERMISSION_2 Registers
        354. 3.10.1.354  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_2_START_ADDRESS_L Registers
        355. 3.10.1.355  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_2_START_ADDRESS_H Registers
        356. 3.10.1.356  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_2_END_ADDRESS_L Registers
        357. 3.10.1.357  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_2_END_ADDRESS_H Registers
        358. 3.10.1.358  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_3_CONTROL Registers
        359. 3.10.1.359  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_3_PERMISSION_0 Registers
        360. 3.10.1.360  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_3_PERMISSION_1 Registers
        361. 3.10.1.361  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_3_PERMISSION_2 Registers
        362. 3.10.1.362  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_3_START_ADDRESS_L Registers
        363. 3.10.1.363  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_3_START_ADDRESS_H Registers
        364. 3.10.1.364  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_3_END_ADDRESS_L Registers
        365. 3.10.1.365  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_3_END_ADDRESS_H Registers
        366. 3.10.1.366  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_4_CONTROL Registers
        367. 3.10.1.367  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_4_PERMISSION_0 Registers
        368. 3.10.1.368  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_4_PERMISSION_1 Registers
        369. 3.10.1.369  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_4_PERMISSION_2 Registers
        370. 3.10.1.370  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_4_START_ADDRESS_L Registers
        371. 3.10.1.371  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_4_START_ADDRESS_H Registers
        372. 3.10.1.372  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_4_END_ADDRESS_L Registers
        373. 3.10.1.373  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_4_END_ADDRESS_H Registers
        374. 3.10.1.374  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_5_CONTROL Registers
        375. 3.10.1.375  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_5_PERMISSION_0 Registers
        376. 3.10.1.376  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_5_PERMISSION_1 Registers
        377. 3.10.1.377  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_5_PERMISSION_2 Registers
        378. 3.10.1.378  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_5_START_ADDRESS_L Registers
        379. 3.10.1.379  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_5_START_ADDRESS_H Registers
        380. 3.10.1.380  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_5_END_ADDRESS_L Registers
        381. 3.10.1.381  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_5_END_ADDRESS_H Registers
        382. 3.10.1.382  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_6_CONTROL Registers
        383. 3.10.1.383  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_6_PERMISSION_0 Registers
        384. 3.10.1.384  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_6_PERMISSION_1 Registers
        385. 3.10.1.385  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_6_PERMISSION_2 Registers
        386. 3.10.1.386  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_6_START_ADDRESS_L Registers
        387. 3.10.1.387  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_6_START_ADDRESS_H Registers
        388. 3.10.1.388  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_6_END_ADDRESS_L Registers
        389. 3.10.1.389  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_6_END_ADDRESS_H Registers
        390. 3.10.1.390  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_7_CONTROL Registers
        391. 3.10.1.391  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_7_PERMISSION_0 Registers
        392. 3.10.1.392  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_7_PERMISSION_1 Registers
        393. 3.10.1.393  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_7_PERMISSION_2 Registers
        394. 3.10.1.394  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_7_START_ADDRESS_L Registers
        395. 3.10.1.395  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_7_START_ADDRESS_H Registers
        396. 3.10.1.396  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_7_END_ADDRESS_L Registers
        397. 3.10.1.397  FW_IDMSS_AM64_MAIN_0_IPCSS_VBM_DST_FW_REGION_7_END_ADDRESS_H Registers
        398. 3.10.1.398  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_0_CONTROL Registers
        399. 3.10.1.399  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_0_PERMISSION_0 Registers
        400. 3.10.1.400  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_0_PERMISSION_1 Registers
        401. 3.10.1.401  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_0_PERMISSION_2 Registers
        402. 3.10.1.402  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_0_START_ADDRESS_L Registers
        403. 3.10.1.403  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_0_START_ADDRESS_H Registers
        404. 3.10.1.404  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_0_END_ADDRESS_L Registers
        405. 3.10.1.405  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_0_END_ADDRESS_H Registers
        406. 3.10.1.406  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_1_CONTROL Registers
        407. 3.10.1.407  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_1_PERMISSION_0 Registers
        408. 3.10.1.408  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_1_PERMISSION_1 Registers
        409. 3.10.1.409  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_1_PERMISSION_2 Registers
        410. 3.10.1.410  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_1_START_ADDRESS_L Registers
        411. 3.10.1.411  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_1_START_ADDRESS_H Registers
        412. 3.10.1.412  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_1_END_ADDRESS_L Registers
        413. 3.10.1.413  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_1_END_ADDRESS_H Registers
        414. 3.10.1.414  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_2_CONTROL Registers
        415. 3.10.1.415  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_2_PERMISSION_0 Registers
        416. 3.10.1.416  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_2_PERMISSION_1 Registers
        417. 3.10.1.417  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_2_PERMISSION_2 Registers
        418. 3.10.1.418  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_2_START_ADDRESS_L Registers
        419. 3.10.1.419  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_2_START_ADDRESS_H Registers
        420. 3.10.1.420  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_2_END_ADDRESS_L Registers
        421. 3.10.1.421  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_2_END_ADDRESS_H Registers
        422. 3.10.1.422  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_3_CONTROL Registers
        423. 3.10.1.423  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_3_PERMISSION_0 Registers
        424. 3.10.1.424  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_3_PERMISSION_1 Registers
        425. 3.10.1.425  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_3_PERMISSION_2 Registers
        426. 3.10.1.426  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_3_START_ADDRESS_L Registers
        427. 3.10.1.427  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_3_START_ADDRESS_H Registers
        428. 3.10.1.428  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_3_END_ADDRESS_L Registers
        429. 3.10.1.429  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_3_END_ADDRESS_H Registers
        430. 3.10.1.430  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_4_CONTROL Registers
        431. 3.10.1.431  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_4_PERMISSION_0 Registers
        432. 3.10.1.432  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_4_PERMISSION_1 Registers
        433. 3.10.1.433  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_4_PERMISSION_2 Registers
        434. 3.10.1.434  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_4_START_ADDRESS_L Registers
        435. 3.10.1.435  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_4_START_ADDRESS_H Registers
        436. 3.10.1.436  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_4_END_ADDRESS_L Registers
        437. 3.10.1.437  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_4_END_ADDRESS_H Registers
        438. 3.10.1.438  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_5_CONTROL Registers
        439. 3.10.1.439  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_5_PERMISSION_0 Registers
        440. 3.10.1.440  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_5_PERMISSION_1 Registers
        441. 3.10.1.441  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_5_PERMISSION_2 Registers
        442. 3.10.1.442  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_5_START_ADDRESS_L Registers
        443. 3.10.1.443  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_5_START_ADDRESS_H Registers
        444. 3.10.1.444  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_5_END_ADDRESS_L Registers
        445. 3.10.1.445  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_5_END_ADDRESS_H Registers
        446. 3.10.1.446  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_6_CONTROL Registers
        447. 3.10.1.447  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_6_PERMISSION_0 Registers
        448. 3.10.1.448  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_6_PERMISSION_1 Registers
        449. 3.10.1.449  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_6_PERMISSION_2 Registers
        450. 3.10.1.450  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_6_START_ADDRESS_L Registers
        451. 3.10.1.451  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_6_START_ADDRESS_H Registers
        452. 3.10.1.452  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_6_END_ADDRESS_L Registers
        453. 3.10.1.453  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_6_END_ADDRESS_H Registers
        454. 3.10.1.454  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_7_CONTROL Registers
        455. 3.10.1.455  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_7_PERMISSION_0 Registers
        456. 3.10.1.456  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_7_PERMISSION_1 Registers
        457. 3.10.1.457  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_7_PERMISSION_2 Registers
        458. 3.10.1.458  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_7_START_ADDRESS_L Registers
        459. 3.10.1.459  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_7_START_ADDRESS_H Registers
        460. 3.10.1.460  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_7_END_ADDRESS_L Registers
        461. 3.10.1.461  FW_IEXPORT_VBUSM_32B_SLV_MAIN2MCU_SLV_FW_REGION_7_END_ADDRESS_H Registers
        462. 3.10.1.462  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_0_CONTROL Registers
        463. 3.10.1.463  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_0_PERMISSION_0 Registers
        464. 3.10.1.464  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_0_PERMISSION_1 Registers
        465. 3.10.1.465  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_0_PERMISSION_2 Registers
        466. 3.10.1.466  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_0_START_ADDRESS_L Registers
        467. 3.10.1.467  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_0_START_ADDRESS_H Registers
        468. 3.10.1.468  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_0_END_ADDRESS_L Registers
        469. 3.10.1.469  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_0_END_ADDRESS_H Registers
        470. 3.10.1.470  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_1_CONTROL Registers
        471. 3.10.1.471  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_1_PERMISSION_0 Registers
        472. 3.10.1.472  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_1_PERMISSION_1 Registers
        473. 3.10.1.473  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_1_PERMISSION_2 Registers
        474. 3.10.1.474  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_1_START_ADDRESS_L Registers
        475. 3.10.1.475  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_1_START_ADDRESS_H Registers
        476. 3.10.1.476  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_1_END_ADDRESS_L Registers
        477. 3.10.1.477  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_1_END_ADDRESS_H Registers
        478. 3.10.1.478  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_2_CONTROL Registers
        479. 3.10.1.479  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_2_PERMISSION_0 Registers
        480. 3.10.1.480  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_2_PERMISSION_1 Registers
        481. 3.10.1.481  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_2_PERMISSION_2 Registers
        482. 3.10.1.482  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_2_START_ADDRESS_L Registers
        483. 3.10.1.483  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_2_START_ADDRESS_H Registers
        484. 3.10.1.484  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_2_END_ADDRESS_L Registers
        485. 3.10.1.485  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_2_END_ADDRESS_H Registers
        486. 3.10.1.486  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_3_CONTROL Registers
        487. 3.10.1.487  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_3_PERMISSION_0 Registers
        488. 3.10.1.488  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_3_PERMISSION_1 Registers
        489. 3.10.1.489  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_3_PERMISSION_2 Registers
        490. 3.10.1.490  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_3_START_ADDRESS_L Registers
        491. 3.10.1.491  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_3_START_ADDRESS_H Registers
        492. 3.10.1.492  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_3_END_ADDRESS_L Registers
        493. 3.10.1.493  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_3_END_ADDRESS_H Registers
        494. 3.10.1.494  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_4_CONTROL Registers
        495. 3.10.1.495  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_4_PERMISSION_0 Registers
        496. 3.10.1.496  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_4_PERMISSION_1 Registers
        497. 3.10.1.497  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_4_PERMISSION_2 Registers
        498. 3.10.1.498  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_4_START_ADDRESS_L Registers
        499. 3.10.1.499  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_4_START_ADDRESS_H Registers
        500. 3.10.1.500  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_4_END_ADDRESS_L Registers
        501. 3.10.1.501  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_4_END_ADDRESS_H Registers
        502. 3.10.1.502  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_5_CONTROL Registers
        503. 3.10.1.503  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_5_PERMISSION_0 Registers
        504. 3.10.1.504  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_5_PERMISSION_1 Registers
        505. 3.10.1.505  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_5_PERMISSION_2 Registers
        506. 3.10.1.506  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_5_START_ADDRESS_L Registers
        507. 3.10.1.507  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_5_START_ADDRESS_H Registers
        508. 3.10.1.508  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_5_END_ADDRESS_L Registers
        509. 3.10.1.509  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_5_END_ADDRESS_H Registers
        510. 3.10.1.510  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_6_CONTROL Registers
        511. 3.10.1.511  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_6_PERMISSION_0 Registers
        512. 3.10.1.512  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_6_PERMISSION_1 Registers
        513. 3.10.1.513  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_6_PERMISSION_2 Registers
        514. 3.10.1.514  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_6_START_ADDRESS_L Registers
        515. 3.10.1.515  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_6_START_ADDRESS_H Registers
        516. 3.10.1.516  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_6_END_ADDRESS_L Registers
        517. 3.10.1.517  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_6_END_ADDRESS_H Registers
        518. 3.10.1.518  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_7_CONTROL Registers
        519. 3.10.1.519  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_7_PERMISSION_0 Registers
        520. 3.10.1.520  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_7_PERMISSION_1 Registers
        521. 3.10.1.521  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_7_PERMISSION_2 Registers
        522. 3.10.1.522  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_7_START_ADDRESS_L Registers
        523. 3.10.1.523  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_7_START_ADDRESS_H Registers
        524. 3.10.1.524  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_7_END_ADDRESS_L Registers
        525. 3.10.1.525  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_7_END_ADDRESS_H Registers
        526. 3.10.1.526  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_8_CONTROL Registers
        527. 3.10.1.527  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_8_PERMISSION_0 Registers
        528. 3.10.1.528  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_8_PERMISSION_1 Registers
        529. 3.10.1.529  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_8_PERMISSION_2 Registers
        530. 3.10.1.530  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_8_START_ADDRESS_L Registers
        531. 3.10.1.531  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_8_START_ADDRESS_H Registers
        532. 3.10.1.532  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_8_END_ADDRESS_L Registers
        533. 3.10.1.533  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_8_END_ADDRESS_H Registers
        534. 3.10.1.534  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_9_CONTROL Registers
        535. 3.10.1.535  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_9_PERMISSION_0 Registers
        536. 3.10.1.536  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_9_PERMISSION_1 Registers
        537. 3.10.1.537  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_9_PERMISSION_2 Registers
        538. 3.10.1.538  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_9_START_ADDRESS_L Registers
        539. 3.10.1.539  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_9_START_ADDRESS_H Registers
        540. 3.10.1.540  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_9_END_ADDRESS_L Registers
        541. 3.10.1.541  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_9_END_ADDRESS_H Registers
        542. 3.10.1.542  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_10_CONTROL Registers
        543. 3.10.1.543  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_10_PERMISSION_0 Registers
        544. 3.10.1.544  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_10_PERMISSION_1 Registers
        545. 3.10.1.545  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_10_PERMISSION_2 Registers
        546. 3.10.1.546  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_10_START_ADDRESS_L Registers
        547. 3.10.1.547  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_10_START_ADDRESS_H Registers
        548. 3.10.1.548  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_10_END_ADDRESS_L Registers
        549. 3.10.1.549  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_10_END_ADDRESS_H Registers
        550. 3.10.1.550  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_11_CONTROL Registers
        551. 3.10.1.551  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_11_PERMISSION_0 Registers
        552. 3.10.1.552  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_11_PERMISSION_1 Registers
        553. 3.10.1.553  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_11_PERMISSION_2 Registers
        554. 3.10.1.554  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_11_START_ADDRESS_L Registers
        555. 3.10.1.555  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_11_START_ADDRESS_H Registers
        556. 3.10.1.556  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_11_END_ADDRESS_L Registers
        557. 3.10.1.557  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_11_END_ADDRESS_H Registers
        558. 3.10.1.558  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_12_CONTROL Registers
        559. 3.10.1.559  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_12_PERMISSION_0 Registers
        560. 3.10.1.560  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_12_PERMISSION_1 Registers
        561. 3.10.1.561  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_12_PERMISSION_2 Registers
        562. 3.10.1.562  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_12_START_ADDRESS_L Registers
        563. 3.10.1.563  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_12_START_ADDRESS_H Registers
        564. 3.10.1.564  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_12_END_ADDRESS_L Registers
        565. 3.10.1.565  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_12_END_ADDRESS_H Registers
        566. 3.10.1.566  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_13_CONTROL Registers
        567. 3.10.1.567  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_13_PERMISSION_0 Registers
        568. 3.10.1.568  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_13_PERMISSION_1 Registers
        569. 3.10.1.569  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_13_PERMISSION_2 Registers
        570. 3.10.1.570  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_13_START_ADDRESS_L Registers
        571. 3.10.1.571  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_13_START_ADDRESS_H Registers
        572. 3.10.1.572  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_13_END_ADDRESS_L Registers
        573. 3.10.1.573  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_13_END_ADDRESS_H Registers
        574. 3.10.1.574  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_14_CONTROL Registers
        575. 3.10.1.575  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_14_PERMISSION_0 Registers
        576. 3.10.1.576  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_14_PERMISSION_1 Registers
        577. 3.10.1.577  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_14_PERMISSION_2 Registers
        578. 3.10.1.578  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_14_START_ADDRESS_L Registers
        579. 3.10.1.579  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_14_START_ADDRESS_H Registers
        580. 3.10.1.580  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_14_END_ADDRESS_L Registers
        581. 3.10.1.581  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_14_END_ADDRESS_H Registers
        582. 3.10.1.582  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_15_CONTROL Registers
        583. 3.10.1.583  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_15_PERMISSION_0 Registers
        584. 3.10.1.584  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_15_PERMISSION_1 Registers
        585. 3.10.1.585  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_15_PERMISSION_2 Registers
        586. 3.10.1.586  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_15_START_ADDRESS_L Registers
        587. 3.10.1.587  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_15_START_ADDRESS_H Registers
        588. 3.10.1.588  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_15_END_ADDRESS_L Registers
        589. 3.10.1.589  FW_BR_SCRM_64B_CLK2_TO_SCRP_MISC_CLK2_L0_FW_REGION_15_END_ADDRESS_H Registers
        590. 3.10.1.590  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_0_CONTROL Registers
        591. 3.10.1.591  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_0_PERMISSION_0 Registers
        592. 3.10.1.592  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_0_PERMISSION_1 Registers
        593. 3.10.1.593  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_0_PERMISSION_2 Registers
        594. 3.10.1.594  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_0_START_ADDRESS_L Registers
        595. 3.10.1.595  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_0_START_ADDRESS_H Registers
        596. 3.10.1.596  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_0_END_ADDRESS_L Registers
        597. 3.10.1.597  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_0_END_ADDRESS_H Registers
        598. 3.10.1.598  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_1_CONTROL Registers
        599. 3.10.1.599  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_1_PERMISSION_0 Registers
        600. 3.10.1.600  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_1_PERMISSION_1 Registers
        601. 3.10.1.601  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_1_PERMISSION_2 Registers
        602. 3.10.1.602  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_1_START_ADDRESS_L Registers
        603. 3.10.1.603  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_1_START_ADDRESS_H Registers
        604. 3.10.1.604  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_1_END_ADDRESS_L Registers
        605. 3.10.1.605  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_1_END_ADDRESS_H Registers
        606. 3.10.1.606  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_2_CONTROL Registers
        607. 3.10.1.607  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_2_PERMISSION_0 Registers
        608. 3.10.1.608  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_2_PERMISSION_1 Registers
        609. 3.10.1.609  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_2_PERMISSION_2 Registers
        610. 3.10.1.610  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_2_START_ADDRESS_L Registers
        611. 3.10.1.611  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_2_START_ADDRESS_H Registers
        612. 3.10.1.612  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_2_END_ADDRESS_L Registers
        613. 3.10.1.613  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_2_END_ADDRESS_H Registers
        614. 3.10.1.614  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_3_CONTROL Registers
        615. 3.10.1.615  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_3_PERMISSION_0 Registers
        616. 3.10.1.616  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_3_PERMISSION_1 Registers
        617. 3.10.1.617  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_3_PERMISSION_2 Registers
        618. 3.10.1.618  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_3_START_ADDRESS_L Registers
        619. 3.10.1.619  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_3_START_ADDRESS_H Registers
        620. 3.10.1.620  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_3_END_ADDRESS_L Registers
        621. 3.10.1.621  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_3_END_ADDRESS_H Registers
        622. 3.10.1.622  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_4_CONTROL Registers
        623. 3.10.1.623  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_4_PERMISSION_0 Registers
        624. 3.10.1.624  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_4_PERMISSION_1 Registers
        625. 3.10.1.625  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_4_PERMISSION_2 Registers
        626. 3.10.1.626  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_4_START_ADDRESS_L Registers
        627. 3.10.1.627  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_4_START_ADDRESS_H Registers
        628. 3.10.1.628  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_4_END_ADDRESS_L Registers
        629. 3.10.1.629  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_4_END_ADDRESS_H Registers
        630. 3.10.1.630  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_5_CONTROL Registers
        631. 3.10.1.631  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_5_PERMISSION_0 Registers
        632. 3.10.1.632  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_5_PERMISSION_1 Registers
        633. 3.10.1.633  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_5_PERMISSION_2 Registers
        634. 3.10.1.634  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_5_START_ADDRESS_L Registers
        635. 3.10.1.635  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_5_START_ADDRESS_H Registers
        636. 3.10.1.636  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_5_END_ADDRESS_L Registers
        637. 3.10.1.637  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_5_END_ADDRESS_H Registers
        638. 3.10.1.638  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_6_CONTROL Registers
        639. 3.10.1.639  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_6_PERMISSION_0 Registers
        640. 3.10.1.640  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_6_PERMISSION_1 Registers
        641. 3.10.1.641  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_6_PERMISSION_2 Registers
        642. 3.10.1.642  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_6_START_ADDRESS_L Registers
        643. 3.10.1.643  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_6_START_ADDRESS_H Registers
        644. 3.10.1.644  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_6_END_ADDRESS_L Registers
        645. 3.10.1.645  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_6_END_ADDRESS_H Registers
        646. 3.10.1.646  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_7_CONTROL Registers
        647. 3.10.1.647  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_7_PERMISSION_0 Registers
        648. 3.10.1.648  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_7_PERMISSION_1 Registers
        649. 3.10.1.649  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_7_PERMISSION_2 Registers
        650. 3.10.1.650  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_7_START_ADDRESS_L Registers
        651. 3.10.1.651  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_7_START_ADDRESS_H Registers
        652. 3.10.1.652  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_7_END_ADDRESS_L Registers
        653. 3.10.1.653  FW_IMSRAM32KX64E_MAIN_6_SLV_FW_REGION_7_END_ADDRESS_H Registers
        654. 3.10.1.654  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_0_CONTROL Registers
        655. 3.10.1.655  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_0_PERMISSION_0 Registers
        656. 3.10.1.656  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_0_PERMISSION_1 Registers
        657. 3.10.1.657  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_0_PERMISSION_2 Registers
        658. 3.10.1.658  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_0_START_ADDRESS_L Registers
        659. 3.10.1.659  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_0_START_ADDRESS_H Registers
        660. 3.10.1.660  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_0_END_ADDRESS_L Registers
        661. 3.10.1.661  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_0_END_ADDRESS_H Registers
        662. 3.10.1.662  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_1_CONTROL Registers
        663. 3.10.1.663  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_1_PERMISSION_0 Registers
        664. 3.10.1.664  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_1_PERMISSION_1 Registers
        665. 3.10.1.665  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_1_PERMISSION_2 Registers
        666. 3.10.1.666  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_1_START_ADDRESS_L Registers
        667. 3.10.1.667  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_1_START_ADDRESS_H Registers
        668. 3.10.1.668  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_1_END_ADDRESS_L Registers
        669. 3.10.1.669  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_1_END_ADDRESS_H Registers
        670. 3.10.1.670  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_2_CONTROL Registers
        671. 3.10.1.671  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_2_PERMISSION_0 Registers
        672. 3.10.1.672  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_2_PERMISSION_1 Registers
        673. 3.10.1.673  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_2_PERMISSION_2 Registers
        674. 3.10.1.674  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_2_START_ADDRESS_L Registers
        675. 3.10.1.675  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_2_START_ADDRESS_H Registers
        676. 3.10.1.676  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_2_END_ADDRESS_L Registers
        677. 3.10.1.677  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_2_END_ADDRESS_H Registers
        678. 3.10.1.678  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_3_CONTROL Registers
        679. 3.10.1.679  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_3_PERMISSION_0 Registers
        680. 3.10.1.680  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_3_PERMISSION_1 Registers
        681. 3.10.1.681  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_3_PERMISSION_2 Registers
        682. 3.10.1.682  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_3_START_ADDRESS_L Registers
        683. 3.10.1.683  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_3_START_ADDRESS_H Registers
        684. 3.10.1.684  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_3_END_ADDRESS_L Registers
        685. 3.10.1.685  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_3_END_ADDRESS_H Registers
        686. 3.10.1.686  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_4_CONTROL Registers
        687. 3.10.1.687  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_4_PERMISSION_0 Registers
        688. 3.10.1.688  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_4_PERMISSION_1 Registers
        689. 3.10.1.689  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_4_PERMISSION_2 Registers
        690. 3.10.1.690  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_4_START_ADDRESS_L Registers
        691. 3.10.1.691  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_4_START_ADDRESS_H Registers
        692. 3.10.1.692  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_4_END_ADDRESS_L Registers
        693. 3.10.1.693  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_4_END_ADDRESS_H Registers
        694. 3.10.1.694  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_5_CONTROL Registers
        695. 3.10.1.695  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_5_PERMISSION_0 Registers
        696. 3.10.1.696  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_5_PERMISSION_1 Registers
        697. 3.10.1.697  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_5_PERMISSION_2 Registers
        698. 3.10.1.698  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_5_START_ADDRESS_L Registers
        699. 3.10.1.699  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_5_START_ADDRESS_H Registers
        700. 3.10.1.700  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_5_END_ADDRESS_L Registers
        701. 3.10.1.701  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_5_END_ADDRESS_H Registers
        702. 3.10.1.702  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_6_CONTROL Registers
        703. 3.10.1.703  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_6_PERMISSION_0 Registers
        704. 3.10.1.704  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_6_PERMISSION_1 Registers
        705. 3.10.1.705  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_6_PERMISSION_2 Registers
        706. 3.10.1.706  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_6_START_ADDRESS_L Registers
        707. 3.10.1.707  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_6_START_ADDRESS_H Registers
        708. 3.10.1.708  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_6_END_ADDRESS_L Registers
        709. 3.10.1.709  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_6_END_ADDRESS_H Registers
        710. 3.10.1.710  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_7_CONTROL Registers
        711. 3.10.1.711  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_7_PERMISSION_0 Registers
        712. 3.10.1.712  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_7_PERMISSION_1 Registers
        713. 3.10.1.713  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_7_PERMISSION_2 Registers
        714. 3.10.1.714  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_7_START_ADDRESS_L Registers
        715. 3.10.1.715  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_7_START_ADDRESS_H Registers
        716. 3.10.1.716  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_7_END_ADDRESS_L Registers
        717. 3.10.1.717  FW_IMSRAM32KX64E_MAIN_7_SLV_FW_REGION_7_END_ADDRESS_H Registers
        718. 3.10.1.718  ISC_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_AXI_R_ISC_REGION_0_CONTROL Registers
        719. 3.10.1.719  ISC_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_AXI_R_ISC_REGION_0_START_ADDRESS_L Registers
        720. 3.10.1.720  ISC_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_AXI_R_ISC_REGION_0_START_ADDRESS_H Registers
        721. 3.10.1.721  ISC_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_AXI_R_ISC_REGION_0_END_ADDRESS_L Registers
        722. 3.10.1.722  ISC_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_AXI_R_ISC_REGION_0_END_ADDRESS_H Registers
        723. 3.10.1.723  ISC_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_AXI_R_ISC_REGION_DEF_CONTROL Registers
        724. 3.10.1.724  ISC_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_AXI_W_ISC_REGION_0_CONTROL Registers
        725. 3.10.1.725  ISC_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_AXI_W_ISC_REGION_0_START_ADDRESS_L Registers
        726. 3.10.1.726  ISC_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_AXI_W_ISC_REGION_0_START_ADDRESS_H Registers
        727. 3.10.1.727  ISC_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_AXI_W_ISC_REGION_0_END_ADDRESS_L Registers
        728. 3.10.1.728  ISC_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_AXI_W_ISC_REGION_0_END_ADDRESS_H Registers
        729. 3.10.1.729  ISC_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_AXI_W_ISC_REGION_DEF_CONTROL Registers
        730. 3.10.1.730  ISC_IEMMC8SS_16FFC_MAIN_0_EMMCSS_WR_ISC_REGION_0_CONTROL Registers
        731. 3.10.1.731  ISC_IEMMC8SS_16FFC_MAIN_0_EMMCSS_WR_ISC_REGION_0_START_ADDRESS_L Registers
        732. 3.10.1.732  ISC_IEMMC8SS_16FFC_MAIN_0_EMMCSS_WR_ISC_REGION_0_START_ADDRESS_H Registers
        733. 3.10.1.733  ISC_IEMMC8SS_16FFC_MAIN_0_EMMCSS_WR_ISC_REGION_0_END_ADDRESS_L Registers
        734. 3.10.1.734  ISC_IEMMC8SS_16FFC_MAIN_0_EMMCSS_WR_ISC_REGION_0_END_ADDRESS_H Registers
        735. 3.10.1.735  ISC_IEMMC8SS_16FFC_MAIN_0_EMMCSS_WR_ISC_REGION_DEF_CONTROL Registers
        736. 3.10.1.736  ISC_IEMMC8SS_16FFC_MAIN_0_EMMCSS_RD_ISC_REGION_0_CONTROL Registers
        737. 3.10.1.737  ISC_IEMMC8SS_16FFC_MAIN_0_EMMCSS_RD_ISC_REGION_0_START_ADDRESS_L Registers
        738. 3.10.1.738  ISC_IEMMC8SS_16FFC_MAIN_0_EMMCSS_RD_ISC_REGION_0_START_ADDRESS_H Registers
        739. 3.10.1.739  ISC_IEMMC8SS_16FFC_MAIN_0_EMMCSS_RD_ISC_REGION_0_END_ADDRESS_L Registers
        740. 3.10.1.740  ISC_IEMMC8SS_16FFC_MAIN_0_EMMCSS_RD_ISC_REGION_0_END_ADDRESS_H Registers
        741. 3.10.1.741  ISC_IEMMC8SS_16FFC_MAIN_0_EMMCSS_RD_ISC_REGION_DEF_CONTROL Registers
        742. 3.10.1.742  ISC_IGIC500SS_1_2_MAIN_0_MEM_WR_VBUSM_ISC_REGION_0_CONTROL Registers
        743. 3.10.1.743  ISC_IGIC500SS_1_2_MAIN_0_MEM_WR_VBUSM_ISC_REGION_0_START_ADDRESS_L Registers
        744. 3.10.1.744  ISC_IGIC500SS_1_2_MAIN_0_MEM_WR_VBUSM_ISC_REGION_0_START_ADDRESS_H Registers
        745. 3.10.1.745  ISC_IGIC500SS_1_2_MAIN_0_MEM_WR_VBUSM_ISC_REGION_0_END_ADDRESS_L Registers
        746. 3.10.1.746  ISC_IGIC500SS_1_2_MAIN_0_MEM_WR_VBUSM_ISC_REGION_0_END_ADDRESS_H Registers
        747. 3.10.1.747  ISC_IGIC500SS_1_2_MAIN_0_MEM_WR_VBUSM_ISC_REGION_DEF_CONTROL Registers
        748. 3.10.1.748  ISC_IGIC500SS_1_2_MAIN_0_MEM_RD_VBUSM_ISC_REGION_0_CONTROL Registers
        749. 3.10.1.749  ISC_IGIC500SS_1_2_MAIN_0_MEM_RD_VBUSM_ISC_REGION_0_START_ADDRESS_L Registers
        750. 3.10.1.750  ISC_IGIC500SS_1_2_MAIN_0_MEM_RD_VBUSM_ISC_REGION_0_START_ADDRESS_H Registers
        751. 3.10.1.751  ISC_IGIC500SS_1_2_MAIN_0_MEM_RD_VBUSM_ISC_REGION_0_END_ADDRESS_L Registers
        752. 3.10.1.752  ISC_IGIC500SS_1_2_MAIN_0_MEM_RD_VBUSM_ISC_REGION_0_END_ADDRESS_H Registers
        753. 3.10.1.753  ISC_IGIC500SS_1_2_MAIN_0_MEM_RD_VBUSM_ISC_REGION_DEF_CONTROL Registers
        754. 3.10.1.754  ISC_IPULSAR_LITE_MAIN_0_CPU0_RMST_ISC_REGION_0_CONTROL Registers
        755. 3.10.1.755  ISC_IPULSAR_LITE_MAIN_0_CPU0_RMST_ISC_REGION_0_START_ADDRESS_L Registers
        756. 3.10.1.756  ISC_IPULSAR_LITE_MAIN_0_CPU0_RMST_ISC_REGION_0_START_ADDRESS_H Registers
        757. 3.10.1.757  ISC_IPULSAR_LITE_MAIN_0_CPU0_RMST_ISC_REGION_0_END_ADDRESS_L Registers
        758. 3.10.1.758  ISC_IPULSAR_LITE_MAIN_0_CPU0_RMST_ISC_REGION_0_END_ADDRESS_H Registers
        759. 3.10.1.759  ISC_IPULSAR_LITE_MAIN_0_CPU0_RMST_ISC_REGION_DEF_CONTROL Registers
        760. 3.10.1.760  ISC_IPULSAR_LITE_MAIN_0_CPU0_WMST_ISC_REGION_0_CONTROL Registers
        761. 3.10.1.761  ISC_IPULSAR_LITE_MAIN_0_CPU0_WMST_ISC_REGION_0_START_ADDRESS_L Registers
        762. 3.10.1.762  ISC_IPULSAR_LITE_MAIN_0_CPU0_WMST_ISC_REGION_0_START_ADDRESS_H Registers
        763. 3.10.1.763  ISC_IPULSAR_LITE_MAIN_0_CPU0_WMST_ISC_REGION_0_END_ADDRESS_L Registers
        764. 3.10.1.764  ISC_IPULSAR_LITE_MAIN_0_CPU0_WMST_ISC_REGION_0_END_ADDRESS_H Registers
        765. 3.10.1.765  ISC_IPULSAR_LITE_MAIN_0_CPU0_WMST_ISC_REGION_DEF_CONTROL Registers
        766. 3.10.1.766  ISC_IPULSAR_LITE_MAIN_0_CPU1_RMST_ISC_REGION_0_CONTROL Registers
        767. 3.10.1.767  ISC_IPULSAR_LITE_MAIN_0_CPU1_RMST_ISC_REGION_0_START_ADDRESS_L Registers
        768. 3.10.1.768  ISC_IPULSAR_LITE_MAIN_0_CPU1_RMST_ISC_REGION_0_START_ADDRESS_H Registers
        769. 3.10.1.769  ISC_IPULSAR_LITE_MAIN_0_CPU1_RMST_ISC_REGION_0_END_ADDRESS_L Registers
        770. 3.10.1.770  ISC_IPULSAR_LITE_MAIN_0_CPU1_RMST_ISC_REGION_0_END_ADDRESS_H Registers
        771. 3.10.1.771  ISC_IPULSAR_LITE_MAIN_0_CPU1_RMST_ISC_REGION_DEF_CONTROL Registers
        772. 3.10.1.772  ISC_IPULSAR_LITE_MAIN_0_CPU1_WMST_ISC_REGION_0_CONTROL Registers
        773. 3.10.1.773  ISC_IPULSAR_LITE_MAIN_0_CPU1_WMST_ISC_REGION_0_START_ADDRESS_L Registers
        774. 3.10.1.774  ISC_IPULSAR_LITE_MAIN_0_CPU1_WMST_ISC_REGION_0_START_ADDRESS_H Registers
        775. 3.10.1.775  ISC_IPULSAR_LITE_MAIN_0_CPU1_WMST_ISC_REGION_0_END_ADDRESS_L Registers
        776. 3.10.1.776  ISC_IPULSAR_LITE_MAIN_0_CPU1_WMST_ISC_REGION_0_END_ADDRESS_H Registers
        777. 3.10.1.777  ISC_IPULSAR_LITE_MAIN_0_CPU1_WMST_ISC_REGION_DEF_CONTROL Registers
        778. 3.10.1.778  ISC_IPULSAR_LITE_MAIN_1_CPU0_RMST_ISC_REGION_0_CONTROL Registers
        779. 3.10.1.779  ISC_IPULSAR_LITE_MAIN_1_CPU0_RMST_ISC_REGION_0_START_ADDRESS_L Registers
        780. 3.10.1.780  ISC_IPULSAR_LITE_MAIN_1_CPU0_RMST_ISC_REGION_0_START_ADDRESS_H Registers
        781. 3.10.1.781  ISC_IPULSAR_LITE_MAIN_1_CPU0_RMST_ISC_REGION_0_END_ADDRESS_L Registers
        782. 3.10.1.782  ISC_IPULSAR_LITE_MAIN_1_CPU0_RMST_ISC_REGION_0_END_ADDRESS_H Registers
        783. 3.10.1.783  ISC_IPULSAR_LITE_MAIN_1_CPU0_RMST_ISC_REGION_DEF_CONTROL Registers
        784. 3.10.1.784  ISC_IPULSAR_LITE_MAIN_1_CPU0_WMST_ISC_REGION_0_CONTROL Registers
        785. 3.10.1.785  ISC_IPULSAR_LITE_MAIN_1_CPU0_WMST_ISC_REGION_0_START_ADDRESS_L Registers
        786. 3.10.1.786  ISC_IPULSAR_LITE_MAIN_1_CPU0_WMST_ISC_REGION_0_START_ADDRESS_H Registers
        787. 3.10.1.787  ISC_IPULSAR_LITE_MAIN_1_CPU0_WMST_ISC_REGION_0_END_ADDRESS_L Registers
        788. 3.10.1.788  ISC_IPULSAR_LITE_MAIN_1_CPU0_WMST_ISC_REGION_0_END_ADDRESS_H Registers
        789. 3.10.1.789  ISC_IPULSAR_LITE_MAIN_1_CPU0_WMST_ISC_REGION_DEF_CONTROL Registers
        790. 3.10.1.790  ISC_IPULSAR_LITE_MAIN_1_CPU1_RMST_ISC_REGION_0_CONTROL Registers
        791. 3.10.1.791  ISC_IPULSAR_LITE_MAIN_1_CPU1_RMST_ISC_REGION_0_START_ADDRESS_L Registers
        792. 3.10.1.792  ISC_IPULSAR_LITE_MAIN_1_CPU1_RMST_ISC_REGION_0_START_ADDRESS_H Registers
        793. 3.10.1.793  ISC_IPULSAR_LITE_MAIN_1_CPU1_RMST_ISC_REGION_0_END_ADDRESS_L Registers
        794. 3.10.1.794  ISC_IPULSAR_LITE_MAIN_1_CPU1_RMST_ISC_REGION_0_END_ADDRESS_H Registers
        795. 3.10.1.795  ISC_IPULSAR_LITE_MAIN_1_CPU1_RMST_ISC_REGION_DEF_CONTROL Registers
        796. 3.10.1.796  ISC_IPULSAR_LITE_MAIN_1_CPU1_WMST_ISC_REGION_0_CONTROL Registers
        797. 3.10.1.797  ISC_IPULSAR_LITE_MAIN_1_CPU1_WMST_ISC_REGION_0_START_ADDRESS_L Registers
        798. 3.10.1.798  ISC_IPULSAR_LITE_MAIN_1_CPU1_WMST_ISC_REGION_0_START_ADDRESS_H Registers
        799. 3.10.1.799  ISC_IPULSAR_LITE_MAIN_1_CPU1_WMST_ISC_REGION_0_END_ADDRESS_L Registers
        800. 3.10.1.800  ISC_IPULSAR_LITE_MAIN_1_CPU1_WMST_ISC_REGION_0_END_ADDRESS_H Registers
        801. 3.10.1.801  ISC_IPULSAR_LITE_MAIN_1_CPU1_WMST_ISC_REGION_DEF_CONTROL Registers
        802. 3.10.1.802  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_0_CONTROL Registers
        803. 3.10.1.803  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_0_START_ADDRESS_L Registers
        804. 3.10.1.804  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_0_START_ADDRESS_H Registers
        805. 3.10.1.805  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_0_END_ADDRESS_L Registers
        806. 3.10.1.806  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_0_END_ADDRESS_H Registers
        807. 3.10.1.807  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_1_CONTROL Registers
        808. 3.10.1.808  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_1_START_ADDRESS_L Registers
        809. 3.10.1.809  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_1_START_ADDRESS_H Registers
        810. 3.10.1.810  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_1_END_ADDRESS_L Registers
        811. 3.10.1.811  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_1_END_ADDRESS_H Registers
        812. 3.10.1.812  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_2_CONTROL Registers
        813. 3.10.1.813  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_2_START_ADDRESS_L Registers
        814. 3.10.1.814  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_2_START_ADDRESS_H Registers
        815. 3.10.1.815  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_2_END_ADDRESS_L Registers
        816. 3.10.1.816  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_2_END_ADDRESS_H Registers
        817. 3.10.1.817  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_3_CONTROL Registers
        818. 3.10.1.818  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_3_START_ADDRESS_L Registers
        819. 3.10.1.819  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_3_START_ADDRESS_H Registers
        820. 3.10.1.820  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_3_END_ADDRESS_L Registers
        821. 3.10.1.821  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_3_END_ADDRESS_H Registers
        822. 3.10.1.822  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_4_CONTROL Registers
        823. 3.10.1.823  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_4_START_ADDRESS_L Registers
        824. 3.10.1.824  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_4_START_ADDRESS_H Registers
        825. 3.10.1.825  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_4_END_ADDRESS_L Registers
        826. 3.10.1.826  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_4_END_ADDRESS_H Registers
        827. 3.10.1.827  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_5_CONTROL Registers
        828. 3.10.1.828  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_5_START_ADDRESS_L Registers
        829. 3.10.1.829  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_5_START_ADDRESS_H Registers
        830. 3.10.1.830  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_5_END_ADDRESS_L Registers
        831. 3.10.1.831  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_5_END_ADDRESS_H Registers
        832. 3.10.1.832  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_6_CONTROL Registers
        833. 3.10.1.833  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_6_START_ADDRESS_L Registers
        834. 3.10.1.834  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_6_START_ADDRESS_H Registers
        835. 3.10.1.835  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_6_END_ADDRESS_L Registers
        836. 3.10.1.836  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_6_END_ADDRESS_H Registers
        837. 3.10.1.837  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_7_CONTROL Registers
        838. 3.10.1.838  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_7_START_ADDRESS_L Registers
        839. 3.10.1.839  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_7_START_ADDRESS_H Registers
        840. 3.10.1.840  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_7_END_ADDRESS_L Registers
        841. 3.10.1.841  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_7_END_ADDRESS_H Registers
        842. 3.10.1.842  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_8_CONTROL Registers
        843. 3.10.1.843  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_8_START_ADDRESS_L Registers
        844. 3.10.1.844  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_8_START_ADDRESS_H Registers
        845. 3.10.1.845  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_8_END_ADDRESS_L Registers
        846. 3.10.1.846  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_8_END_ADDRESS_H Registers
        847. 3.10.1.847  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_9_CONTROL Registers
        848. 3.10.1.848  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_9_START_ADDRESS_L Registers
        849. 3.10.1.849  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_9_START_ADDRESS_H Registers
        850. 3.10.1.850  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_9_END_ADDRESS_L Registers
        851. 3.10.1.851  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_9_END_ADDRESS_H Registers
        852. 3.10.1.852  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_10_CONTROL Registers
        853. 3.10.1.853  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_10_START_ADDRESS_L Registers
        854. 3.10.1.854  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_10_START_ADDRESS_H Registers
        855. 3.10.1.855  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_10_END_ADDRESS_L Registers
        856. 3.10.1.856  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_10_END_ADDRESS_H Registers
        857. 3.10.1.857  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_11_CONTROL Registers
        858. 3.10.1.858  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_11_START_ADDRESS_L Registers
        859. 3.10.1.859  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_11_START_ADDRESS_H Registers
        860. 3.10.1.860  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_11_END_ADDRESS_L Registers
        861. 3.10.1.861  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_11_END_ADDRESS_H Registers
        862. 3.10.1.862  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_12_CONTROL Registers
        863. 3.10.1.863  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_12_START_ADDRESS_L Registers
        864. 3.10.1.864  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_12_START_ADDRESS_H Registers
        865. 3.10.1.865  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_12_END_ADDRESS_L Registers
        866. 3.10.1.866  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_12_END_ADDRESS_H Registers
        867. 3.10.1.867  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_13_CONTROL Registers
        868. 3.10.1.868  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_13_START_ADDRESS_L Registers
        869. 3.10.1.869  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_13_START_ADDRESS_H Registers
        870. 3.10.1.870  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_13_END_ADDRESS_L Registers
        871. 3.10.1.871  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_13_END_ADDRESS_H Registers
        872. 3.10.1.872  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_14_CONTROL Registers
        873. 3.10.1.873  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_14_START_ADDRESS_L Registers
        874. 3.10.1.874  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_14_START_ADDRESS_H Registers
        875. 3.10.1.875  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_14_END_ADDRESS_L Registers
        876. 3.10.1.876  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_14_END_ADDRESS_H Registers
        877. 3.10.1.877  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_15_CONTROL Registers
        878. 3.10.1.878  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_15_START_ADDRESS_L Registers
        879. 3.10.1.879  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_15_START_ADDRESS_H Registers
        880. 3.10.1.880  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_15_END_ADDRESS_L Registers
        881. 3.10.1.881  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_15_END_ADDRESS_H Registers
        882. 3.10.1.882  ISC_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_ISC_REGION_DEF_CONTROL Registers
        883. 3.10.1.883  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_0_CONTROL Registers
        884. 3.10.1.884  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_0_START_ADDRESS_L Registers
        885. 3.10.1.885  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_0_START_ADDRESS_H Registers
        886. 3.10.1.886  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_0_END_ADDRESS_L Registers
        887. 3.10.1.887  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_0_END_ADDRESS_H Registers
        888. 3.10.1.888  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_1_CONTROL Registers
        889. 3.10.1.889  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_1_START_ADDRESS_L Registers
        890. 3.10.1.890  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_1_START_ADDRESS_H Registers
        891. 3.10.1.891  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_1_END_ADDRESS_L Registers
        892. 3.10.1.892  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_1_END_ADDRESS_H Registers
        893. 3.10.1.893  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_2_CONTROL Registers
        894. 3.10.1.894  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_2_START_ADDRESS_L Registers
        895. 3.10.1.895  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_2_START_ADDRESS_H Registers
        896. 3.10.1.896  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_2_END_ADDRESS_L Registers
        897. 3.10.1.897  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_2_END_ADDRESS_H Registers
        898. 3.10.1.898  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_3_CONTROL Registers
        899. 3.10.1.899  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_3_START_ADDRESS_L Registers
        900. 3.10.1.900  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_3_START_ADDRESS_H Registers
        901. 3.10.1.901  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_3_END_ADDRESS_L Registers
        902. 3.10.1.902  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_3_END_ADDRESS_H Registers
        903. 3.10.1.903  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_4_CONTROL Registers
        904. 3.10.1.904  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_4_START_ADDRESS_L Registers
        905. 3.10.1.905  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_4_START_ADDRESS_H Registers
        906. 3.10.1.906  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_4_END_ADDRESS_L Registers
        907. 3.10.1.907  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_4_END_ADDRESS_H Registers
        908. 3.10.1.908  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_5_CONTROL Registers
        909. 3.10.1.909  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_5_START_ADDRESS_L Registers
        910. 3.10.1.910  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_5_START_ADDRESS_H Registers
        911. 3.10.1.911  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_5_END_ADDRESS_L Registers
        912. 3.10.1.912  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_5_END_ADDRESS_H Registers
        913. 3.10.1.913  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_6_CONTROL Registers
        914. 3.10.1.914  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_6_START_ADDRESS_L Registers
        915. 3.10.1.915  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_6_START_ADDRESS_H Registers
        916. 3.10.1.916  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_6_END_ADDRESS_L Registers
        917. 3.10.1.917  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_6_END_ADDRESS_H Registers
        918. 3.10.1.918  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_7_CONTROL Registers
        919. 3.10.1.919  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_7_START_ADDRESS_L Registers
        920. 3.10.1.920  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_7_START_ADDRESS_H Registers
        921. 3.10.1.921  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_7_END_ADDRESS_L Registers
        922. 3.10.1.922  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_7_END_ADDRESS_H Registers
        923. 3.10.1.923  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_8_CONTROL Registers
        924. 3.10.1.924  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_8_START_ADDRESS_L Registers
        925. 3.10.1.925  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_8_START_ADDRESS_H Registers
        926. 3.10.1.926  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_8_END_ADDRESS_L Registers
        927. 3.10.1.927  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_8_END_ADDRESS_H Registers
        928. 3.10.1.928  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_9_CONTROL Registers
        929. 3.10.1.929  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_9_START_ADDRESS_L Registers
        930. 3.10.1.930  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_9_START_ADDRESS_H Registers
        931. 3.10.1.931  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_9_END_ADDRESS_L Registers
        932. 3.10.1.932  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_9_END_ADDRESS_H Registers
        933. 3.10.1.933  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_10_CONTROL Registers
        934. 3.10.1.934  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_10_START_ADDRESS_L Registers
        935. 3.10.1.935  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_10_START_ADDRESS_H Registers
        936. 3.10.1.936  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_10_END_ADDRESS_L Registers
        937. 3.10.1.937  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_10_END_ADDRESS_H Registers
        938. 3.10.1.938  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_11_CONTROL Registers
        939. 3.10.1.939  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_11_START_ADDRESS_L Registers
        940. 3.10.1.940  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_11_START_ADDRESS_H Registers
        941. 3.10.1.941  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_11_END_ADDRESS_L Registers
        942. 3.10.1.942  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_11_END_ADDRESS_H Registers
        943. 3.10.1.943  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_12_CONTROL Registers
        944. 3.10.1.944  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_12_START_ADDRESS_L Registers
        945. 3.10.1.945  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_12_START_ADDRESS_H Registers
        946. 3.10.1.946  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_12_END_ADDRESS_L Registers
        947. 3.10.1.947  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_12_END_ADDRESS_H Registers
        948. 3.10.1.948  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_13_CONTROL Registers
        949. 3.10.1.949  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_13_START_ADDRESS_L Registers
        950. 3.10.1.950  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_13_START_ADDRESS_H Registers
        951. 3.10.1.951  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_13_END_ADDRESS_L Registers
        952. 3.10.1.952  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_13_END_ADDRESS_H Registers
        953. 3.10.1.953  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_14_CONTROL Registers
        954. 3.10.1.954  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_14_START_ADDRESS_L Registers
        955. 3.10.1.955  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_14_START_ADDRESS_H Registers
        956. 3.10.1.956  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_14_END_ADDRESS_L Registers
        957. 3.10.1.957  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_14_END_ADDRESS_H Registers
        958. 3.10.1.958  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_15_CONTROL Registers
        959. 3.10.1.959  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_15_START_ADDRESS_L Registers
        960. 3.10.1.960  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_15_START_ADDRESS_H Registers
        961. 3.10.1.961  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_15_END_ADDRESS_L Registers
        962. 3.10.1.962  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_15_END_ADDRESS_H Registers
        963. 3.10.1.963  ISC_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_ISC_REGION_DEF_CONTROL Registers
        964. 3.10.1.964  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_0_CONTROL Registers
        965. 3.10.1.965  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_0_START_ADDRESS_L Registers
        966. 3.10.1.966  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_0_START_ADDRESS_H Registers
        967. 3.10.1.967  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_0_END_ADDRESS_L Registers
        968. 3.10.1.968  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_0_END_ADDRESS_H Registers
        969. 3.10.1.969  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_1_CONTROL Registers
        970. 3.10.1.970  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_1_START_ADDRESS_L Registers
        971. 3.10.1.971  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_1_START_ADDRESS_H Registers
        972. 3.10.1.972  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_1_END_ADDRESS_L Registers
        973. 3.10.1.973  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_1_END_ADDRESS_H Registers
        974. 3.10.1.974  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_2_CONTROL Registers
        975. 3.10.1.975  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_2_START_ADDRESS_L Registers
        976. 3.10.1.976  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_2_START_ADDRESS_H Registers
        977. 3.10.1.977  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_2_END_ADDRESS_L Registers
        978. 3.10.1.978  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_2_END_ADDRESS_H Registers
        979. 3.10.1.979  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_3_CONTROL Registers
        980. 3.10.1.980  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_3_START_ADDRESS_L Registers
        981. 3.10.1.981  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_3_START_ADDRESS_H Registers
        982. 3.10.1.982  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_3_END_ADDRESS_L Registers
        983. 3.10.1.983  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_3_END_ADDRESS_H Registers
        984. 3.10.1.984  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_4_CONTROL Registers
        985. 3.10.1.985  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_4_START_ADDRESS_L Registers
        986. 3.10.1.986  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_4_START_ADDRESS_H Registers
        987. 3.10.1.987  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_4_END_ADDRESS_L Registers
        988. 3.10.1.988  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_4_END_ADDRESS_H Registers
        989. 3.10.1.989  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_5_CONTROL Registers
        990. 3.10.1.990  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_5_START_ADDRESS_L Registers
        991. 3.10.1.991  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_5_START_ADDRESS_H Registers
        992. 3.10.1.992  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_5_END_ADDRESS_L Registers
        993. 3.10.1.993  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_5_END_ADDRESS_H Registers
        994. 3.10.1.994  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_6_CONTROL Registers
        995. 3.10.1.995  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_6_START_ADDRESS_L Registers
        996. 3.10.1.996  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_6_START_ADDRESS_H Registers
        997. 3.10.1.997  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_6_END_ADDRESS_L Registers
        998. 3.10.1.998  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_6_END_ADDRESS_H Registers
        999. 3.10.1.999  ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_7_CONTROL Registers
        1000. 3.10.1.1000 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_7_START_ADDRESS_L Registers
        1001. 3.10.1.1001 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_7_START_ADDRESS_H Registers
        1002. 3.10.1.1002 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_7_END_ADDRESS_L Registers
        1003. 3.10.1.1003 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_7_END_ADDRESS_H Registers
        1004. 3.10.1.1004 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_ISC_REGION_DEF_CONTROL Registers
        1005. 3.10.1.1005 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_0_CONTROL Registers
        1006. 3.10.1.1006 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_0_START_ADDRESS_L Registers
        1007. 3.10.1.1007 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_0_START_ADDRESS_H Registers
        1008. 3.10.1.1008 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_0_END_ADDRESS_L Registers
        1009. 3.10.1.1009 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_0_END_ADDRESS_H Registers
        1010. 3.10.1.1010 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_1_CONTROL Registers
        1011. 3.10.1.1011 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_1_START_ADDRESS_L Registers
        1012. 3.10.1.1012 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_1_START_ADDRESS_H Registers
        1013. 3.10.1.1013 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_1_END_ADDRESS_L Registers
        1014. 3.10.1.1014 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_1_END_ADDRESS_H Registers
        1015. 3.10.1.1015 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_2_CONTROL Registers
        1016. 3.10.1.1016 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_2_START_ADDRESS_L Registers
        1017. 3.10.1.1017 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_2_START_ADDRESS_H Registers
        1018. 3.10.1.1018 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_2_END_ADDRESS_L Registers
        1019. 3.10.1.1019 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_2_END_ADDRESS_H Registers
        1020. 3.10.1.1020 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_3_CONTROL Registers
        1021. 3.10.1.1021 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_3_START_ADDRESS_L Registers
        1022. 3.10.1.1022 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_3_START_ADDRESS_H Registers
        1023. 3.10.1.1023 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_3_END_ADDRESS_L Registers
        1024. 3.10.1.1024 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_3_END_ADDRESS_H Registers
        1025. 3.10.1.1025 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_4_CONTROL Registers
        1026. 3.10.1.1026 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_4_START_ADDRESS_L Registers
        1027. 3.10.1.1027 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_4_START_ADDRESS_H Registers
        1028. 3.10.1.1028 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_4_END_ADDRESS_L Registers
        1029. 3.10.1.1029 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_4_END_ADDRESS_H Registers
        1030. 3.10.1.1030 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_5_CONTROL Registers
        1031. 3.10.1.1031 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_5_START_ADDRESS_L Registers
        1032. 3.10.1.1032 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_5_START_ADDRESS_H Registers
        1033. 3.10.1.1033 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_5_END_ADDRESS_L Registers
        1034. 3.10.1.1034 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_5_END_ADDRESS_H Registers
        1035. 3.10.1.1035 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_6_CONTROL Registers
        1036. 3.10.1.1036 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_6_START_ADDRESS_L Registers
        1037. 3.10.1.1037 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_6_START_ADDRESS_H Registers
        1038. 3.10.1.1038 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_6_END_ADDRESS_L Registers
        1039. 3.10.1.1039 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_6_END_ADDRESS_H Registers
        1040. 3.10.1.1040 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_7_CONTROL Registers
        1041. 3.10.1.1041 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_7_START_ADDRESS_L Registers
        1042. 3.10.1.1042 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_7_START_ADDRESS_H Registers
        1043. 3.10.1.1043 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_7_END_ADDRESS_L Registers
        1044. 3.10.1.1044 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_7_END_ADDRESS_H Registers
        1045. 3.10.1.1045 ISC_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_ISC_REGION_DEF_CONTROL Registers
        1046. 3.10.1.1046 ISC_IEMMCSD4SS_MAIN_0_EMMCSDSS_WR_ISC_REGION_0_CONTROL Registers
        1047. 3.10.1.1047 ISC_IEMMCSD4SS_MAIN_0_EMMCSDSS_WR_ISC_REGION_0_START_ADDRESS_L Registers
        1048. 3.10.1.1048 ISC_IEMMCSD4SS_MAIN_0_EMMCSDSS_WR_ISC_REGION_0_START_ADDRESS_H Registers
        1049. 3.10.1.1049 ISC_IEMMCSD4SS_MAIN_0_EMMCSDSS_WR_ISC_REGION_0_END_ADDRESS_L Registers
        1050. 3.10.1.1050 ISC_IEMMCSD4SS_MAIN_0_EMMCSDSS_WR_ISC_REGION_0_END_ADDRESS_H Registers
        1051. 3.10.1.1051 ISC_IEMMCSD4SS_MAIN_0_EMMCSDSS_WR_ISC_REGION_DEF_CONTROL Registers
        1052. 3.10.1.1052 ISC_IEMMCSD4SS_MAIN_0_EMMCSDSS_RD_ISC_REGION_0_CONTROL Registers
        1053. 3.10.1.1053 ISC_IEMMCSD4SS_MAIN_0_EMMCSDSS_RD_ISC_REGION_0_START_ADDRESS_L Registers
        1054. 3.10.1.1054 ISC_IEMMCSD4SS_MAIN_0_EMMCSDSS_RD_ISC_REGION_0_START_ADDRESS_H Registers
        1055. 3.10.1.1055 ISC_IEMMCSD4SS_MAIN_0_EMMCSDSS_RD_ISC_REGION_0_END_ADDRESS_L Registers
        1056. 3.10.1.1056 ISC_IEMMCSD4SS_MAIN_0_EMMCSDSS_RD_ISC_REGION_0_END_ADDRESS_H Registers
        1057. 3.10.1.1057 ISC_IEMMCSD4SS_MAIN_0_EMMCSDSS_RD_ISC_REGION_DEF_CONTROL Registers
        1058. 3.10.1.1058 ISC_ISA2_UL_MAIN_0_CTXCACH_EXT_DMA_ISC_REGION_0_CONTROL Registers
        1059. 3.10.1.1059 ISC_ISA2_UL_MAIN_0_CTXCACH_EXT_DMA_ISC_REGION_0_START_ADDRESS_L Registers
        1060. 3.10.1.1060 ISC_ISA2_UL_MAIN_0_CTXCACH_EXT_DMA_ISC_REGION_0_START_ADDRESS_H Registers
        1061. 3.10.1.1061 ISC_ISA2_UL_MAIN_0_CTXCACH_EXT_DMA_ISC_REGION_0_END_ADDRESS_L Registers
        1062. 3.10.1.1062 ISC_ISA2_UL_MAIN_0_CTXCACH_EXT_DMA_ISC_REGION_0_END_ADDRESS_H Registers
        1063. 3.10.1.1063 ISC_ISA2_UL_MAIN_0_CTXCACH_EXT_DMA_ISC_REGION_DEF_CONTROL Registers
        1064. 3.10.1.1064 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_0_CONTROL Registers
        1065. 3.10.1.1065 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_0_START_ADDRESS_L Registers
        1066. 3.10.1.1066 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_0_START_ADDRESS_H Registers
        1067. 3.10.1.1067 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_0_END_ADDRESS_L Registers
        1068. 3.10.1.1068 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_0_END_ADDRESS_H Registers
        1069. 3.10.1.1069 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_1_CONTROL Registers
        1070. 3.10.1.1070 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_1_START_ADDRESS_L Registers
        1071. 3.10.1.1071 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_1_START_ADDRESS_H Registers
        1072. 3.10.1.1072 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_1_END_ADDRESS_L Registers
        1073. 3.10.1.1073 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_1_END_ADDRESS_H Registers
        1074. 3.10.1.1074 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_2_CONTROL Registers
        1075. 3.10.1.1075 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_2_START_ADDRESS_L Registers
        1076. 3.10.1.1076 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_2_START_ADDRESS_H Registers
        1077. 3.10.1.1077 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_2_END_ADDRESS_L Registers
        1078. 3.10.1.1078 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_2_END_ADDRESS_H Registers
        1079. 3.10.1.1079 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_3_CONTROL Registers
        1080. 3.10.1.1080 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_3_START_ADDRESS_L Registers
        1081. 3.10.1.1081 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_3_START_ADDRESS_H Registers
        1082. 3.10.1.1082 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_3_END_ADDRESS_L Registers
        1083. 3.10.1.1083 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_3_END_ADDRESS_H Registers
        1084. 3.10.1.1084 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_4_CONTROL Registers
        1085. 3.10.1.1085 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_4_START_ADDRESS_L Registers
        1086. 3.10.1.1086 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_4_START_ADDRESS_H Registers
        1087. 3.10.1.1087 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_4_END_ADDRESS_L Registers
        1088. 3.10.1.1088 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_4_END_ADDRESS_H Registers
        1089. 3.10.1.1089 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_5_CONTROL Registers
        1090. 3.10.1.1090 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_5_START_ADDRESS_L Registers
        1091. 3.10.1.1091 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_5_START_ADDRESS_H Registers
        1092. 3.10.1.1092 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_5_END_ADDRESS_L Registers
        1093. 3.10.1.1093 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_5_END_ADDRESS_H Registers
        1094. 3.10.1.1094 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_6_CONTROL Registers
        1095. 3.10.1.1095 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_6_START_ADDRESS_L Registers
        1096. 3.10.1.1096 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_6_START_ADDRESS_H Registers
        1097. 3.10.1.1097 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_6_END_ADDRESS_L Registers
        1098. 3.10.1.1098 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_6_END_ADDRESS_H Registers
        1099. 3.10.1.1099 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_7_CONTROL Registers
        1100. 3.10.1.1100 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_7_START_ADDRESS_L Registers
        1101. 3.10.1.1101 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_7_START_ADDRESS_H Registers
        1102. 3.10.1.1102 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_7_END_ADDRESS_L Registers
        1103. 3.10.1.1103 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_7_END_ADDRESS_H Registers
        1104. 3.10.1.1104 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_ISC_REGION_DEF_CONTROL Registers
        1105. 3.10.1.1105 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_0_CONTROL Registers
        1106. 3.10.1.1106 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_0_START_ADDRESS_L Registers
        1107. 3.10.1.1107 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_0_START_ADDRESS_H Registers
        1108. 3.10.1.1108 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_0_END_ADDRESS_L Registers
        1109. 3.10.1.1109 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_0_END_ADDRESS_H Registers
        1110. 3.10.1.1110 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_1_CONTROL Registers
        1111. 3.10.1.1111 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_1_START_ADDRESS_L Registers
        1112. 3.10.1.1112 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_1_START_ADDRESS_H Registers
        1113. 3.10.1.1113 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_1_END_ADDRESS_L Registers
        1114. 3.10.1.1114 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_1_END_ADDRESS_H Registers
        1115. 3.10.1.1115 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_2_CONTROL Registers
        1116. 3.10.1.1116 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_2_START_ADDRESS_L Registers
        1117. 3.10.1.1117 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_2_START_ADDRESS_H Registers
        1118. 3.10.1.1118 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_2_END_ADDRESS_L Registers
        1119. 3.10.1.1119 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_2_END_ADDRESS_H Registers
        1120. 3.10.1.1120 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_3_CONTROL Registers
        1121. 3.10.1.1121 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_3_START_ADDRESS_L Registers
        1122. 3.10.1.1122 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_3_START_ADDRESS_H Registers
        1123. 3.10.1.1123 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_3_END_ADDRESS_L Registers
        1124. 3.10.1.1124 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_3_END_ADDRESS_H Registers
        1125. 3.10.1.1125 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_4_CONTROL Registers
        1126. 3.10.1.1126 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_4_START_ADDRESS_L Registers
        1127. 3.10.1.1127 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_4_START_ADDRESS_H Registers
        1128. 3.10.1.1128 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_4_END_ADDRESS_L Registers
        1129. 3.10.1.1129 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_4_END_ADDRESS_H Registers
        1130. 3.10.1.1130 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_5_CONTROL Registers
        1131. 3.10.1.1131 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_5_START_ADDRESS_L Registers
        1132. 3.10.1.1132 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_5_START_ADDRESS_H Registers
        1133. 3.10.1.1133 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_5_END_ADDRESS_L Registers
        1134. 3.10.1.1134 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_5_END_ADDRESS_H Registers
        1135. 3.10.1.1135 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_6_CONTROL Registers
        1136. 3.10.1.1136 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_6_START_ADDRESS_L Registers
        1137. 3.10.1.1137 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_6_START_ADDRESS_H Registers
        1138. 3.10.1.1138 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_6_END_ADDRESS_L Registers
        1139. 3.10.1.1139 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_6_END_ADDRESS_H Registers
        1140. 3.10.1.1140 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_7_CONTROL Registers
        1141. 3.10.1.1141 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_7_START_ADDRESS_L Registers
        1142. 3.10.1.1142 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_7_START_ADDRESS_H Registers
        1143. 3.10.1.1143 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_7_END_ADDRESS_L Registers
        1144. 3.10.1.1144 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_7_END_ADDRESS_H Registers
        1145. 3.10.1.1145 ISC_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_ISC_REGION_DEF_CONTROL Registers
        1146. 3.10.1.1146 ISC_IJ7_LED_MAIN_0_VBUSP_ISC_REGION_0_CONTROL Registers
        1147. 3.10.1.1147 ISC_IJ7_LED_MAIN_0_VBUSP_ISC_REGION_0_START_ADDRESS_L Registers
        1148. 3.10.1.1148 ISC_IJ7_LED_MAIN_0_VBUSP_ISC_REGION_0_START_ADDRESS_H Registers
        1149. 3.10.1.1149 ISC_IJ7_LED_MAIN_0_VBUSP_ISC_REGION_0_END_ADDRESS_L Registers
        1150. 3.10.1.1150 ISC_IJ7_LED_MAIN_0_VBUSP_ISC_REGION_0_END_ADDRESS_H Registers
        1151. 3.10.1.1151 ISC_IJ7_LED_MAIN_0_VBUSP_ISC_REGION_DEF_CONTROL Registers
        1152. 3.10.1.1152 ISC_IDEBUGSS_K3_WRAP_CV0_MAIN_0_VBUSMR_ISC_REGION_0_CONTROL Registers
        1153. 3.10.1.1153 ISC_IDEBUGSS_K3_WRAP_CV0_MAIN_0_VBUSMR_ISC_REGION_0_START_ADDRESS_L Registers
        1154. 3.10.1.1154 ISC_IDEBUGSS_K3_WRAP_CV0_MAIN_0_VBUSMR_ISC_REGION_0_START_ADDRESS_H Registers
        1155. 3.10.1.1155 ISC_IDEBUGSS_K3_WRAP_CV0_MAIN_0_VBUSMR_ISC_REGION_0_END_ADDRESS_L Registers
        1156. 3.10.1.1156 ISC_IDEBUGSS_K3_WRAP_CV0_MAIN_0_VBUSMR_ISC_REGION_0_END_ADDRESS_H Registers
        1157. 3.10.1.1157 ISC_IDEBUGSS_K3_WRAP_CV0_MAIN_0_VBUSMR_ISC_REGION_DEF_CONTROL Registers
        1158. 3.10.1.1158 ISC_IDEBUGSS_K3_WRAP_CV0_MAIN_0_VBUSMW_ISC_REGION_0_CONTROL Registers
        1159. 3.10.1.1159 ISC_IDEBUGSS_K3_WRAP_CV0_MAIN_0_VBUSMW_ISC_REGION_0_START_ADDRESS_L Registers
        1160. 3.10.1.1160 ISC_IDEBUGSS_K3_WRAP_CV0_MAIN_0_VBUSMW_ISC_REGION_0_START_ADDRESS_H Registers
        1161. 3.10.1.1161 ISC_IDEBUGSS_K3_WRAP_CV0_MAIN_0_VBUSMW_ISC_REGION_0_END_ADDRESS_L Registers
        1162. 3.10.1.1162 ISC_IDEBUGSS_K3_WRAP_CV0_MAIN_0_VBUSMW_ISC_REGION_0_END_ADDRESS_H Registers
        1163. 3.10.1.1163 ISC_IDEBUGSS_K3_WRAP_CV0_MAIN_0_VBUSMW_ISC_REGION_DEF_CONTROL Registers
        1164. 3.10.1.1164 GLB_PID Registers
        1165. 3.10.1.1165 GLB_DESTINATION_ID Registers
        1166. 3.10.1.1166 GLB_EXCEPTION_LOGGING_CONTROL Registers
        1167. 3.10.1.1167 GLB_EXCEPTION_LOGGING_HEADER0 Registers
        1168. 3.10.1.1168 GLB_EXCEPTION_LOGGING_HEADER1 Registers
        1169. 3.10.1.1169 GLB_EXCEPTION_LOGGING_DATA0 Registers
        1170. 3.10.1.1170 GLB_EXCEPTION_LOGGING_DATA1 Registers
        1171. 3.10.1.1171 GLB_EXCEPTION_LOGGING_DATA2 Registers
        1172. 3.10.1.1172 GLB_EXCEPTION_LOGGING_DATA3 Registers
        1173. 3.10.1.1173 GLB_EXCEPTION_PEND_SET Registers
        1174. 3.10.1.1174 GLB_EXCEPTION_PEND_CLEAR Registers
        1175. 3.10.1.1175 QOS_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_AXI_R_MAP0 Registers
        1176. 3.10.1.1176 QOS_ISAM64_A53_256KB_WRAP_MAIN_0_A53_DUAL_WRAP_CBA_AXI_W_MAP0 Registers
        1177. 3.10.1.1177 QOS_IEMMC8SS_16FFC_MAIN_0_EMMCSS_WR_MAP0 Registers
        1178. 3.10.1.1178 QOS_IEMMC8SS_16FFC_MAIN_0_EMMCSS_RD_MAP0 Registers
        1179. 3.10.1.1179 QOS_IGIC500SS_1_2_MAIN_0_MEM_WR_VBUSM_MAP0 Registers
        1180. 3.10.1.1180 QOS_IGIC500SS_1_2_MAIN_0_MEM_RD_VBUSM_MAP0 Registers
        1181. 3.10.1.1181 QOS_IPULSAR_LITE_MAIN_0_CPU0_RMST_MAP0 Registers
        1182. 3.10.1.1182 QOS_IPULSAR_LITE_MAIN_0_CPU0_WMST_MAP0 Registers
        1183. 3.10.1.1183 QOS_IPULSAR_LITE_MAIN_0_CPU1_RMST_MAP0 Registers
        1184. 3.10.1.1184 QOS_IPULSAR_LITE_MAIN_0_CPU1_WMST_MAP0 Registers
        1185. 3.10.1.1185 QOS_IPULSAR_LITE_MAIN_1_CPU0_RMST_MAP0 Registers
        1186. 3.10.1.1186 QOS_IPULSAR_LITE_MAIN_1_CPU0_WMST_MAP0 Registers
        1187. 3.10.1.1187 QOS_IPULSAR_LITE_MAIN_1_CPU1_RMST_MAP0 Registers
        1188. 3.10.1.1188 QOS_IPULSAR_LITE_MAIN_1_CPU1_WMST_MAP0 Registers
        1189. 3.10.1.1189 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP0 Registers
        1190. 3.10.1.1190 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP1 Registers
        1191. 3.10.1.1191 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP2 Registers
        1192. 3.10.1.1192 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP3 Registers
        1193. 3.10.1.1193 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP4 Registers
        1194. 3.10.1.1194 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP5 Registers
        1195. 3.10.1.1195 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP6 Registers
        1196. 3.10.1.1196 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP7 Registers
        1197. 3.10.1.1197 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP8 Registers
        1198. 3.10.1.1198 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP9 Registers
        1199. 3.10.1.1199 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP10 Registers
        1200. 3.10.1.1200 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP11 Registers
        1201. 3.10.1.1201 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP12 Registers
        1202. 3.10.1.1202 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP13 Registers
        1203. 3.10.1.1203 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP14 Registers
        1204. 3.10.1.1204 QOS_IICSS_G_16FF_MAIN_0_PR1_EXT_VBUSM_MAP15 Registers
        1205. 3.10.1.1205 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP0 Registers
        1206. 3.10.1.1206 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP1 Registers
        1207. 3.10.1.1207 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP2 Registers
        1208. 3.10.1.1208 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP3 Registers
        1209. 3.10.1.1209 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP4 Registers
        1210. 3.10.1.1210 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP5 Registers
        1211. 3.10.1.1211 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP6 Registers
        1212. 3.10.1.1212 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP7 Registers
        1213. 3.10.1.1213 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP8 Registers
        1214. 3.10.1.1214 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP9 Registers
        1215. 3.10.1.1215 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP10 Registers
        1216. 3.10.1.1216 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP11 Registers
        1217. 3.10.1.1217 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP12 Registers
        1218. 3.10.1.1218 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP13 Registers
        1219. 3.10.1.1219 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP14 Registers
        1220. 3.10.1.1220 QOS_IICSS_G_16FF_MAIN_1_PR1_EXT_VBUSM_MAP15 Registers
        1221. 3.10.1.1221 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_MAP0 Registers
        1222. 3.10.1.1222 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_MAP1 Registers
        1223. 3.10.1.1223 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_MAP2 Registers
        1224. 3.10.1.1224 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_MAP3 Registers
        1225. 3.10.1.1225 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_MAP4 Registers
        1226. 3.10.1.1226 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_MAP5 Registers
        1227. 3.10.1.1227 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_MAP6 Registers
        1228. 3.10.1.1228 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_RD_MAP7 Registers
        1229. 3.10.1.1229 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_MAP0 Registers
        1230. 3.10.1.1230 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_MAP1 Registers
        1231. 3.10.1.1231 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_MAP2 Registers
        1232. 3.10.1.1232 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_MAP3 Registers
        1233. 3.10.1.1233 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_MAP4 Registers
        1234. 3.10.1.1234 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_MAP5 Registers
        1235. 3.10.1.1235 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_MAP6 Registers
        1236. 3.10.1.1236 QOS_IPCIE_G2X1_64_MAIN_0_PCIE_MST_WR_MAP7 Registers
        1237. 3.10.1.1237 QOS_IEMMCSD4SS_MAIN_0_EMMCSDSS_WR_MAP0 Registers
        1238. 3.10.1.1238 QOS_IEMMCSD4SS_MAIN_0_EMMCSDSS_RD_MAP0 Registers
        1239. 3.10.1.1239 QOS_ISA2_UL_MAIN_0_CTXCACH_EXT_DMA_MAP0 Registers
        1240. 3.10.1.1240 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_MAP0 Registers
        1241. 3.10.1.1241 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_MAP1 Registers
        1242. 3.10.1.1242 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_MAP2 Registers
        1243. 3.10.1.1243 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_MAP3 Registers
        1244. 3.10.1.1244 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_MAP4 Registers
        1245. 3.10.1.1245 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_MAP5 Registers
        1246. 3.10.1.1246 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_MAP6 Registers
        1247. 3.10.1.1247 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTR0_MAP7 Registers
        1248. 3.10.1.1248 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_MAP0 Registers
        1249. 3.10.1.1249 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_MAP1 Registers
        1250. 3.10.1.1250 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_MAP2 Registers
        1251. 3.10.1.1251 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_MAP3 Registers
        1252. 3.10.1.1252 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_MAP4 Registers
        1253. 3.10.1.1253 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_MAP5 Registers
        1254. 3.10.1.1254 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_MAP6 Registers
        1255. 3.10.1.1255 QOS_IUSB3P0SS64_16FFC_MAIN_0_MSTW0_MAP7 Registers
        1256. 3.10.1.1256 QOS_IDEBUGSS_K3_WRAP_CV0_MAIN_0_VBUSMR_MAP0 Registers
        1257. 3.10.1.1257 QOS_IDEBUGSS_K3_WRAP_CV0_MAIN_0_VBUSMW_MAP0 Registers
        1258. 3.10.1.1258 ISC_IBLAZAR_MCU_0_VBUSP_M_ISC_REGION_0_CONTROL Registers
        1259. 3.10.1.1259 ISC_IBLAZAR_MCU_0_VBUSP_M_ISC_REGION_0_START_ADDRESS_L Registers
        1260. 3.10.1.1260 ISC_IBLAZAR_MCU_0_VBUSP_M_ISC_REGION_0_START_ADDRESS_H Registers
        1261. 3.10.1.1261 ISC_IBLAZAR_MCU_0_VBUSP_M_ISC_REGION_0_END_ADDRESS_L Registers
        1262. 3.10.1.1262 ISC_IBLAZAR_MCU_0_VBUSP_M_ISC_REGION_0_END_ADDRESS_H Registers
        1263. 3.10.1.1263 ISC_IBLAZAR_MCU_0_VBUSP_M_ISC_REGION_DEF_CONTROL Registers
        1264. 3.10.1.1264 QOS_IBLAZAR_MCU_0_VBUSP_M_MAP0 Registers
        1265. 3.10.1.1265 Access Table
      2. 3.10.2 CBASS_FW Registers
        1. 3.10.2.1  ERR_REGS_CBASS_FW_PID Registers
        2. 3.10.2.2  ERR_REGS_CBASS_FW_DESTINATION_ID Registers
        3. 3.10.2.3  ERR_REGS_CBASS_FW_EXCEPTION_LOGGING_HEADER0 Registers
        4. 3.10.2.4  ERR_REGS_CBASS_FW_EXCEPTION_LOGGING_HEADER1 Registers
        5. 3.10.2.5  ERR_REGS_CBASS_FW_EXCEPTION_LOGGING_DATA0 Registers
        6. 3.10.2.6  ERR_REGS_CBASS_FW_EXCEPTION_LOGGING_DATA1 Registers
        7. 3.10.2.7  ERR_REGS_CBASS_FW_EXCEPTION_LOGGING_DATA2 Registers
        8. 3.10.2.8  ERR_REGS_CBASS_FW_EXCEPTION_LOGGING_DATA3 Registers
        9. 3.10.2.9  ERR_REGS_CBASS_FW_ERR_INTR_RAW_STAT Registers
        10. 3.10.2.10 ERR_REGS_CBASS_FW_ERR_INTR_ENABLED_STAT Registers
        11. 3.10.2.11 ERR_REGS_CBASS_FW_ERR_INTR_ENABLE_SET Registers
        12. 3.10.2.12 ERR_REGS_CBASS_FW_ERR_INTR_ENABLE_CLR Registers
        13. 3.10.2.13 ERR_REGS_CBASS_FW_EOI Registers
        14. 3.10.2.14 Access Table
      3. 3.10.3 CBASS_INFRA Registers
        1. 3.10.3.1   ERR_REGS_CBASS_INFRA_PID Registers
        2. 3.10.3.2   ERR_REGS_CBASS_INFRA_DESTINATION_ID Registers
        3. 3.10.3.3   ERR_REGS_CBASS_INFRA_EXCEPTION_LOGGING_HEADER0 Registers
        4. 3.10.3.4   ERR_REGS_CBASS_INFRA_EXCEPTION_LOGGING_HEADER1 Registers
        5. 3.10.3.5   ERR_REGS_CBASS_INFRA_EXCEPTION_LOGGING_DATA0 Registers
        6. 3.10.3.6   ERR_REGS_CBASS_INFRA_EXCEPTION_LOGGING_DATA1 Registers
        7. 3.10.3.7   ERR_REGS_CBASS_INFRA_EXCEPTION_LOGGING_DATA2 Registers
        8. 3.10.3.8   ERR_REGS_CBASS_INFRA_EXCEPTION_LOGGING_DATA3 Registers
        9. 3.10.3.9   ERR_REGS_CBASS_INFRA_ERR_INTR_RAW_STAT Registers
        10. 3.10.3.10  ERR_REGS_CBASS_INFRA_ERR_INTR_ENABLED_STAT Registers
        11. 3.10.3.11  ERR_REGS_CBASS_INFRA_ERR_INTR_ENABLE_SET Registers
        12. 3.10.3.12  ERR_REGS_CBASS_INFRA_ERR_INTR_ENABLE_CLR Registers
        13. 3.10.3.13  ERR_REGS_CBASS_INFRA_EOI Registers
        14. 3.10.3.14  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_0_CONTROL Registers
        15. 3.10.3.15  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_0_PERMISSION_0 Registers
        16. 3.10.3.16  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_0_PERMISSION_1 Registers
        17. 3.10.3.17  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_0_PERMISSION_2 Registers
        18. 3.10.3.18  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_0_START_ADDRESS_L Registers
        19. 3.10.3.19  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_0_START_ADDRESS_H Registers
        20. 3.10.3.20  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_0_END_ADDRESS_L Registers
        21. 3.10.3.21  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_0_END_ADDRESS_H Registers
        22. 3.10.3.22  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_1_CONTROL Registers
        23. 3.10.3.23  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_1_PERMISSION_0 Registers
        24. 3.10.3.24  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_1_PERMISSION_1 Registers
        25. 3.10.3.25  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_1_PERMISSION_2 Registers
        26. 3.10.3.26  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_1_START_ADDRESS_L Registers
        27. 3.10.3.27  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_1_START_ADDRESS_H Registers
        28. 3.10.3.28  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_1_END_ADDRESS_L Registers
        29. 3.10.3.29  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_1_END_ADDRESS_H Registers
        30. 3.10.3.30  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_2_CONTROL Registers
        31. 3.10.3.31  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_2_PERMISSION_0 Registers
        32. 3.10.3.32  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_2_PERMISSION_1 Registers
        33. 3.10.3.33  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_2_PERMISSION_2 Registers
        34. 3.10.3.34  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_2_START_ADDRESS_L Registers
        35. 3.10.3.35  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_2_START_ADDRESS_H Registers
        36. 3.10.3.36  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_2_END_ADDRESS_L Registers
        37. 3.10.3.37  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_2_END_ADDRESS_H Registers
        38. 3.10.3.38  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_3_CONTROL Registers
        39. 3.10.3.39  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_3_PERMISSION_0 Registers
        40. 3.10.3.40  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_3_PERMISSION_1 Registers
        41. 3.10.3.41  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_3_PERMISSION_2 Registers
        42. 3.10.3.42  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_3_START_ADDRESS_L Registers
        43. 3.10.3.43  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_3_START_ADDRESS_H Registers
        44. 3.10.3.44  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_3_END_ADDRESS_L Registers
        45. 3.10.3.45  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_3_END_ADDRESS_H Registers
        46. 3.10.3.46  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_4_CONTROL Registers
        47. 3.10.3.47  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_4_PERMISSION_0 Registers
        48. 3.10.3.48  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_4_PERMISSION_1 Registers
        49. 3.10.3.49  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_4_PERMISSION_2 Registers
        50. 3.10.3.50  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_4_START_ADDRESS_L Registers
        51. 3.10.3.51  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_4_START_ADDRESS_H Registers
        52. 3.10.3.52  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_4_END_ADDRESS_L Registers
        53. 3.10.3.53  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_4_END_ADDRESS_H Registers
        54. 3.10.3.54  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_5_CONTROL Registers
        55. 3.10.3.55  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_5_PERMISSION_0 Registers
        56. 3.10.3.56  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_5_PERMISSION_1 Registers
        57. 3.10.3.57  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_5_PERMISSION_2 Registers
        58. 3.10.3.58  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_5_START_ADDRESS_L Registers
        59. 3.10.3.59  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_5_START_ADDRESS_H Registers
        60. 3.10.3.60  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_5_END_ADDRESS_L Registers
        61. 3.10.3.61  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_5_END_ADDRESS_H Registers
        62. 3.10.3.62  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_6_CONTROL Registers
        63. 3.10.3.63  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_6_PERMISSION_0 Registers
        64. 3.10.3.64  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_6_PERMISSION_1 Registers
        65. 3.10.3.65  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_6_PERMISSION_2 Registers
        66. 3.10.3.66  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_6_START_ADDRESS_L Registers
        67. 3.10.3.67  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_6_START_ADDRESS_H Registers
        68. 3.10.3.68  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_6_END_ADDRESS_L Registers
        69. 3.10.3.69  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_6_END_ADDRESS_H Registers
        70. 3.10.3.70  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_7_CONTROL Registers
        71. 3.10.3.71  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_7_PERMISSION_0 Registers
        72. 3.10.3.72  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_7_PERMISSION_1 Registers
        73. 3.10.3.73  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_7_PERMISSION_2 Registers
        74. 3.10.3.74  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_7_START_ADDRESS_L Registers
        75. 3.10.3.75  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_7_START_ADDRESS_H Registers
        76. 3.10.3.76  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_7_END_ADDRESS_L Registers
        77. 3.10.3.77  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP0_32B_CLK4_L0_FW_REGION_7_END_ADDRESS_H Registers
        78. 3.10.3.78  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_0_CONTROL Registers
        79. 3.10.3.79  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_0_PERMISSION_0 Registers
        80. 3.10.3.80  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_0_PERMISSION_1 Registers
        81. 3.10.3.81  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_0_PERMISSION_2 Registers
        82. 3.10.3.82  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_0_START_ADDRESS_L Registers
        83. 3.10.3.83  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_0_START_ADDRESS_H Registers
        84. 3.10.3.84  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_0_END_ADDRESS_L Registers
        85. 3.10.3.85  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_0_END_ADDRESS_H Registers
        86. 3.10.3.86  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_1_CONTROL Registers
        87. 3.10.3.87  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_1_PERMISSION_0 Registers
        88. 3.10.3.88  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_1_PERMISSION_1 Registers
        89. 3.10.3.89  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_1_PERMISSION_2 Registers
        90. 3.10.3.90  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_1_START_ADDRESS_L Registers
        91. 3.10.3.91  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_1_START_ADDRESS_H Registers
        92. 3.10.3.92  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_1_END_ADDRESS_L Registers
        93. 3.10.3.93  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_1_END_ADDRESS_H Registers
        94. 3.10.3.94  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_2_CONTROL Registers
        95. 3.10.3.95  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_2_PERMISSION_0 Registers
        96. 3.10.3.96  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_2_PERMISSION_1 Registers
        97. 3.10.3.97  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_2_PERMISSION_2 Registers
        98. 3.10.3.98  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_2_START_ADDRESS_L Registers
        99. 3.10.3.99  FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_2_START_ADDRESS_H Registers
        100. 3.10.3.100 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_2_END_ADDRESS_L Registers
        101. 3.10.3.101 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_2_END_ADDRESS_H Registers
        102. 3.10.3.102 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_3_CONTROL Registers
        103. 3.10.3.103 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_3_PERMISSION_0 Registers
        104. 3.10.3.104 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_3_PERMISSION_1 Registers
        105. 3.10.3.105 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_3_PERMISSION_2 Registers
        106. 3.10.3.106 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_3_START_ADDRESS_L Registers
        107. 3.10.3.107 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_3_START_ADDRESS_H Registers
        108. 3.10.3.108 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_3_END_ADDRESS_L Registers
        109. 3.10.3.109 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_3_END_ADDRESS_H Registers
        110. 3.10.3.110 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_4_CONTROL Registers
        111. 3.10.3.111 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_4_PERMISSION_0 Registers
        112. 3.10.3.112 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_4_PERMISSION_1 Registers
        113. 3.10.3.113 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_4_PERMISSION_2 Registers
        114. 3.10.3.114 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_4_START_ADDRESS_L Registers
        115. 3.10.3.115 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_4_START_ADDRESS_H Registers
        116. 3.10.3.116 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_4_END_ADDRESS_L Registers
        117. 3.10.3.117 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_4_END_ADDRESS_H Registers
        118. 3.10.3.118 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_5_CONTROL Registers
        119. 3.10.3.119 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_5_PERMISSION_0 Registers
        120. 3.10.3.120 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_5_PERMISSION_1 Registers
        121. 3.10.3.121 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_5_PERMISSION_2 Registers
        122. 3.10.3.122 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_5_START_ADDRESS_L Registers
        123. 3.10.3.123 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_5_START_ADDRESS_H Registers
        124. 3.10.3.124 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_5_END_ADDRESS_L Registers
        125. 3.10.3.125 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_5_END_ADDRESS_H Registers
        126. 3.10.3.126 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_6_CONTROL Registers
        127. 3.10.3.127 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_6_PERMISSION_0 Registers
        128. 3.10.3.128 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_6_PERMISSION_1 Registers
        129. 3.10.3.129 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_6_PERMISSION_2 Registers
        130. 3.10.3.130 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_6_START_ADDRESS_L Registers
        131. 3.10.3.131 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_6_START_ADDRESS_H Registers
        132. 3.10.3.132 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_6_END_ADDRESS_L Registers
        133. 3.10.3.133 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_6_END_ADDRESS_H Registers
        134. 3.10.3.134 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_7_CONTROL Registers
        135. 3.10.3.135 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_7_PERMISSION_0 Registers
        136. 3.10.3.136 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_7_PERMISSION_1 Registers
        137. 3.10.3.137 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_7_PERMISSION_2 Registers
        138. 3.10.3.138 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_7_START_ADDRESS_L Registers
        139. 3.10.3.139 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_7_START_ADDRESS_H Registers
        140. 3.10.3.140 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_7_END_ADDRESS_L Registers
        141. 3.10.3.141 FW_REGS_CBASS_INFRA_BR_SCRP_32B_MOTOR_TO_SCRP_32B_MISCIO_L0_FW_REGION_7_END_ADDRESS_H Registers
        142. 3.10.3.142 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_0_CPU0_PMST_ISC_REGION_0_CONTROL Registers
        143. 3.10.3.143 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_0_CPU0_PMST_ISC_REGION_0_START_ADDRESS_L Registers
        144. 3.10.3.144 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_0_CPU0_PMST_ISC_REGION_0_START_ADDRESS_H Registers
        145. 3.10.3.145 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_0_CPU0_PMST_ISC_REGION_0_END_ADDRESS_L Registers
        146. 3.10.3.146 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_0_CPU0_PMST_ISC_REGION_0_END_ADDRESS_H Registers
        147. 3.10.3.147 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_0_CPU0_PMST_ISC_REGION_DEF_CONTROL Registers
        148. 3.10.3.148 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_0_CPU1_PMST_ISC_REGION_0_CONTROL Registers
        149. 3.10.3.149 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_0_CPU1_PMST_ISC_REGION_0_START_ADDRESS_L Registers
        150. 3.10.3.150 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_0_CPU1_PMST_ISC_REGION_0_START_ADDRESS_H Registers
        151. 3.10.3.151 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_0_CPU1_PMST_ISC_REGION_0_END_ADDRESS_L Registers
        152. 3.10.3.152 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_0_CPU1_PMST_ISC_REGION_0_END_ADDRESS_H Registers
        153. 3.10.3.153 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_0_CPU1_PMST_ISC_REGION_DEF_CONTROL Registers
        154. 3.10.3.154 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_1_CPU0_PMST_ISC_REGION_0_CONTROL Registers
        155. 3.10.3.155 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_1_CPU0_PMST_ISC_REGION_0_START_ADDRESS_L Registers
        156. 3.10.3.156 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_1_CPU0_PMST_ISC_REGION_0_START_ADDRESS_H Registers
        157. 3.10.3.157 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_1_CPU0_PMST_ISC_REGION_0_END_ADDRESS_L Registers
        158. 3.10.3.158 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_1_CPU0_PMST_ISC_REGION_0_END_ADDRESS_H Registers
        159. 3.10.3.159 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_1_CPU0_PMST_ISC_REGION_DEF_CONTROL Registers
        160. 3.10.3.160 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_1_CPU1_PMST_ISC_REGION_0_CONTROL Registers
        161. 3.10.3.161 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_1_CPU1_PMST_ISC_REGION_0_START_ADDRESS_L Registers
        162. 3.10.3.162 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_1_CPU1_PMST_ISC_REGION_0_START_ADDRESS_H Registers
        163. 3.10.3.163 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_1_CPU1_PMST_ISC_REGION_0_END_ADDRESS_L Registers
        164. 3.10.3.164 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_1_CPU1_PMST_ISC_REGION_0_END_ADDRESS_H Registers
        165. 3.10.3.165 ISC_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_1_CPU1_PMST_ISC_REGION_DEF_CONTROL Registers
        166. 3.10.3.166 GLB_REGS_CBASS_INFRA_PID Registers
        167. 3.10.3.167 GLB_REGS_CBASS_INFRA_DESTINATION_ID Registers
        168. 3.10.3.168 GLB_REGS_CBASS_INFRA_EXCEPTION_LOGGING_CONTROL Registers
        169. 3.10.3.169 GLB_REGS_CBASS_INFRA_EXCEPTION_LOGGING_HEADER0 Registers
        170. 3.10.3.170 GLB_REGS_CBASS_INFRA_EXCEPTION_LOGGING_HEADER1 Registers
        171. 3.10.3.171 GLB_REGS_CBASS_INFRA_EXCEPTION_LOGGING_DATA0 Registers
        172. 3.10.3.172 GLB_REGS_CBASS_INFRA_EXCEPTION_LOGGING_DATA1 Registers
        173. 3.10.3.173 GLB_REGS_CBASS_INFRA_EXCEPTION_LOGGING_DATA2 Registers
        174. 3.10.3.174 GLB_REGS_CBASS_INFRA_EXCEPTION_LOGGING_DATA3 Registers
        175. 3.10.3.175 GLB_REGS_CBASS_INFRA_EXCEPTION_PEND_SET Registers
        176. 3.10.3.176 GLB_REGS_CBASS_INFRA_EXCEPTION_PEND_CLEAR Registers
        177. 3.10.3.177 QOS_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_0_CPU0_PMST_MAP0 Registers
        178. 3.10.3.178 QOS_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_0_CPU1_PMST_MAP0 Registers
        179. 3.10.3.179 QOS_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_1_CPU0_PMST_MAP0 Registers
        180. 3.10.3.180 QOS_REGS_CBASS_INFRA_IPULSAR_LITE_MAIN_1_CPU1_PMST_MAP0 Registers
        181. 3.10.3.181 Access Table
      4. 3.10.4 CBASS_DBG Registers
        1. 3.10.4.1  ERR_REGS_CBASS_DBG_PID Registers
        2. 3.10.4.2  ERR_REGS_CBASS_DBG_DESTINATION_ID Registers
        3. 3.10.4.3  ERR_REGS_CBASS_DBG_EXCEPTION_LOGGING_HEADER0 Registers
        4. 3.10.4.4  ERR_REGS_CBASS_DBG_EXCEPTION_LOGGING_HEADER1 Registers
        5. 3.10.4.5  ERR_REGS_CBASS_DBG_EXCEPTION_LOGGING_DATA0 Registers
        6. 3.10.4.6  ERR_REGS_CBASS_DBG_EXCEPTION_LOGGING_DATA1 Registers
        7. 3.10.4.7  ERR_REGS_CBASS_DBG_EXCEPTION_LOGGING_DATA2 Registers
        8. 3.10.4.8  ERR_REGS_CBASS_DBG_EXCEPTION_LOGGING_DATA3 Registers
        9. 3.10.4.9  ERR_REGS_CBASS_DBG_ERR_INTR_RAW_STAT Registers
        10. 3.10.4.10 ERR_REGS_CBASS_DBG_ERR_INTR_ENABLED_STAT Registers
        11. 3.10.4.11 ERR_REGS_CBASS_DBG_ERR_INTR_ENABLE_SET Registers
        12. 3.10.4.12 ERR_REGS_CBASS_DBG_ERR_INTR_ENABLE_CLR Registers
        13. 3.10.4.13 ERR_REGS_CBASS_DBG_EOI Registers
        14. 3.10.4.14 Access Table
  6. Initialization
    1. 4.1 Initialization Overview
      1. 4.1.1 ROM Code Overview
      2. 4.1.2 Bootloader Modes
      3. 4.1.3 Boot Terminology
    2. 4.2 Boot Process
      1. 4.2.1 Public ROM Code Architecture
        1. 4.2.1.1 Main Module
        2. 4.2.1.2 X509 Module
        3. 4.2.1.3 Buffer Manager Module
        4. 4.2.1.4 Log and Trace Module
        5. 4.2.1.5 System Module
        6. 4.2.1.6 Protocol Module
        7. 4.2.1.7 Driver Module
      2. 4.2.2 DMSC ROM Description
      3. 4.2.3 Boot Process Flow
    3. 4.3 Boot Mode Pins
      1. 4.3.1 BOOTMODE Pin Mapping
        1. 4.3.1.1 Primary Boot Mode Selection and Configuration
        2. 4.3.1.2 Backup Boot Mode Selection and Configuration
    4. 4.4 Boot Modes
      1. 4.4.1  OSPI, xSPI, QSPI, SPI Boot
        1. 4.4.1.1 OSPI Boot
          1. 4.4.1.1.1 OSPI Bootloader Operation
            1. 4.4.1.1.1.1 OSPI Initialization Process
            2. 4.4.1.1.1.2 OSPI Loading Process
        2. 4.4.1.2 xSPI Boot
          1. 4.4.1.2.1 xSPI Bootloader Operation
        3. 4.4.1.3 QSPI Boot
          1. 4.4.1.3.1 QSPI Bootloader Operation
            1. 4.4.1.3.1.1 QSPI Initialization Process
            2. 4.4.1.3.1.2 QSPI Loading Process
        4. 4.4.1.4 SPI Boot
          1. 4.4.1.4.1 SPI Bootloader Operation
            1. 4.4.1.4.1.1 SPI Initialization Process
            2. 4.4.1.4.1.2 SPI Loading Process
      2. 4.4.2  I2C Boot
        1. 4.4.2.1 I2C Bootloader Operation
          1. 4.4.2.1.1 I2C Initialization Process
            1. 4.4.2.1.1.1 Block Size
            2. 4.4.2.1.1.2 Addressing
          2. 4.4.2.1.2 I2C Loading Process
            1. 4.4.2.1.2.1 Loading a Boot Image From EEPROM
      3. 4.4.3  SD Card Boot
        1. 4.4.3.1 SD Card Bootloader Operation
      4. 4.4.4  eMMC Boot
        1. 4.4.4.1 eMMC Bootloader Operation
      5. 4.4.5  Ethernet Boot
        1. 4.4.5.1 Ethernet Bootloader Operation
          1. 4.4.5.1.1 Ethernet Initialization Process
          2. 4.4.5.1.2 Ethernet Loading Process
            1. 4.4.5.1.2.1 Ethernet Boot Data Formats
              1. 4.4.5.1.2.1.1 Limitations
              2. 4.4.5.1.2.1.2 BOOTP Request
                1. 4.4.5.1.2.1.2.1 MAC Header (DIX)
                2. 4.4.5.1.2.1.2.2 IPv4 Header
                3. 4.4.5.1.2.1.2.3 UDP Header
                4. 4.4.5.1.2.1.2.4 BOOTP Payload
                5. 4.4.5.1.2.1.2.5 TFTP
          3. 4.4.5.1.3 Ethernet Hand Over Process
      6. 4.4.6  USB Boot
        1. 4.4.6.1 USB Bootloader Operation
          1. 4.4.6.1.1 USB-Specific Attributes
            1. 4.4.6.1.1.1 DFU Device Mode
        2. 4.4.6.2 Limitations for USB DFU and PCIe boot modes
      7. 4.4.7  PCIe Boot
        1. 4.4.7.1 PCIe Bootloader Operation
          1. 4.4.7.1.1 PCIe Initialization Process
          2. 4.4.7.1.2 PCIe Loading Process
        2. 4.4.7.2 Limitations for USB DFU and PCIe boot modes
      8. 4.4.8  UART Boot
        1. 4.4.8.1 UART Bootloader Operation
          1. 4.4.8.1.1 Initialization Process
          2. 4.4.8.1.2 UART Loading Process
            1. 4.4.8.1.2.1 UART XMODEM
          3. 4.4.8.1.3 UART Hand-Over Process
      9. 4.4.9  GPMC NOR Boot
        1. 4.4.9.1 GPMC NOR Bootloader Operation
          1. 4.4.9.1.1 GPMC NOR Initialization Process
          2. 4.4.9.1.2 GPMC NOR Loading Process
      10. 4.4.10 GPMC NAND Boot
        1. 4.4.10.1 GPMC NAND Bootloader Operation
      11. 4.4.11 No boot/Development boot
    5. 4.5 PLL Configuration
    6. 4.6 Boot Parameter Tables
      1. 4.6.1  Common Header
      2. 4.6.2  PLL Setup
      3. 4.6.3  OSPI/QSPI/SPI Boot Parameter Table
      4. 4.6.4  UART Boot Parameter Table
      5. 4.6.5  PCIe Boot Parameter Table
      6. 4.6.6  I2C Boot Parameter Table
      7. 4.6.7  MMCSD/eMMC Boot Parameter Table
      8. 4.6.8  Ethernet Boot Parameter Table
      9. 4.6.9  xSPI Boot Parameter Table
      10. 4.6.10 USB DFU Boot Parameter Table
      11. 4.6.11 USB MSC Boot Parameter Table
      12. 4.6.12 GPMC NOR Boot Parameter Table
      13. 4.6.13 GPMC NAND Boot Parameter Table
    7. 4.7 Boot Image Format
      1. 4.7.1 Overall Structure
      2. 4.7.2 X.509 Certificate
      3. 4.7.3 Organizational Identifier (OID)
      4. 4.7.4 X.509 Extensions Specific to Boot
        1. 4.7.4.1 Boot Info (OID 1.3.6.1.4.1.294.1.1)
        2. 4.7.4.2 Image Integrity (OID 1.3.6.1.4.1.294.1.2)
      5. 4.7.5 Extended Boot Info Extension
        1. 4.7.5.1 Impact on HS Device
        2. 4.7.5.2 Extended Boot Info Details
        3. 4.7.5.3 Certificate / Component Types
        4. 4.7.5.4 Extended Boot Encryption Info
        5. 4.7.5.5 Component Ordering
        6. 4.7.5.6 Memory Load Sections Overlap with Executable Components
        7. 4.7.5.7 Device Type and Extended Boot Extension
      6. 4.7.6 Generating X.509 Certificates
        1. 4.7.6.1 Key Generation
          1. 4.7.6.1.1 Degenerate RSA Keys
        2. 4.7.6.2 Configuration Script
        3. 4.7.6.3 Image Data
    8. 4.8 Boot Memory Maps
      1. 4.8.1 Memory Layout/MPU
      2. 4.8.2 Global Memory Addresses Used by ROM Code
  7. Device Configuration
    1. 5.1 Control Module (CTRL_MMR)
      1. 5.1.1 CTRL_MMR0 and PADCFG_CTRL0_CFG0
        1. 5.1.1.1 CTRL_MMR0 and PADCFG_CTRL0_CFG0 Overview
        2. 5.1.1.2 CTRL_MMR0 and PADCFG_CTRL0_CFG0 Integration
        3. 5.1.1.3 CTRL_MMR0 and PADCFG_CTRL0_CFG0 Functional Description
          1. 5.1.1.3.1 Description for CTRL_MMR0 and PADCFG_CTRL0_CFG0 Register Types
            1. 5.1.1.3.1.1 Pad Configuration Registers
            2. 5.1.1.3.1.2 Kick Protection Registers
            3. 5.1.1.3.1.3 Proxy Addressing Registers
            4. 5.1.1.3.1.4 CTRL_MMR0 Module Interrupts
            5. 5.1.1.3.1.5 EHRPWM/EQEP Control and Status Registers
            6. 5.1.1.3.1.6 Clock Muxing and Division Registers
            7. 5.1.1.3.1.7 Ethernet Port Operation Control Registers
            8. 5.1.1.3.1.8 DDRSS Dynamic Frequency Change Registers
            9. 5.1.1.3.1.9 Device Feature Registers
        4. 5.1.1.4 Pad Configuration Registers
          1. 5.1.1.4.1 Pad Configuration Register Functional Description
          2. 5.1.1.4.2 Pad Configuration Ball Names
          3. 5.1.1.4.3 PADCFG_CTRL0_CFG0 Registers
        5. 5.1.1.5 CTRL_MMR0 Registers
        6. 5.1.1.6 MAIN_SEC_MMR0_CFG2 Registers
        7. 5.1.1.7 MAIN_SEC_MMR0_CFG0 Registers
      2. 5.1.2 MCU_CTRL_MMR0 and MCU_PADCFG_CTRL0_CFG0
        1. 5.1.2.1 MCU_CTRL_MMR0 and MCU_PADCFG_CTRL0_CFG0 Overview
        2. 5.1.2.2 MCU_CTRL_MMR0 and MCU_PADCFG_CTRL0_CFG0 Integration
        3. 5.1.2.3 MCU_CTRL_MMR0 and MCU_PADCFG_CTRL0_CFG0 Functional Description
          1. 5.1.2.3.1 Description for MCU_CTRL_MMR0 and MCU_PADCFG_CTRL0_CFG0 Register Types
            1. 5.1.2.3.1.1 Pad Configuration Registers
            2. 5.1.2.3.1.2 Kick Protection Registers
            3. 5.1.2.3.1.3 MCU_CTRL_MMR0 and MCU_PADCFG_CTRL0_CFG0 Module Interrupts
            4. 5.1.2.3.1.4 Clock Muxing and Division Registers
            5. 5.1.2.3.1.5 I/O Debounce Control Registers
            6. 5.1.2.3.1.6 PRG Related Registers
            7. 5.1.2.3.1.7 POK Module Registers
        4. 5.1.2.4 MCU_PADCFG_CTRL0_CFG0 Registers
        5. 5.1.2.5 MCU_CTRL_MMR0 Registers
    2. 5.2 Power
      1. 5.2.1 Power Management Overview
      2. 5.2.2 Power Management Subsystems
        1. 5.2.2.1 Power System Modules
          1. 5.2.2.1.1 Power OK (POK) Modules
            1. 5.2.2.1.1.1 Configuration Registers
          2. 5.2.2.1.2 Power on Reset (POR) Module
            1. 5.2.2.1.2.1 POR Overview
            2. 5.2.2.1.2.2 POR Integration
          3. 5.2.2.1.3 PoR/Reset Generator (PRG) Modules
            1. 5.2.2.1.3.1 PRG Overview
          4. 5.2.2.1.4 Power Glitch Detect (PGD) Modules
          5. 5.2.2.1.5 Voltage and Thermal Manager (VTM)
            1. 5.2.2.1.5.1 VTM Overview
              1. 5.2.2.1.5.1.1 VTM Features
              2. 5.2.2.1.5.1.2 VTM Not Supported Features
            2. 5.2.2.1.5.2 VTM Functional Description
              1. 5.2.2.1.5.2.1 VTM Temperature Status and Thermal Management
                1. 5.2.2.1.5.2.1.1 10-bit Temperature Values Versus Temperature
          6. 5.2.2.1.6 Integrated Low-dropout Regulator (LDO)
            1. 5.2.2.1.6.1 SDIO LDO Overview
        2. 5.2.2.2 Power Control Modules
          1. 5.2.2.2.1 Power Sleep Controller and Local Power Sleep Controllers
            1. 5.2.2.2.1.1 PSC Terminology
            2. 5.2.2.2.1.2 PSC Features
            3. 5.2.2.2.1.3 PSC: Device Power-Management Layout
              1. 5.2.2.2.1.3.1 Device Power-Management Layout
            4. 5.2.2.2.1.4 PSC: Executing State Transitions
              1. 5.2.2.2.1.4.1 Power Domain State Transitions
              2. 5.2.2.2.1.4.2 Module State Transitions
              3. 5.2.2.2.1.4.3 Concurrent Power Domain/Module State Transitions
              4. 5.2.2.2.1.4.4 Recommendations for Power Domain/Module Sequencing
            5. 5.2.2.2.1.5 LPSC Dependencies Overview
          2. 5.2.2.2.2 DMSC-L Power Management Overview
            1. 5.2.2.2.2.1 DMSC Power Management Features
      3. 5.2.3 Device Power States
        1. 5.2.3.1 Overview of Device Low-Power Modes
        2. 5.2.3.2 Device Power States and Transitions
      4. 5.2.4 Thermal Management
      5. 5.2.5 Power Registers
        1. 5.2.5.1 VTM Registers
        2. 5.2.5.2 PSC Registers
    3. 5.3 Reset
      1. 5.3.1 Overview
        1. 5.3.1.1 MAIN Domain Supported Resets
        2. 5.3.1.2 MCU Domain Supported Resets
        3. 5.3.1.3 Reset Terminology
        4. 5.3.1.4 Reset Architecture
      2. 5.3.2 Reset Sources
      3. 5.3.3 Reset Status
        1. 5.3.3.1 Reset Source Status Registers
        2. 5.3.3.2 MCU_RESETSTATz Status Pin
        3. 5.3.3.3 MCU_SAFETY_ERRORn Status Pin
        4. 5.3.3.4 MAIN_RESETSTATz Status Pin
        5. 5.3.3.5 MAIN_PORz_OUT Status Pin
      4. 5.3.4 Reset Controls
        1. 5.3.4.1 Reset Control Registers
        2. 5.3.4.2 Reset Isolation
      5. 5.3.5 Reset Details
        1. 5.3.5.1 POR Resets
          1. 5.3.5.1.1 SW_MAIN_PORz Reset
          2. 5.3.5.1.2 MCU_PORz Reset
        2. 5.3.5.2 Warm Resets
          1. 5.3.5.2.1 MAIN Domain Warm Reset Sequence Flow
          2. 5.3.5.2.2 MAIN_RESETz_REQ Reset
          3. 5.3.5.2.3 SW_MAIN_WARMRSTz Reset
          4. 5.3.5.2.4 MCU_RESETz Reset
          5. 5.3.5.2.5 SW_MCU_WARMRSTz Reset
        3. 5.3.5.3 DMSC-L Resets
          1. 5.3.5.3.1 DMSC_COLD_OUT_RST_n MAIN Reset
          2. 5.3.5.3.2 DMSC_WARM_OUT_RST_n MAIN Reset
          3. 5.3.5.3.3 DMSC_COLD_OUT_RST_n MCU Reset
        4. 5.3.5.4 VTM Thermal Alert Reset
        5. 5.3.5.5 MAIN ESM_ERRORz Reset
        6. 5.3.5.6 MCU ESM_ERRORz Reset
        7. 5.3.5.7 Reset - High Heating Value (HHV)
    4. 5.4 Clocking
      1. 5.4.1 Overview
      2. 5.4.2 Clock Inputs
        1. 5.4.2.1 Overview
        2. 5.4.2.2 Mapping of Clock Inputs
      3. 5.4.3 Clock Outputs
        1. 5.4.3.1 Observation Clock Pins
          1. 5.4.3.1.1 MCU_OBSCLK0 Pin
          2. 5.4.3.1.2 1800
          3. 5.4.3.1.3 OBSCLK0 Pin
        2. 5.4.3.2 System Clock Pins
          1. 5.4.3.2.1 MCU_SYSCLKOUT0
          2. 5.4.3.2.2 SYSCLKOUT0
      4. 5.4.4 Device Oscillators
        1. 5.4.4.1 Device Oscillators Integration
          1. 5.4.4.1.1 Oscillator with External Crystal
          2. 5.4.4.1.2 Internal RC Oscillator
        2. 5.4.4.2 Oscillator Clock Loss Detection
      5. 5.4.5 PLLs
        1. 5.4.5.1 MCU Domain PLL Overview
        2. 5.4.5.2 MAIN Domain PLLs Overview
        3. 5.4.5.3 PLL Reference Clocks
          1. 5.4.5.3.1 PLLs in MCU Domain
          2. 5.4.5.3.2 PLLs in MAIN Domain
        4. 5.4.5.4 Generic PLL Overview
          1. 5.4.5.4.1 PLLs Output Clocks Parameters
            1. 5.4.5.4.1.1 PLLs Input Clocks
            2. 5.4.5.4.1.2 PLL Output Clocks
              1. 5.4.5.4.1.2.1 PLLTS16FFCLAFRACF Type Output Clocks
              2. 5.4.5.4.1.2.2 PLL Lock
              3. 5.4.5.4.1.2.3 HSDIVIDER
              4. 5.4.5.4.1.2.4 ICG Module
              5. 5.4.5.4.1.2.5 PLL Power Down
              6. 5.4.5.4.1.2.6 PLL Calibration
          2. 5.4.5.4.2 PLL Spread Spectrum Modulation Module
            1. 5.4.5.4.2.1 Definition of SSMOD
            2. 5.4.5.4.2.2 SSMOD Configuration
        5. 5.4.5.5 PLLs Device-Specific Information
          1. 5.4.5.5.1 SSMOD Related Bitfields Table
          2. 5.4.5.5.2 Clock Synthesis Inputs to the PLLs
          3. 5.4.5.5.3 Clock Output Parameter
          4. 5.4.5.5.4 Calibration Related Bitfields
        6. 5.4.5.6 PLL and PLL Controller Connection
        7. 5.4.5.7 PLL, PLLCTRL, and HSDIV Controllers Programming Guide
          1. 5.4.5.7.1 PLL Initialization
            1. 5.4.5.7.1.1 Kick Protection Mechanism
            2. 5.4.5.7.1.2 PLL Initialization to PLL Mode
            3. 5.4.5.7.1.3 PLL Programming Requirements
          2. 5.4.5.7.2 HSDIV PLL Programming
          3. 5.4.5.7.3 PLL Controllers Programming - Dividers PLLDIVn and GO Operation
            1. 5.4.5.7.3.1 GO Operation
            2. 5.4.5.7.3.2 Software Steps to Modify PLLDIV Ratios
          4. 5.4.5.7.4 Entire Sequence for Programming PLLCTRL, HSDIV, and PLL
      6. 5.4.6 Clocking Registers
        1. 5.4.6.1 PLLCTRL0 Registers
        2. 5.4.6.2 PLL0_CFG Registers
        3. 5.4.6.3 MCU_PLL0_CFG Registers
  8. Processors and Accelerators
    1. 6.1 Arm Cortex-A53 Subsystem (A53SS)
      1. 6.1.1 A53SS Overview
        1. 6.1.1.1 A53SS Introduction
        2. 6.1.1.2 A53SS Features
      2. 6.1.2 A53SS Integration
      3. 6.1.3 A53SS Functional Description
        1. 6.1.3.1  A53SS Block Diagram
        2. 6.1.3.2  Arm Cortex-A53 Cluster
        3. 6.1.3.3  A53SS Interfaces and Async Bridges
        4. 6.1.3.4  A53SS Interrupts
          1. 6.1.3.4.1 A53SS Interrupt Inputs
          2. 6.1.3.4.2 A53SS Interrupt Outputs
        5. 6.1.3.5  A53SS Power Management and Clocking
          1. 6.1.3.5.1 A53SS Power Management
          2. 6.1.3.5.2 A53SS Clocking
        6. 6.1.3.6  A53SS Debug
        7. 6.1.3.7  A53SS Global and Debug Timestamps
        8. 6.1.3.8  A53SS Watchdog
        9. 6.1.3.9  A53SS Functional Safety - ECC Error Injection Support
          1. 6.1.3.9.1 A53 ECC Aggregators During Low Power States
          2. 6.1.3.9.2 Auto-initialization of Memories
          3. 6.1.3.9.3 A53 SRAM Safety
          4. 6.1.3.9.4 A53 SRAM ECC Aggregator Configurations
        10. 6.1.3.10 A53SS Boot
        11. 6.1.3.11 A53SS Interprocessor Communication
      4. 6.1.4 A53SS Registers
        1. 6.1.4.1 A53SS Registers
    2. 6.2 Arm Cortex R5F Subsystem (R5FSS)
      1. 6.2.1 R5FSS Overview
        1. 6.2.1.1 R5FSS Features
        2. 6.2.1.2 R5FSS Not Supported Features
      2. 6.2.2 R5FSS Integration
        1. 6.2.2.1 R5FSS Integration in MAIN Domain
      3. 6.2.3 R5FSS Functional Description
        1. 6.2.3.1  R5FSS Block Diagram
        2. 6.2.3.2  R5FSS Cortex-R5F Core
          1. 6.2.3.2.1 L1 Caches
          2. 6.2.3.2.2 Tightly-Coupled Memories (TCMs)
          3. 6.2.3.2.3 R5FSS Special Signals
        3. 6.2.3.3  R5FSS Interfaces
          1. 6.2.3.3.1 Initiator Interfaces
          2. 6.2.3.3.2 Target Interfaces
        4. 6.2.3.4  R5FSS Power, Clocking and Reset
          1. 6.2.3.4.1 R5FSS Power
          2. 6.2.3.4.2 R5FSS Clocking
          3. 6.2.3.4.3 R5FSS Reset
        5. 6.2.3.5  R5FSS Vectored Interrupt Manager (VIM)
          1. 6.2.3.5.1 VIM Overview
          2. 6.2.3.5.2 VIM Interrupt Inputs
          3. 6.2.3.5.3 VIM Interrupt Outputs
          4. 6.2.3.5.4 VIM Interrupt Vector Table (VIM RAM)
          5. 6.2.3.5.5 VIM Interrupt Prioritization
          6. 6.2.3.5.6 VIM ECC Support
          7. 6.2.3.5.7 VIM IDLE State
          8. 6.2.3.5.8 VIM Interrupt Handling
            1. 6.2.3.5.8.1 Servicing IRQ Through Vector Interface
            2. 6.2.3.5.8.2 Servicing IRQ Through MMR Interface
            3. 6.2.3.5.8.3 Servicing IRQ Through MMR Interface (Alternative)
            4. 6.2.3.5.8.4 Servicing FIQ
            5. 6.2.3.5.8.5 Servicing FIQ (Alternative)
        6. 6.2.3.6  R5FSS Region Address Translation (RAT)
          1. 6.2.3.6.1 R5FSS Usage
          2. 6.2.3.6.2 RAT Function
          3. 6.2.3.6.3 How to use RAT Block in R5
          4. 6.2.3.6.4 Example of Using RAT to Access Full 36b SoC Memory Map
        7. 6.2.3.7  R5FSS ECC Support
        8. 6.2.3.8  R5FSS Memory View
        9. 6.2.3.9  R5FSS Interrupts
        10. 6.2.3.10 R5FSS Debug and Trace
        11. 6.2.3.11 R5FSS Boot Options
        12. 6.2.3.12 R5FSS Core Memory ECC Events
      4. 6.2.4 R5FSS Registers
        1. 6.2.4.1 R5FSS_MPIDR Register
        2. 6.2.4.2 R5FSS_CPU0_ECC_AGGR_CFG_REGS Registers
        3. 6.2.4.3 R5FSS_CPU1_ECC_AGGR_CFG_REGS Registers
        4. 6.2.4.4 R5FSS_VIM Registers
        5. 6.2.4.5 R5FSS_RAT Registers
        6. 6.2.4.6 R5FSS_EVNT_BUS_VBUSP_MMRS Registers
    3. 6.3 Cortex-M4F Subsystem (MCU_M4FSS)
      1. 6.3.1 MCU_M4FSS Overview
        1. 6.3.1.1 MCU_M4FSS Features
        2. 6.3.1.2 MCU_M4FSS Not Supported Features
      2. 6.3.2 MCU_M4FSS Integration
      3. 6.3.3 MCU_M4FSS Functional Description
        1. 6.3.3.1  MCU_M4FSS Block Diagram
        2. 6.3.3.2  MCU_M4FSS Processor
        3. 6.3.3.3  MCU_M4FSS Internal RAMs
        4. 6.3.3.4  MCU_M4FSS Interfaces
        5. 6.3.3.5  MCU_M4FSS Power, Clocking and Reset
          1. 6.3.3.5.1 MCU_M4FSS Power
          2. 6.3.3.5.2 MCU_M4FSS Clocking
          3. 6.3.3.5.3 MCU_M4FSS Reset
        6. 6.3.3.6  MCU_M4FSS Memory View
        7. 6.3.3.7  MCU_M4FSS RAT
          1. 6.3.3.7.1 Why RAT is needed for M4F
          2. 6.3.3.7.2 RAT Function
          3. 6.3.3.7.3 How to use RAT Block in Blazar M4F
        8. 6.3.3.8  MCU_M4FSS ECC Support
        9. 6.3.3.9  MCU_M4FSS Interrupts
        10. 6.3.3.10 MCU_M4FSS Debug and Trace
        11. 6.3.3.11 MCU_M4FSS Time Sync
        12. 6.3.3.12 MCU_M4FSS SysTick
        13. 6.3.3.13 MCU_M4FSS Initialization
      4. 6.3.4 MCU_M4FSS Registers
        1. 6.3.4.1 M4FSS_RAT_0 Registers
          1. 6.3.4.1.1  RAT__CFG__MMRS_M4FSS_RAT_0_PID Registers
          2. 6.3.4.1.2  RAT__CFG__MMRS_M4FSS_RAT_0_CONFIG Registers
          3. 6.3.4.1.3  RAT__CFG__MMRS_M4FSS_RAT_0_DESTINATION_ID Registers
          4. 6.3.4.1.4  RAT__CFG__MMRS_M4FSS_RAT_0_EXCEPTION_LOGGING_CONTROL Registers
          5. 6.3.4.1.5  RAT__CFG__MMRS_M4FSS_RAT_0_EXCEPTION_LOGGING_HEADER0 Registers
          6. 6.3.4.1.6  RAT__CFG__MMRS_M4FSS_RAT_0_EXCEPTION_LOGGING_HEADER1 Registers
          7. 6.3.4.1.7  RAT__CFG__MMRS_M4FSS_RAT_0_EXCEPTION_LOGGING_DATA0 Registers
          8. 6.3.4.1.8  RAT__CFG__MMRS_M4FSS_RAT_0_EXCEPTION_LOGGING_DATA1 Registers
          9. 6.3.4.1.9  RAT__CFG__MMRS_M4FSS_RAT_0_EXCEPTION_LOGGING_DATA2 Registers
          10. 6.3.4.1.10 RAT__CFG__MMRS_M4FSS_RAT_0_EXCEPTION_LOGGING_DATA3 Registers
          11. 6.3.4.1.11 RAT__CFG__MMRS_M4FSS_RAT_0_EXCEPTION_PEND_SET Registers
          12. 6.3.4.1.12 RAT__CFG__MMRS_M4FSS_RAT_0_EXCEPTION_PEND_CLEAR Registers
          13. 6.3.4.1.13 RAT__CFG__MMRS_M4FSS_RAT_0_EXCEPTION_ENABLE_SET Registers
          14. 6.3.4.1.14 RAT__CFG__MMRS_M4FSS_RAT_0_EXCEPTION_ENABLE_CLEAR Registers
          15. 6.3.4.1.15 RAT__CFG__MMRS_M4FSS_RAT_0_EOI_REG Registers
          16. 6.3.4.1.16 RAT__CFG__MMRS_M4FSS_RAT_0_REGION_CTRL_J Registers
          17. 6.3.4.1.17 RAT__CFG__MMRS_M4FSS_RAT_0_REGION_BASE_J Registers
          18. 6.3.4.1.18 RAT__CFG__MMRS_M4FSS_RAT_0_REGION_TRANS_L_J Registers
          19. 6.3.4.1.19 RAT__CFG__MMRS_M4FSS_RAT_0_REGION_TRANS_U_J Registers
          20. 6.3.4.1.20 Access Table
    4. 6.4 Programmable Real-Time Unit and Industrial Communication Subsystem - Gigabit (PRU_ICSSG)
      1. 6.4.1  PRU_ICSSG Overview
        1. 6.4.1.1 PRU_ICSSG Key Features
        2. 6.4.1.2 Not Supported Features
      2. 6.4.2  PRU_ICSSG Environment
        1. 6.4.2.1 PRU_ICSSG Internal Pinmux
          1.        PRU_ICSSG I/O Signals
        2. 6.4.2.2 PRU_ICSSG Fast GPIO pins
      3. 6.4.3  PRU_ICSSG Integration
        1.       PRU_ICSSG Clocks
      4. 6.4.4  PRU_ICSSG Top Level Resources Functional Description
        1. 6.4.4.1 PRU_ICSSG Reset Management
        2. 6.4.4.2 PRU_ICSSG Power and Clock Management
          1. 6.4.4.2.1 PRU_ICSSG CORE Clock Generation
          2. 6.4.4.2.2 PRU_ICSSG Idle State
          3. 6.4.4.2.3 PRU_ICSSG Protect
          4. 6.4.4.2.4 Module Clock Configurations at PRU_ICSSG Top Level
        3. 6.4.4.3 Other PRU_ICSSG Module Functional Registers at Subsystem Level
        4. 6.4.4.4 PRU_ICSSG Memory Maps
          1. 6.4.4.4.1 PRU_ICSSG Local Memory Map
            1. 6.4.4.4.1.1 PRU_ICSSG Local Instruction Memory Map
            2. 6.4.4.4.1.2 PRU_ICSSG Local Data Memory Map
          2. 6.4.4.4.2 PRU_ICSSG Global Memory Map
      5. 6.4.5  PRU_ICSSG PRU Cores
        1. 6.4.5.1 PRU Cores Overview
        2. 6.4.5.2 PRU Cores Functional Description
          1. 6.4.5.2.1 PRUs Constant Table
          2. 6.4.5.2.2 PRU Module Interface
            1. 6.4.5.2.2.1 Real-Time Status Interface Mapping (R31): Interrupt Events Input
            2. 6.4.5.2.2.2 Event Interface Mapping (R31): PRU System Events
            3. 6.4.5.2.2.3 General-Purpose Inputs (R31): Enhanced PRU GP Module
              1. 6.4.5.2.2.3.1 PRU EGPIs Direct Input
              2. 6.4.5.2.2.3.2 PRU EGPIs 16-Bit Parallel Capture
              3. 6.4.5.2.2.3.3 PRU EGPIs 28-Bit Shift In
                1. 6.4.5.2.2.3.3.1 PRU EGPI Programming Model
              4. 6.4.5.2.2.3.4 General-Purpose Outputs (R30): Enhanced PRU GP Module
                1. 6.4.5.2.2.3.4.1 PRU EGPOs Direct Output
                2. 6.4.5.2.2.3.4.2 PRU EGPO Shift Out
                  1. 4.5.2.2.3.4.2.1 PRU EGPO Programming Model
              5. 6.4.5.2.2.3.5 Sigma Delta (SD) Decimation Filtering
                1. 6.4.5.2.2.3.5.1 Sigma Delta Block Diagram and Signals
                2. 6.4.5.2.2.3.5.2 PRU R30 / R31 Interface
                3. 6.4.5.2.2.3.5.3 Sigma Delta Description
                4. 6.4.5.2.2.3.5.4 Sigma Delta Basic Programming Example
              6. 6.4.5.2.2.3.6 Three Channel Peripheral Interface
                1. 6.4.5.2.2.3.6.1 Peripheral Interface Block Diagram and Signal Configuration
                2. 6.4.5.2.2.3.6.2 PRU R30 and R31 Interface
                3. 6.4.5.2.2.3.6.3 Clock Generation
                  1. 4.5.2.2.3.6.3.1 Configuration
                  2. 4.5.2.2.3.6.3.2 Clock Output Start Conditions
                    1. 5.2.2.3.6.3.2.1 TX Mode (RX_EN = 0)
                    2. 5.2.2.3.6.3.2.2 RX Mode (RX_EN = 1)
                  3. 4.5.2.2.3.6.3.3 Stop Conditions
                4. 6.4.5.2.2.3.6.4 Three Peripheral Mode Basic Programming Model
                  1. 4.5.2.2.3.6.4.1 Clock Generation
                  2. 4.5.2.2.3.6.4.2 TX - Single Shot
                  3. 4.5.2.2.3.6.4.3 TX - Continuous FIFO Loading
                  4. 4.5.2.2.3.6.4.4 RX - Auto Arm or Non-Auto Arm
        3. 6.4.5.3 PRU_ICSSG RAM Index Allocation
      6. 6.4.6  PRU_ICSSG Broadside Accelerators
        1. 6.4.6.1 PRU_ICSSG Broadside Accelerators Overview
        2. 6.4.6.2 PRU_ICSSG Data Processing Accelerators Functional
          1. 6.4.6.2.1  PRU Multiplier with Accumulation (MPY/MAC)
            1. 6.4.6.2.1.1 PRU MAC Operations
              1. 6.4.6.2.1.1.1 PRU versus MAC Interface
              2. 6.4.6.2.1.1.2 Multiply only mode(default state), MAC_MODE = 0
                1. 6.4.6.2.1.1.2.1 Programming PRU MAC in "Multiply-ONLY" mode
              3. 6.4.6.2.1.1.3 Multiply and Accumulate Mode, MAC_MODE = 1
                1. 6.4.6.2.1.1.3.1 Programming PRU MAC in Multiply and Accumulate Mode
          2. 6.4.6.2.2  PRU CRC16/32 Module
            1. 6.4.6.2.2.1 PRU and CRC16/32 Interface
            2. 6.4.6.2.2.2 CRC Programming Model
            3. 6.4.6.2.2.3 PRU and CRC16/32 Interface (R9:R2)
          3. 6.4.6.2.3  PRU_ICSSG Scratch Pad Memory
            1. 6.4.6.2.3.1 PRU0/1 Scratch Pad Overview
            2. 6.4.6.2.3.2 PRU0 /1 Scratch Pad Operations
              1. 6.4.6.2.3.2.1 Optional XIN/XOUT Shift
              2. 6.4.6.2.3.2.2 Scratch Pad Operations Examples
          4. 6.4.6.2.4  PRU_ICSSG IPC Scratch Pad Memory
          5. 6.4.6.2.5  PRU_ICSSG Broadside (BS) RAM
            1. 6.4.6.2.5.1 Programming the BS RAM
          6. 6.4.6.2.6  PRU_ICSSG SUM32 Hardware Accelerator
          7. 6.4.6.2.7  PRU_ICSSG Byte Swap (BSWAP)
            1. 6.4.6.2.7.1 Byte Order Swap Function
            2. 6.4.6.2.7.2 4_8 Function
            3. 6.4.6.2.7.3 4_16 Function
          8. 6.4.6.2.8  PRU_ICSSG Task Manager
            1. 6.4.6.2.8.1 Task Manager General Purpose Mode
              1. 6.4.6.2.8.1.1 Tasks and Sub-tasks
              2. 6.4.6.2.8.1.2 Task Manager Hardware Context Switching
              3. 6.4.6.2.8.1.3 Task Manager Programming Guide
            2. 6.4.6.2.8.2 Task Manager RX_TX Mode
              1. 6.4.6.2.8.2.1 RX_TX Task Manager Features
              2. 6.4.6.2.8.2.2 Tasks and Sub-tasks
          9. 6.4.6.2.9  PRU_ICSSG Spinlock
            1. 6.4.6.2.9.1 PRU0/1 and RTU_PRU0/1 Spinlock Interface
          10. 6.4.6.2.10 PRU_ICSSG Filter Data Base (FDB)
            1. 6.4.6.2.10.1 FDB Modes of operation
              1. 6.4.6.2.10.1.1 FDB LUT: Hardware operation (HSR Disabled: MII_G_RT_FDB_GEN_CFG2[5] FDB_HSR_EN = 0h)
              2. 6.4.6.2.10.1.2 FDB LUT: Hardware operation (HSR Enabled: MII_G_RT_FDB_GEN_CFG2[5] FDB_HSR_EN = 1h)
              3. 6.4.6.2.10.1.3 8KB/16KB Generic broadside RAM mode of operation
                1. 6.4.6.2.10.1.3.1 Broadside (BS) Mapping
              4. 6.4.6.2.10.1.4 FDB General purpose compare mode operation
        3. 6.4.6.3 PRU_ICSSG Data Movement Accelerators Functional
          1. 6.4.6.3.1 PRU_ICSSG XFR2VBUS Hardware Accelerator
            1. 6.4.6.3.1.1 Blocking Conditions
            2. 6.4.6.3.1.2 Read Operation with Auto Disabled
            3. 6.4.6.3.1.3 Read Operation with Auto Enabled
            4. 6.4.6.3.1.4 Write Operation with Auto Disabled
            5. 6.4.6.3.1.5 RTU_PRU/ PRU to XFR2VBUS Interface
            6. 6.4.6.3.1.6 XFR2VBUS Programming Model
          2. 6.4.6.3.2 PRU_ICSSG XFRDMA Functional Operation
            1. 6.4.6.3.2.1 XFRDMA: XFR Bus
              1. 6.4.6.3.2.1.1 XFRDMA: XFR Status
              2. 6.4.6.3.2.1.2 XFRDMA: XFR Bus XOUT
              3. 6.4.6.3.2.1.3 XFRDMA: XFR Bus XOUXFRDMA Functional Operation T Alignment
              4. 6.4.6.3.2.1.4 XFRDMA: XFR Bus XIN
                1. 6.4.6.3.2.1.4.1 XFRDMA: XFR Bus XIN Alignment
            2. 6.4.6.3.2.2 XFRDMA: PSI-L Bus
              1. 6.4.6.3.2.2.1 PRU XFRPSI Mapping
            3. 6.4.6.3.2.3 XFRDMA: Temporary FIFOs
              1. 6.4.6.3.2.3.1 XFRDMA: FIFO Stalls
          3. 6.4.6.3.3 PRU_ICSSG XFR2TR Ring Accelerator
            1. 6.4.6.3.3.1 XFR2TR Programming Model
      7. 6.4.7  PRU_ICSSG Local INTC
        1. 6.4.7.1 PRU_ICSSG Interrupt Controller Functional Description
          1. 6.4.7.1.1 PRU_ICSSG Interrupt Controller Events
          2. 6.4.7.1.2 PRU_ICSSG Interrupt Controller System Events Flow
            1. 6.4.7.1.2.1 PRU_ICSSG Interrupt Processing
              1. 6.4.7.1.2.1.1 PRU_ICSSG Interrupt Enabling
            2. 6.4.7.1.2.2 PRU_ICSSG Interrupt Status Checking
            3. 6.4.7.1.2.3 PRU_ICSSG Interrupt Channel Mapping
              1. 6.4.7.1.2.3.1 PRU_ICSSG Host Interrupt Mapping
              2. 6.4.7.1.2.3.2 PRU_ICSSG Interrupt Prioritization
            4. 6.4.7.1.2.4 PRU_ICSSG Interrupt Nesting
            5. 6.4.7.1.2.5 PRU_ICSSG Interrupt Status Clearing
          3. 6.4.7.1.3 PRU_ICSSG Interrupt Disabling
        2. 6.4.7.2 PRU_ICSSG Interrupt Controller Basic Programming Model
        3. 6.4.7.3 PRU_ICSSG Interrupt Requests Mapping
      8. 6.4.8  PRU_ICSSG UART Module
        1. 6.4.8.1 PRU_ICSSG UART Overview
        2. 6.4.8.2 PRU_ICSSG UART Environment
          1. 6.4.8.2.1 PRU_ICSSG UART Pin Multiplexing
          2. 6.4.8.2.2 PRU_ICSSG UART Signal Descriptions
          3. 6.4.8.2.3 PRU_ICSSG UART Protocol Description and Data Format
            1. 6.4.8.2.3.1 PRU_ICSSG UART Transmission Protocol
            2. 6.4.8.2.3.2 PRU_ICSSG UART Reception Protocol
            3. 6.4.8.2.3.3 PRU_ICSSG UART Data Format
              1. 6.4.8.2.3.3.1 Frame Formatting
          4. 6.4.8.2.4 PRU_ICSSG UART Clock Generation and Control
        3. 6.4.8.3 PRU_ICSSG UART Functional Description
          1. 6.4.8.3.1 PRU_ICSSG UART Functional Block Diagram
          2. 6.4.8.3.2 PRU_ICSSG UART Reset Considerations
            1. 6.4.8.3.2.1 PRU_ICSSG UART Software Reset Considerations
            2. 6.4.8.3.2.2 PRU_ICSSG UART Hardware Reset Considerations
          3. 6.4.8.3.3 PRU_ICSSG UART Power Management
          4. 6.4.8.3.4 PRU_ICSSG UART Interrupt Support
            1. 6.4.8.3.4.1 PRU_ICSSG UART Interrupt Events and Requests
            2. 6.4.8.3.4.2 PRU_ICSSG UART Interrupt Multiplexing
          5. 6.4.8.3.5 2134
          6. 6.4.8.3.6 PRU_ICSSG UART DMA Event Support
          7. 6.4.8.3.7 PRU_ICSSG UART Operations
            1. 6.4.8.3.7.1 PRU_ICSSG UART FIFO Modes
              1. 6.4.8.3.7.1.1 PRU_ICSSG UART FIFO Interrupt Mode
              2. 6.4.8.3.7.1.2 PRU_ICSSG UART FIFO Poll Mode
            2. 6.4.8.3.7.2 PRU_ICSSG UART Autoflow Control
              1. 6.4.8.3.7.2.1 PRU_ICSSG UART Signal UART0_RTS Behavior
              2. 6.4.8.3.7.2.2 PRU_ICSSG UART Signal UART0_CTS Behavior
            3. 6.4.8.3.7.3 PRU_ICSSG UART Loopback Control
          8. 6.4.8.3.8 PRU_ICSSG UART Emulation Considerations
          9. 6.4.8.3.9 PRU_ICSSG UART Exception Processing
            1. 6.4.8.3.9.1 PRU_ICSSG UART Divisor Latch Not Programmed
            2. 6.4.8.3.9.2 Changing Operating Mode During Busy Serial Communication of PRU_ICSSG UART
      9. 6.4.9  PRU_ICSSG ECAP Module
        1. 6.4.9.1 PRU_ICSSG ECAP Functional Description
      10. 6.4.10 PRU_ICSSG PWM Module
        1. 6.4.10.1 PRU_ICSSG PWM Supported Features
        2. 6.4.10.2 PRU_ICSSG PWM States Overview
        3. 6.4.10.3 PRU_ICSSG PWM Trip State Logic
        4. 6.4.10.4 PRU_ICSSG PWM Glitch Filter
      11. 6.4.11 PRU_ICSSG MII_G_RT Module
        1. 6.4.11.1 PRU_ICSSG MII_G_RT Introduction
          1. 6.4.11.1.1 PRU_ICSSG MII_G_RT Features
          2. 6.4.11.1.2 Unsupported Features
          3. 6.4.11.1.3 PRU_ICSSG MII_G_RT Block Diagram
        2. 6.4.11.2 MII_G_RT Functional Description
          1. 6.4.11.2.1 MII_G_RT Data Path Configuration
            1. 6.4.11.2.1.1 Auto-forward with Optional PRU Snoop
            2. 6.4.11.2.1.2 8- or 16-bit Processing with On-the-Fly Modifications
            3. 6.4.11.2.1.3 32-byte Double Buffer or Ping-Pong Processing
          2. 6.4.11.2.2 MII_G_RT Definition and Terms
            1. 6.4.11.2.2.1 MII_G_RT Data Frame Structure
            2. 6.4.11.2.2.2 PRU R30 and R31
            3. 6.4.11.2.2.3 RX and TX L1 FIFO Data Movement
            4. 6.4.11.2.2.4 Receive CRC Computation
            5. 6.4.11.2.2.5 Transmit CRC Computation
            6. 6.4.11.2.2.6 Transmit CRC Computation for fragmented frames
          3. 6.4.11.2.3 RX MII Interface
            1. 6.4.11.2.3.1 RX MII Receive Data Latch
            2. 6.4.11.2.3.2 RX MII Start of Frame Detection
            3. 6.4.11.2.3.3 CRC Error Detection
            4. 6.4.11.2.3.4 RX Error Detection and Action
            5. 6.4.11.2.3.5 RX Data Path Options to PRU
            6. 6.4.11.2.3.6 RX MII Port → RX L1 FIFO → PRU
            7. 6.4.11.2.3.7 RX MII Port → RX L1 FIFO → RX L2 Buffer → PRU
              1. 6.4.11.2.3.7.1 RX L2 Status in mode 0, none IET mode (when ICSS_G_CFG[2] RX_L2_G_EN= 0h)
              2. 6.4.11.2.3.7.2 2181
              3. 6.4.11.2.3.7.3 RX L2 Status for IET Type 1/Type 2 (when MII_G_RT_ICSS_G_CFG[2] RX_L2_G_EN = 1h)
              4. 6.4.11.2.3.7.4 2183
              5. 6.4.11.2.3.7.5 Broadside Stitch FIFO
              6. 6.4.11.2.3.7.6 MII_G_RT RX Classifier
                1. 6.4.11.2.3.7.6.1 RX Rate Counter Block
                2. 6.4.11.2.3.7.6.2 RX Rate Hit Mapping
                3. 6.4.11.2.3.7.6.3 Traffic Class Selector Block
                4. 6.4.11.2.3.7.6.4 PRU_ICSSG RX L2 Filter Block
                  1. 4.11.2.3.7.6.4.1 PRU_ICSSG RX L2 Filter Operation
                  2. 4.11.2.3.7.6.4.2 PRU_ICSSG RX L2 Filter - Type 1 (MAC Filter) Operation
                  3. 4.11.2.3.7.6.4.3 PRU_ICSSG RX L2 Filter - Type 3 (Content Filter) Operation
                  4. 4.11.2.3.7.6.4.4 PRU_ICSSG RX L2 Filter - Type 3 (Content Filter) Auto Restart operation
                  5. 4.11.2.3.7.6.4.5 RX SA Hash
                  6. 4.11.2.3.7.6.4.6 RX Connection Hash
          4. 6.4.11.2.4 PRU_ICSSG TX MII Interface
            1. 6.4.11.2.4.1 TX Data Path Options to TX L1 FIFO
              1. 6.4.11.2.4.1.1 PRU → TX L1 FIFO → TX MII Port
                1. 6.4.11.2.4.1.1.1 TX L2 FIFO Features
                2. 6.4.11.2.4.1.1.2 2200
                3. 6.4.11.2.4.1.1.3 TX Insertion
                4. 6.4.11.2.4.1.1.4 TX Preemption
                  1. 4.11.2.4.1.1.4.1 TX Preemption Programming Model
              2. 6.4.11.2.4.1.2 RX L1 FIFO → TX L1 FIFO (Direct Connection) → TX MII Port
          5. 6.4.11.2.5 PRU R31 Command Interface
          6. 6.4.11.2.6 Other Configuration Options
            1. 6.4.11.2.6.1 Nibble and Byte Order
            2. 6.4.11.2.6.2 MII_G_RT Preamble Source
            3. 6.4.11.2.6.3 PRU and MII Port Multiplexer
              1. 6.4.11.2.6.3.1 Receive Multiplexer
              2. 6.4.11.2.6.3.2 Transmit Multiplexer
            4. 6.4.11.2.6.4 RX L2 Scratch Pad
        3. 6.4.11.3 PRU_ICSSG PA_STATS Module
          1. 6.4.11.3.1 Statistics Page
          2. 6.4.11.3.2 Statistics Collection Modes
            1. 6.4.11.3.2.1 Manual Read Mode
          3. 6.4.11.3.3 Clock Stop
      12. 6.4.12 PRU_ICSSG MII MDIO Module
        1. 6.4.12.1 PRU_ICSSG MII MDIO Overview
        2. 6.4.12.2 PRU_ICSSG MII MDIO Functional Description
          1. 6.4.12.2.1 MDIO Clause 22 Frame Formats
            1. 6.4.12.2.1.1 PRU-ICSSG MDIO Control and Interface Signals
          2. 6.4.12.2.2 MDIO Clause 45 Frame Formats
          3. 6.4.12.2.3 PRU_ICSSG MII MDIO Interractions
          4. 6.4.12.2.4 PRU_ICSSG MII MDIO Interrupts
            1. 6.4.12.2.4.1 Normal Mode ([30]STATECHANGEMODE = 0h)
            2. 6.4.12.2.4.2 State Change Mode ([30]STATECHANGEMODE = 1h)
          5. 6.4.12.2.5 Manual Mode
        3. 6.4.12.3 PRU_ICSSG MII MDIO Receive/Transmit Frame Host Software Interface
      13. 6.4.13 PRU_ICSSG IEP
        1. 6.4.13.1 PRU_ICSSG IEP Overview
        2. 6.4.13.2 PRU_ICSSG IEP Functional Description
          1. 6.4.13.2.1 PRU_ICSSG IEP Clock Generation
          2. 6.4.13.2.2 PRU_ICSSG IEP Timer
            1. 6.4.13.2.2.1 PRU_ICSSG IEP Timer Features
          3. 6.4.13.2.3 32-Bit Shadow Mode
          4. 6.4.13.2.4 PRU_ICSSG IEP Timer Basic Programming Sequence
          5. 6.4.13.2.5 Industrial Ethernet Mapping
          6. 6.4.13.2.6 PRU_ICSSG IEP Sync0/Sync1 Module
            1. 6.4.13.2.6.1 PRU_ICSSG IEP Sync0/Sync1 Features
            2. 6.4.13.2.6.2 PRU_ICSSG IEP Sync0/Sync1 Generation Modes
          7. 6.4.13.2.7 PRU_ICSSG IEP WatchDog
          8. 6.4.13.2.8 PRU_ICSSG IEP DIGIO
            1. 6.4.13.2.8.1 PRU_ICSSG IEP DIGIO Features
            2. 6.4.13.2.8.2 2245
            3. 6.4.13.2.8.3 PRU_ICSSG IEP DIGIO Block Diagrams
            4. 6.4.13.2.8.4 PRU_ICSSG IEP Basic Programming Model
      14. 6.4.14 PRU_ICSSG Registers
        1. 6.4.14.1  PRU_ICSSG PRU_CTRL, RTU_PRU_CTRL, and TX_PRU_CTRL Registers
        2. 6.4.14.2  PRU_ICSSG PRU_DEBUG, RTU_PRU_DEBUG, and TX_PRU_DEBUG Registers
        3. 6.4.14.3  PRU_ICSSG_ECC_AGGR Registers
        4. 6.4.14.4  PRU_ICSSG_DDRAM Registers
        5. 6.4.14.5  PRU_ICSSG_CFG Registers
        6. 6.4.14.6  PRU_ECAP_ECAP0 Registers
        7. 6.4.14.7  PRU_ICSS_INTC_INTC Registers
        8. 6.4.14.8  PRU_UART_UART0 Registers
        9. 6.4.14.9  PRU_IEP_IEP Registers
        10. 6.4.14.10 PRU_MDIO_MDIO Registers
        11. 6.4.14.11 PRU_MII_RT_MII_RT Registers
        12. 6.4.14.12 PRU_MII_G_RT_MII_G_RT Registers
        13. 6.4.14.13 PRU_ICSSG_PA_STAT Registers
        14. 6.4.14.14 PRU_ICSSG_PA_STAT_QSTAT Registers
        15. 6.4.14.15 PRU_ICSSG_PA_STAT_CSTAT Registers
        16. 6.4.14.16 PRU_PROT_PROTECT Registers
        17. 6.4.14.17 PRU_RAT_SLICE_RAT_SLICE Registers
        18. 6.4.14.18 PRU_TASKS_MGR_TASKS_MGR_PRU_RTU_TX Registers
        19. 6.4.14.19 PRU_ICSSG_RAM Registers
  9. Interprocessor Communication (IPC)
    1. 7.1 Mailbox
      1. 7.1.1 Mailbox Overview
        1. 7.1.1.1 Mailbox Features
        2. 7.1.1.2 Mailbox Parameters
        3. 7.1.1.3 Mailbox Not Supported Features
      2. 7.1.2 Mailbox Integration
        1. 7.1.2.1 System Mailbox Integration
      3. 7.1.3 Mailbox Functional Description
        1. 7.1.3.1 Mailbox Block Diagram
        2. 7.1.3.2 Mailbox Software Reset
        3. 7.1.3.3 Mailbox Power Management
        4. 7.1.3.4 Mailbox Interrupt Requests
        5. 7.1.3.5 Mailbox Assignment
          1. 7.1.3.5.1 Description
        6. 7.1.3.6 Sending and Receiving Messages
          1. 7.1.3.6.1 Description
        7. 7.1.3.7 Example of Communication
      4. 7.1.4 Mailbox Programming Guide
        1. 7.1.4.1 Mailbox Low-level Programming Models
          1. 7.1.4.1.1 Global Initialization
            1. 7.1.4.1.1.1 Surrounding Modules Global Initialization
            2. 7.1.4.1.1.2 Mailbox Global Initialization
              1. 7.1.4.1.1.2.1 Main Sequence - Mailbox Global Initialization
          2. 7.1.4.1.2 Mailbox Operational Modes Configuration
            1. 7.1.4.1.2.1 Mailbox Processing modes
              1. 7.1.4.1.2.1.1 Main Sequence - Sending a Message (Polling Method)
              2. 7.1.4.1.2.1.2 Main Sequence - Sending a Message (Interrupt Method)
              3. 7.1.4.1.2.1.3 Main Sequence - Receiving a Message (Polling Method)
              4. 7.1.4.1.2.1.4 Main Sequence - Receiving a Message (Interrupt Method)
          3. 7.1.4.1.3 Mailbox Events Servicing
            1. 7.1.4.1.3.1 Events Servicing in Sending Mode
            2. 7.1.4.1.3.2 Events Servicing in Receiving Mode
      5. 7.1.5 Mailbox Registers
    2. 7.2 Spinlock
      1. 7.2.1 Spinlock Overview
        1. 7.2.1.1 Spinlock Not Supported Features
      2. 7.2.2 Spinlock Integration
      3. 7.2.3 Spinlock Functional Description
        1. 7.2.3.1 Spinlock Software Reset
        2. 7.2.3.2 Spinlock Power Management
        3. 7.2.3.3 About Spinlocks
        4. 7.2.3.4 Spinlock Functional Operation
      4. 7.2.4 Spinlock Programming Guide
        1. 7.2.4.1 Spinlock Low-level Programming Models
          1. 7.2.4.1.1 Surrounding Modules Global Initialization
          2. 7.2.4.1.2 Basic Spinlock Operations
            1. 7.2.4.1.2.1 Spinlocks Clearing After a System Bug Recovery
            2. 7.2.4.1.2.2 Take and Release Spinlock
      5. 7.2.5 Spinlock Registers
  10. Memory Controllers
    1. 8.1 DDR Subsystem (DDRSS)
      1. 8.1.1 DDRSS Overview
        1. 8.1.1.1 DDRSS Not Supported Features
      2. 8.1.2 DDRSS Environment
      3. 8.1.3 DDRSS Integration
        1. 8.1.3.1 DDRSS Integration in MAIN Domain
      4. 8.1.4 DDRSS Functional Description
        1. 8.1.4.1 Class of Service (CoS)
        2. 8.1.4.2 AXI Write Data All-Strobes
        3. 8.1.4.3 Inline ECC for SDRAM Data
          1. 8.1.4.3.1 ECC Cache
          2. 8.1.4.3.2 ECC Cache Flush
          3. 8.1.4.3.3 ECC Statistics
        4. 8.1.4.4 Address Alias Prevention
        5. 8.1.4.5 AXI Bus Timeout
        6. 8.1.4.6 DDRSS Interrupts
        7. 8.1.4.7 DDRSS Memory Regions
        8. 8.1.4.8 DDRSS Dynamic Frequency Change Interface
        9. 8.1.4.9 DDR Controller Functional Description
          1. 8.1.4.9.1 DDR PHY Interface (DFI)
          2. 8.1.4.9.2 Command Queue
            1. 8.1.4.9.2.1 Placement Logic
            2. 8.1.4.9.2.2 Command Selection Logic
          3. 8.1.4.9.3 Transaction Processing
          4. 8.1.4.9.4 Paging Policy
          5. 8.1.4.9.5 DDR Controller Initialization
      5. 8.1.5 DDR16SS Registers
        1. 8.1.5.1    REGS__SS_CFG__SSCFG_DDR16SS_SS_ID_REV_REG Registers
        2. 8.1.5.2    REGS__SS_CFG__SSCFG_DDR16SS_SS_CTL_REG Registers
        3. 8.1.5.3    REGS__SS_CFG__SSCFG_DDR16SS_V2A_CTL_REG Registers
        4. 8.1.5.4    REGS__SS_CFG__SSCFG_DDR16SS_V2A_R1_MAT_REG Registers
        5. 8.1.5.5    REGS__SS_CFG__SSCFG_DDR16SS_V2A_R2_MAT_REG Registers
        6. 8.1.5.6    REGS__SS_CFG__SSCFG_DDR16SS_V2A_R3_MAT_REG Registers
        7. 8.1.5.7    REGS__SS_CFG__SSCFG_DDR16SS_V2A_DEF_PRI_MAP_REG Registers
        8. 8.1.5.8    REGS__SS_CFG__SSCFG_DDR16SS_V2A_R1_PRI_MAP_REG Registers
        9. 8.1.5.9    REGS__SS_CFG__SSCFG_DDR16SS_V2A_R2_PRI_MAP_REG Registers
        10. 8.1.5.10   REGS__SS_CFG__SSCFG_DDR16SS_V2A_R3_PRI_MAP_REG Registers
        11. 8.1.5.11   REGS__SS_CFG__SSCFG_DDR16SS_V2A_AERR_LOG1_REG Registers
        12. 8.1.5.12   REGS__SS_CFG__SSCFG_DDR16SS_V2A_AERR_LOG2_REG Registers
        13. 8.1.5.13   REGS__SS_CFG__SSCFG_DDR16SS_V2A_BUS_TO Registers
        14. 8.1.5.14   REGS__SS_CFG__SSCFG_DDR16SS_V2A_INT_RAW_REG Registers
        15. 8.1.5.15   REGS__SS_CFG__SSCFG_DDR16SS_V2A_INT_STAT_REG Registers
        16. 8.1.5.16   REGS__SS_CFG__SSCFG_DDR16SS_V2A_INT_SET_REG Registers
        17. 8.1.5.17   REGS__SS_CFG__SSCFG_DDR16SS_V2A_INT_CLR_REG Registers
        18. 8.1.5.18   REGS__SS_CFG__SSCFG_DDR16SS_V2A_EOI_REG Registers
        19. 8.1.5.19   REGS__SS_CFG__SSCFG_DDR16SS_PERF_CNT_SEL_REG Registers
        20. 8.1.5.20   REGS__SS_CFG__SSCFG_DDR16SS_PERF_CNT1_REG Registers
        21. 8.1.5.21   REGS__SS_CFG__SSCFG_DDR16SS_PERF_CNT2_REG Registers
        22. 8.1.5.22   REGS__SS_CFG__SSCFG_DDR16SS_PERF_CNT3_REG Registers
        23. 8.1.5.23   REGS__SS_CFG__SSCFG_DDR16SS_PERF_CNT4_REG Registers
        24. 8.1.5.24   REGS__SS_CFG__SSCFG_DDR16SS_ECC_CTRL_REG Registers
        25. 8.1.5.25   REGS__SS_CFG__SSCFG_DDR16SS_ECC_RID_INDX_REG Registers
        26. 8.1.5.26   REGS__SS_CFG__SSCFG_DDR16SS_ECC_RID_VAL_REG Registers
        27. 8.1.5.27   REGS__SS_CFG__SSCFG_DDR16SS_ECC_R0_STR_ADDR_REG Registers
        28. 8.1.5.28   REGS__SS_CFG__SSCFG_DDR16SS_ECC_R0_END_ADDR_REG Registers
        29. 8.1.5.29   REGS__SS_CFG__SSCFG_DDR16SS_ECC_R1_STR_ADDR_REG Registers
        30. 8.1.5.30   REGS__SS_CFG__SSCFG_DDR16SS_ECC_R1_END_ADDR_REG Registers
        31. 8.1.5.31   REGS__SS_CFG__SSCFG_DDR16SS_ECC_R2_STR_ADDR_REG Registers
        32. 8.1.5.32   REGS__SS_CFG__SSCFG_DDR16SS_ECC_R2_END_ADDR_REG Registers
        33. 8.1.5.33   REGS__SS_CFG__SSCFG_DDR16SS_ECC_1B_ERR_CNT_REG Registers
        34. 8.1.5.34   REGS__SS_CFG__SSCFG_DDR16SS_ECC_1B_ERR_THRSH_REG Registers
        35. 8.1.5.35   REGS__SS_CFG__SSCFG_DDR16SS_ECC_1B_ERR_ADR_LOG_REG Registers
        36. 8.1.5.36   REGS__SS_CFG__SSCFG_DDR16SS_ECC_1B_ERR_MSK_LOG_REG Registers
        37. 8.1.5.37   REGS__SS_CFG__SSCFG_DDR16SS_ECC_2B_ERR_ADR_LOG_REG Registers
        38. 8.1.5.38   REGS__SS_CFG__SSCFG_DDR16SS_ECC_2B_ERR_MSK_LOG_REG Registers
        39. 8.1.5.39   REGS__SS_CFG__SSCFG_DDR16SS_PHY_TEST_CTRL1_REG Registers
        40. 8.1.5.40   REGS__SS_CFG__SSCFG_DDR16SS_PHY_TEST_CTRL2_REG Registers
        41. 8.1.5.41   REGS__SS_CFG__SSCFG_DDR16SS_PHY_TEST_CTRL3_REG Registers
        42. 8.1.5.42   REGS__SS_CFG__SSCFG_DDR16SS_PHY_TEST_CTRL4_REG Registers
        43. 8.1.5.43   REGS__SS_CFG__SSCFG_DDR16SS_PHY_TEST_CTRL5_REG Registers
        44. 8.1.5.44   REGS__SS_CFG__SSCFG_DDR16SS_PHY_TEST_CTRL6_REG Registers
        45. 8.1.5.45   REGS__SS_CFG__SSCFG_DDR16SS_PHY_TEST_CTRL7_REG Registers
        46. 8.1.5.46   REGS__SS_CFG__SSCFG_DDR16SS_PHY_TEST_CTRL8_REG Registers
        47. 8.1.5.47   REGS__SS_CFG__SSCFG_DDR16SS_PHY_TEST_CTRL9_REG Registers
        48. 8.1.5.48   REGS__SS_CFG__SSCFG_DDR16SS_PHY_TEST_CTRL10_REG Registers
        49. 8.1.5.49   REGS__SS_CFG__SSCFG_DDR16SS_PHY_TEST_STAT1_REG Registers
        50. 8.1.5.50   REGS__SS_CFG__SSCFG_DDR16SS_PHY_TEST_STAT2_REG Registers
        51. 8.1.5.51   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_0 Registers
        52. 8.1.5.52   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_1 Registers
        53. 8.1.5.53   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_2 Registers
        54. 8.1.5.54   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_3 Registers
        55. 8.1.5.55   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_4 Registers
        56. 8.1.5.56   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_5 Registers
        57. 8.1.5.57   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_6 Registers
        58. 8.1.5.58   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_7 Registers
        59. 8.1.5.59   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_8 Registers
        60. 8.1.5.60   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_9 Registers
        61. 8.1.5.61   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_10 Registers
        62. 8.1.5.62   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_11 Registers
        63. 8.1.5.63   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_12 Registers
        64. 8.1.5.64   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_13 Registers
        65. 8.1.5.65   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_14 Registers
        66. 8.1.5.66   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_15 Registers
        67. 8.1.5.67   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_16 Registers
        68. 8.1.5.68   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_17 Registers
        69. 8.1.5.69   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_18 Registers
        70. 8.1.5.70   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_19 Registers
        71. 8.1.5.71   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_20 Registers
        72. 8.1.5.72   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_21 Registers
        73. 8.1.5.73   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_22 Registers
        74. 8.1.5.74   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_23 Registers
        75. 8.1.5.75   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_24 Registers
        76. 8.1.5.76   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_25 Registers
        77. 8.1.5.77   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_26 Registers
        78. 8.1.5.78   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_27 Registers
        79. 8.1.5.79   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_28 Registers
        80. 8.1.5.80   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_29 Registers
        81. 8.1.5.81   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_30 Registers
        82. 8.1.5.82   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_31 Registers
        83. 8.1.5.83   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_32 Registers
        84. 8.1.5.84   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_33 Registers
        85. 8.1.5.85   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_34 Registers
        86. 8.1.5.86   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_35 Registers
        87. 8.1.5.87   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_36 Registers
        88. 8.1.5.88   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_37 Registers
        89. 8.1.5.89   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_38 Registers
        90. 8.1.5.90   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_39 Registers
        91. 8.1.5.91   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_40 Registers
        92. 8.1.5.92   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_41 Registers
        93. 8.1.5.93   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_42 Registers
        94. 8.1.5.94   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_43 Registers
        95. 8.1.5.95   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_44 Registers
        96. 8.1.5.96   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_45 Registers
        97. 8.1.5.97   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_46 Registers
        98. 8.1.5.98   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_47 Registers
        99. 8.1.5.99   CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_48 Registers
        100. 8.1.5.100  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_49 Registers
        101. 8.1.5.101  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_50 Registers
        102. 8.1.5.102  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_51 Registers
        103. 8.1.5.103  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_52 Registers
        104. 8.1.5.104  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_53 Registers
        105. 8.1.5.105  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_54 Registers
        106. 8.1.5.106  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_55 Registers
        107. 8.1.5.107  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_56 Registers
        108. 8.1.5.108  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_57 Registers
        109. 8.1.5.109  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_58 Registers
        110. 8.1.5.110  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_59 Registers
        111. 8.1.5.111  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_60 Registers
        112. 8.1.5.112  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_61 Registers
        113. 8.1.5.113  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_62 Registers
        114. 8.1.5.114  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_63 Registers
        115. 8.1.5.115  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_64 Registers
        116. 8.1.5.116  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_65 Registers
        117. 8.1.5.117  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_66 Registers
        118. 8.1.5.118  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_67 Registers
        119. 8.1.5.119  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_68 Registers
        120. 8.1.5.120  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_69 Registers
        121. 8.1.5.121  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_70 Registers
        122. 8.1.5.122  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_71 Registers
        123. 8.1.5.123  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_72 Registers
        124. 8.1.5.124  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_73 Registers
        125. 8.1.5.125  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_74 Registers
        126. 8.1.5.126  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_75 Registers
        127. 8.1.5.127  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_76 Registers
        128. 8.1.5.128  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_77 Registers
        129. 8.1.5.129  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_78 Registers
        130. 8.1.5.130  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_79 Registers
        131. 8.1.5.131  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_80 Registers
        132. 8.1.5.132  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_81 Registers
        133. 8.1.5.133  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_82 Registers
        134. 8.1.5.134  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_83 Registers
        135. 8.1.5.135  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_84 Registers
        136. 8.1.5.136  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_85 Registers
        137. 8.1.5.137  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_86 Registers
        138. 8.1.5.138  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_87 Registers
        139. 8.1.5.139  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_88 Registers
        140. 8.1.5.140  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_89 Registers
        141. 8.1.5.141  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_90 Registers
        142. 8.1.5.142  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_91 Registers
        143. 8.1.5.143  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_92 Registers
        144. 8.1.5.144  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_93 Registers
        145. 8.1.5.145  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_94 Registers
        146. 8.1.5.146  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_95 Registers
        147. 8.1.5.147  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_96 Registers
        148. 8.1.5.148  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_97 Registers
        149. 8.1.5.149  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_98 Registers
        150. 8.1.5.150  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_99 Registers
        151. 8.1.5.151  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_100 Registers
        152. 8.1.5.152  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_101 Registers
        153. 8.1.5.153  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_102 Registers
        154. 8.1.5.154  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_103 Registers
        155. 8.1.5.155  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_104 Registers
        156. 8.1.5.156  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_105 Registers
        157. 8.1.5.157  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_106 Registers
        158. 8.1.5.158  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_107 Registers
        159. 8.1.5.159  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_108 Registers
        160. 8.1.5.160  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_109 Registers
        161. 8.1.5.161  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_110 Registers
        162. 8.1.5.162  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_111 Registers
        163. 8.1.5.163  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_112 Registers
        164. 8.1.5.164  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_113 Registers
        165. 8.1.5.165  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_114 Registers
        166. 8.1.5.166  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_115 Registers
        167. 8.1.5.167  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_116 Registers
        168. 8.1.5.168  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_117 Registers
        169. 8.1.5.169  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_118 Registers
        170. 8.1.5.170  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_119 Registers
        171. 8.1.5.171  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_120 Registers
        172. 8.1.5.172  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_121 Registers
        173. 8.1.5.173  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_122 Registers
        174. 8.1.5.174  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_123 Registers
        175. 8.1.5.175  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_124 Registers
        176. 8.1.5.176  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_125 Registers
        177. 8.1.5.177  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_126 Registers
        178. 8.1.5.178  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_127 Registers
        179. 8.1.5.179  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_128 Registers
        180. 8.1.5.180  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_129 Registers
        181. 8.1.5.181  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_130 Registers
        182. 8.1.5.182  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_131 Registers
        183. 8.1.5.183  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_132 Registers
        184. 8.1.5.184  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_133 Registers
        185. 8.1.5.185  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_134 Registers
        186. 8.1.5.186  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_135 Registers
        187. 8.1.5.187  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_136 Registers
        188. 8.1.5.188  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_137 Registers
        189. 8.1.5.189  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_138 Registers
        190. 8.1.5.190  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_139 Registers
        191. 8.1.5.191  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_140 Registers
        192. 8.1.5.192  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_141 Registers
        193. 8.1.5.193  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_142 Registers
        194. 8.1.5.194  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_143 Registers
        195. 8.1.5.195  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_144 Registers
        196. 8.1.5.196  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_145 Registers
        197. 8.1.5.197  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_146 Registers
        198. 8.1.5.198  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_147 Registers
        199. 8.1.5.199  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_148 Registers
        200. 8.1.5.200  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_149 Registers
        201. 8.1.5.201  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_150 Registers
        202. 8.1.5.202  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_151 Registers
        203. 8.1.5.203  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_152 Registers
        204. 8.1.5.204  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_153 Registers
        205. 8.1.5.205  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_154 Registers
        206. 8.1.5.206  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_155 Registers
        207. 8.1.5.207  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_156 Registers
        208. 8.1.5.208  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_157 Registers
        209. 8.1.5.209  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_158 Registers
        210. 8.1.5.210  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_159 Registers
        211. 8.1.5.211  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_160 Registers
        212. 8.1.5.212  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_161 Registers
        213. 8.1.5.213  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_162 Registers
        214. 8.1.5.214  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_163 Registers
        215. 8.1.5.215  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_164 Registers
        216. 8.1.5.216  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_165 Registers
        217. 8.1.5.217  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_166 Registers
        218. 8.1.5.218  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_167 Registers
        219. 8.1.5.219  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_168 Registers
        220. 8.1.5.220  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_169 Registers
        221. 8.1.5.221  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_170 Registers
        222. 8.1.5.222  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_171 Registers
        223. 8.1.5.223  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_172 Registers
        224. 8.1.5.224  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_173 Registers
        225. 8.1.5.225  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_174 Registers
        226. 8.1.5.226  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_175 Registers
        227. 8.1.5.227  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_176 Registers
        228. 8.1.5.228  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_177 Registers
        229. 8.1.5.229  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_178 Registers
        230. 8.1.5.230  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_179 Registers
        231. 8.1.5.231  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_180 Registers
        232. 8.1.5.232  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_181 Registers
        233. 8.1.5.233  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_182 Registers
        234. 8.1.5.234  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_183 Registers
        235. 8.1.5.235  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_184 Registers
        236. 8.1.5.236  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_185 Registers
        237. 8.1.5.237  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_186 Registers
        238. 8.1.5.238  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_187 Registers
        239. 8.1.5.239  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_188 Registers
        240. 8.1.5.240  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_189 Registers
        241. 8.1.5.241  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_190 Registers
        242. 8.1.5.242  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_191 Registers
        243. 8.1.5.243  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_192 Registers
        244. 8.1.5.244  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_193 Registers
        245. 8.1.5.245  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_194 Registers
        246. 8.1.5.246  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_195 Registers
        247. 8.1.5.247  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_196 Registers
        248. 8.1.5.248  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_197 Registers
        249. 8.1.5.249  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_198 Registers
        250. 8.1.5.250  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_199 Registers
        251. 8.1.5.251  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_200 Registers
        252. 8.1.5.252  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_201 Registers
        253. 8.1.5.253  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_202 Registers
        254. 8.1.5.254  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_203 Registers
        255. 8.1.5.255  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_204 Registers
        256. 8.1.5.256  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_205 Registers
        257. 8.1.5.257  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_206 Registers
        258. 8.1.5.258  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_207 Registers
        259. 8.1.5.259  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_208 Registers
        260. 8.1.5.260  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_209 Registers
        261. 8.1.5.261  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_210 Registers
        262. 8.1.5.262  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_211 Registers
        263. 8.1.5.263  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_212 Registers
        264. 8.1.5.264  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_213 Registers
        265. 8.1.5.265  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_214 Registers
        266. 8.1.5.266  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_215 Registers
        267. 8.1.5.267  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_216 Registers
        268. 8.1.5.268  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_217 Registers
        269. 8.1.5.269  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_218 Registers
        270. 8.1.5.270  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_219 Registers
        271. 8.1.5.271  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_220 Registers
        272. 8.1.5.272  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_221 Registers
        273. 8.1.5.273  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_222 Registers
        274. 8.1.5.274  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_223 Registers
        275. 8.1.5.275  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_224 Registers
        276. 8.1.5.276  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_225 Registers
        277. 8.1.5.277  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_226 Registers
        278. 8.1.5.278  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_227 Registers
        279. 8.1.5.279  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_228 Registers
        280. 8.1.5.280  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_229 Registers
        281. 8.1.5.281  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_230 Registers
        282. 8.1.5.282  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_231 Registers
        283. 8.1.5.283  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_232 Registers
        284. 8.1.5.284  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_233 Registers
        285. 8.1.5.285  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_234 Registers
        286. 8.1.5.286  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_235 Registers
        287. 8.1.5.287  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_236 Registers
        288. 8.1.5.288  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_237 Registers
        289. 8.1.5.289  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_238 Registers
        290. 8.1.5.290  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_239 Registers
        291. 8.1.5.291  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_240 Registers
        292. 8.1.5.292  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_241 Registers
        293. 8.1.5.293  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_242 Registers
        294. 8.1.5.294  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_243 Registers
        295. 8.1.5.295  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_244 Registers
        296. 8.1.5.296  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_245 Registers
        297. 8.1.5.297  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_246 Registers
        298. 8.1.5.298  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_247 Registers
        299. 8.1.5.299  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_248 Registers
        300. 8.1.5.300  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_249 Registers
        301. 8.1.5.301  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_250 Registers
        302. 8.1.5.302  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_251 Registers
        303. 8.1.5.303  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_252 Registers
        304. 8.1.5.304  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_253 Registers
        305. 8.1.5.305  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_254 Registers
        306. 8.1.5.306  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_255 Registers
        307. 8.1.5.307  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_256 Registers
        308. 8.1.5.308  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_257 Registers
        309. 8.1.5.309  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_258 Registers
        310. 8.1.5.310  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_259 Registers
        311. 8.1.5.311  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_260 Registers
        312. 8.1.5.312  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_261 Registers
        313. 8.1.5.313  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_262 Registers
        314. 8.1.5.314  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_263 Registers
        315. 8.1.5.315  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_264 Registers
        316. 8.1.5.316  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_265 Registers
        317. 8.1.5.317  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_266 Registers
        318. 8.1.5.318  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_267 Registers
        319. 8.1.5.319  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_268 Registers
        320. 8.1.5.320  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_269 Registers
        321. 8.1.5.321  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_270 Registers
        322. 8.1.5.322  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_271 Registers
        323. 8.1.5.323  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_272 Registers
        324. 8.1.5.324  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_273 Registers
        325. 8.1.5.325  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_274 Registers
        326. 8.1.5.326  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_275 Registers
        327. 8.1.5.327  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_276 Registers
        328. 8.1.5.328  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_277 Registers
        329. 8.1.5.329  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_278 Registers
        330. 8.1.5.330  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_279 Registers
        331. 8.1.5.331  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_280 Registers
        332. 8.1.5.332  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_281 Registers
        333. 8.1.5.333  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_282 Registers
        334. 8.1.5.334  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_283 Registers
        335. 8.1.5.335  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_284 Registers
        336. 8.1.5.336  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_285 Registers
        337. 8.1.5.337  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_286 Registers
        338. 8.1.5.338  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_287 Registers
        339. 8.1.5.339  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_288 Registers
        340. 8.1.5.340  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_289 Registers
        341. 8.1.5.341  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_290 Registers
        342. 8.1.5.342  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_291 Registers
        343. 8.1.5.343  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_292 Registers
        344. 8.1.5.344  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_293 Registers
        345. 8.1.5.345  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_294 Registers
        346. 8.1.5.346  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_295 Registers
        347. 8.1.5.347  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_296 Registers
        348. 8.1.5.348  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_297 Registers
        349. 8.1.5.349  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_298 Registers
        350. 8.1.5.350  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_299 Registers
        351. 8.1.5.351  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_300 Registers
        352. 8.1.5.352  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_301 Registers
        353. 8.1.5.353  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_302 Registers
        354. 8.1.5.354  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_303 Registers
        355. 8.1.5.355  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_304 Registers
        356. 8.1.5.356  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_305 Registers
        357. 8.1.5.357  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_306 Registers
        358. 8.1.5.358  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_307 Registers
        359. 8.1.5.359  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_308 Registers
        360. 8.1.5.360  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_309 Registers
        361. 8.1.5.361  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_310 Registers
        362. 8.1.5.362  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_311 Registers
        363. 8.1.5.363  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_312 Registers
        364. 8.1.5.364  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_313 Registers
        365. 8.1.5.365  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_314 Registers
        366. 8.1.5.366  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_315 Registers
        367. 8.1.5.367  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_316 Registers
        368. 8.1.5.368  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_317 Registers
        369. 8.1.5.369  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_318 Registers
        370. 8.1.5.370  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_319 Registers
        371. 8.1.5.371  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_320 Registers
        372. 8.1.5.372  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_321 Registers
        373. 8.1.5.373  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_322 Registers
        374. 8.1.5.374  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_323 Registers
        375. 8.1.5.375  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_324 Registers
        376. 8.1.5.376  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_325 Registers
        377. 8.1.5.377  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_326 Registers
        378. 8.1.5.378  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_327 Registers
        379. 8.1.5.379  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_328 Registers
        380. 8.1.5.380  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_329 Registers
        381. 8.1.5.381  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_330 Registers
        382. 8.1.5.382  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_331 Registers
        383. 8.1.5.383  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_332 Registers
        384. 8.1.5.384  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_333 Registers
        385. 8.1.5.385  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_334 Registers
        386. 8.1.5.386  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_335 Registers
        387. 8.1.5.387  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_336 Registers
        388. 8.1.5.388  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_337 Registers
        389. 8.1.5.389  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_338 Registers
        390. 8.1.5.390  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_339 Registers
        391. 8.1.5.391  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_340 Registers
        392. 8.1.5.392  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_341 Registers
        393. 8.1.5.393  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_342 Registers
        394. 8.1.5.394  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_343 Registers
        395. 8.1.5.395  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_344 Registers
        396. 8.1.5.396  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_345 Registers
        397. 8.1.5.397  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_346 Registers
        398. 8.1.5.398  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_347 Registers
        399. 8.1.5.399  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_348 Registers
        400. 8.1.5.400  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_349 Registers
        401. 8.1.5.401  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_350 Registers
        402. 8.1.5.402  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_351 Registers
        403. 8.1.5.403  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_352 Registers
        404. 8.1.5.404  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_353 Registers
        405. 8.1.5.405  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_354 Registers
        406. 8.1.5.406  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_355 Registers
        407. 8.1.5.407  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_356 Registers
        408. 8.1.5.408  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_357 Registers
        409. 8.1.5.409  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_358 Registers
        410. 8.1.5.410  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_359 Registers
        411. 8.1.5.411  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_360 Registers
        412. 8.1.5.412  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_361 Registers
        413. 8.1.5.413  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_362 Registers
        414. 8.1.5.414  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_363 Registers
        415. 8.1.5.415  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_364 Registers
        416. 8.1.5.416  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_365 Registers
        417. 8.1.5.417  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_366 Registers
        418. 8.1.5.418  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_367 Registers
        419. 8.1.5.419  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_368 Registers
        420. 8.1.5.420  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_369 Registers
        421. 8.1.5.421  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_370 Registers
        422. 8.1.5.422  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_371 Registers
        423. 8.1.5.423  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_372 Registers
        424. 8.1.5.424  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_373 Registers
        425. 8.1.5.425  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_374 Registers
        426. 8.1.5.426  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_375 Registers
        427. 8.1.5.427  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_376 Registers
        428. 8.1.5.428  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_377 Registers
        429. 8.1.5.429  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_378 Registers
        430. 8.1.5.430  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_379 Registers
        431. 8.1.5.431  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_380 Registers
        432. 8.1.5.432  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_381 Registers
        433. 8.1.5.433  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_382 Registers
        434. 8.1.5.434  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_383 Registers
        435. 8.1.5.435  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_384 Registers
        436. 8.1.5.436  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_385 Registers
        437. 8.1.5.437  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_386 Registers
        438. 8.1.5.438  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_387 Registers
        439. 8.1.5.439  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_388 Registers
        440. 8.1.5.440  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_389 Registers
        441. 8.1.5.441  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_390 Registers
        442. 8.1.5.442  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_391 Registers
        443. 8.1.5.443  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_392 Registers
        444. 8.1.5.444  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_393 Registers
        445. 8.1.5.445  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_394 Registers
        446. 8.1.5.446  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_395 Registers
        447. 8.1.5.447  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_396 Registers
        448. 8.1.5.448  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_397 Registers
        449. 8.1.5.449  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_398 Registers
        450. 8.1.5.450  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_399 Registers
        451. 8.1.5.451  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_400 Registers
        452. 8.1.5.452  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_401 Registers
        453. 8.1.5.453  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_402 Registers
        454. 8.1.5.454  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_403 Registers
        455. 8.1.5.455  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_404 Registers
        456. 8.1.5.456  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_405 Registers
        457. 8.1.5.457  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_406 Registers
        458. 8.1.5.458  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_407 Registers
        459. 8.1.5.459  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_408 Registers
        460. 8.1.5.460  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_409 Registers
        461. 8.1.5.461  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_410 Registers
        462. 8.1.5.462  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_411 Registers
        463. 8.1.5.463  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_412 Registers
        464. 8.1.5.464  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_413 Registers
        465. 8.1.5.465  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_414 Registers
        466. 8.1.5.466  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_415 Registers
        467. 8.1.5.467  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_416 Registers
        468. 8.1.5.468  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_417 Registers
        469. 8.1.5.469  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_418 Registers
        470. 8.1.5.470  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_419 Registers
        471. 8.1.5.471  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_420 Registers
        472. 8.1.5.472  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_421 Registers
        473. 8.1.5.473  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_CTL_422 Registers
        474. 8.1.5.474  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_0 Registers
        475. 8.1.5.475  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_1 Registers
        476. 8.1.5.476  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_2 Registers
        477. 8.1.5.477  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_3 Registers
        478. 8.1.5.478  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_4 Registers
        479. 8.1.5.479  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_5 Registers
        480. 8.1.5.480  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_6 Registers
        481. 8.1.5.481  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_7 Registers
        482. 8.1.5.482  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_8 Registers
        483. 8.1.5.483  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_9 Registers
        484. 8.1.5.484  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_10 Registers
        485. 8.1.5.485  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_11 Registers
        486. 8.1.5.486  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_12 Registers
        487. 8.1.5.487  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_13 Registers
        488. 8.1.5.488  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_14 Registers
        489. 8.1.5.489  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_15 Registers
        490. 8.1.5.490  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_16 Registers
        491. 8.1.5.491  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_17 Registers
        492. 8.1.5.492  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_18 Registers
        493. 8.1.5.493  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_19 Registers
        494. 8.1.5.494  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_20 Registers
        495. 8.1.5.495  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_21 Registers
        496. 8.1.5.496  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_22 Registers
        497. 8.1.5.497  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_23 Registers
        498. 8.1.5.498  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_24 Registers
        499. 8.1.5.499  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_25 Registers
        500. 8.1.5.500  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_26 Registers
        501. 8.1.5.501  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_27 Registers
        502. 8.1.5.502  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_28 Registers
        503. 8.1.5.503  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_29 Registers
        504. 8.1.5.504  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_30 Registers
        505. 8.1.5.505  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_31 Registers
        506. 8.1.5.506  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_32 Registers
        507. 8.1.5.507  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_33 Registers
        508. 8.1.5.508  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_34 Registers
        509. 8.1.5.509  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_35 Registers
        510. 8.1.5.510  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_36 Registers
        511. 8.1.5.511  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_37 Registers
        512. 8.1.5.512  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_38 Registers
        513. 8.1.5.513  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_39 Registers
        514. 8.1.5.514  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_40 Registers
        515. 8.1.5.515  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_41 Registers
        516. 8.1.5.516  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_42 Registers
        517. 8.1.5.517  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_43 Registers
        518. 8.1.5.518  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_44 Registers
        519. 8.1.5.519  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_45 Registers
        520. 8.1.5.520  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_46 Registers
        521. 8.1.5.521  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_47 Registers
        522. 8.1.5.522  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_48 Registers
        523. 8.1.5.523  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_49 Registers
        524. 8.1.5.524  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_50 Registers
        525. 8.1.5.525  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_51 Registers
        526. 8.1.5.526  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_52 Registers
        527. 8.1.5.527  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_53 Registers
        528. 8.1.5.528  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_54 Registers
        529. 8.1.5.529  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_55 Registers
        530. 8.1.5.530  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_56 Registers
        531. 8.1.5.531  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_57 Registers
        532. 8.1.5.532  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_58 Registers
        533. 8.1.5.533  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_59 Registers
        534. 8.1.5.534  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_60 Registers
        535. 8.1.5.535  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_61 Registers
        536. 8.1.5.536  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_62 Registers
        537. 8.1.5.537  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_63 Registers
        538. 8.1.5.538  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_64 Registers
        539. 8.1.5.539  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_65 Registers
        540. 8.1.5.540  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_66 Registers
        541. 8.1.5.541  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_67 Registers
        542. 8.1.5.542  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_68 Registers
        543. 8.1.5.543  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_69 Registers
        544. 8.1.5.544  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_70 Registers
        545. 8.1.5.545  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_71 Registers
        546. 8.1.5.546  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_72 Registers
        547. 8.1.5.547  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_73 Registers
        548. 8.1.5.548  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_74 Registers
        549. 8.1.5.549  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_75 Registers
        550. 8.1.5.550  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_76 Registers
        551. 8.1.5.551  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_77 Registers
        552. 8.1.5.552  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_78 Registers
        553. 8.1.5.553  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_79 Registers
        554. 8.1.5.554  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_80 Registers
        555. 8.1.5.555  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_81 Registers
        556. 8.1.5.556  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_82 Registers
        557. 8.1.5.557  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_83 Registers
        558. 8.1.5.558  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_84 Registers
        559. 8.1.5.559  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_85 Registers
        560. 8.1.5.560  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_86 Registers
        561. 8.1.5.561  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_87 Registers
        562. 8.1.5.562  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_88 Registers
        563. 8.1.5.563  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_89 Registers
        564. 8.1.5.564  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_90 Registers
        565. 8.1.5.565  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_91 Registers
        566. 8.1.5.566  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_92 Registers
        567. 8.1.5.567  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_93 Registers
        568. 8.1.5.568  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_94 Registers
        569. 8.1.5.569  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_95 Registers
        570. 8.1.5.570  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_96 Registers
        571. 8.1.5.571  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_97 Registers
        572. 8.1.5.572  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_98 Registers
        573. 8.1.5.573  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_99 Registers
        574. 8.1.5.574  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_100 Registers
        575. 8.1.5.575  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_101 Registers
        576. 8.1.5.576  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_102 Registers
        577. 8.1.5.577  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_103 Registers
        578. 8.1.5.578  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_104 Registers
        579. 8.1.5.579  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_105 Registers
        580. 8.1.5.580  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_106 Registers
        581. 8.1.5.581  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_107 Registers
        582. 8.1.5.582  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_108 Registers
        583. 8.1.5.583  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_109 Registers
        584. 8.1.5.584  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_110 Registers
        585. 8.1.5.585  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_111 Registers
        586. 8.1.5.586  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_112 Registers
        587. 8.1.5.587  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_113 Registers
        588. 8.1.5.588  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_114 Registers
        589. 8.1.5.589  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_115 Registers
        590. 8.1.5.590  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_116 Registers
        591. 8.1.5.591  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_117 Registers
        592. 8.1.5.592  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_118 Registers
        593. 8.1.5.593  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_119 Registers
        594. 8.1.5.594  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_120 Registers
        595. 8.1.5.595  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_121 Registers
        596. 8.1.5.596  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_122 Registers
        597. 8.1.5.597  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_123 Registers
        598. 8.1.5.598  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_124 Registers
        599. 8.1.5.599  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_125 Registers
        600. 8.1.5.600  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_126 Registers
        601. 8.1.5.601  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_127 Registers
        602. 8.1.5.602  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_128 Registers
        603. 8.1.5.603  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_129 Registers
        604. 8.1.5.604  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_130 Registers
        605. 8.1.5.605  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_131 Registers
        606. 8.1.5.606  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_132 Registers
        607. 8.1.5.607  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_133 Registers
        608. 8.1.5.608  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_134 Registers
        609. 8.1.5.609  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_135 Registers
        610. 8.1.5.610  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_136 Registers
        611. 8.1.5.611  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_137 Registers
        612. 8.1.5.612  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_138 Registers
        613. 8.1.5.613  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_139 Registers
        614. 8.1.5.614  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_140 Registers
        615. 8.1.5.615  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_141 Registers
        616. 8.1.5.616  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_142 Registers
        617. 8.1.5.617  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_143 Registers
        618. 8.1.5.618  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_144 Registers
        619. 8.1.5.619  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_145 Registers
        620. 8.1.5.620  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_146 Registers
        621. 8.1.5.621  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_147 Registers
        622. 8.1.5.622  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_148 Registers
        623. 8.1.5.623  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_149 Registers
        624. 8.1.5.624  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_150 Registers
        625. 8.1.5.625  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_151 Registers
        626. 8.1.5.626  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_152 Registers
        627. 8.1.5.627  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_153 Registers
        628. 8.1.5.628  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_154 Registers
        629. 8.1.5.629  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_155 Registers
        630. 8.1.5.630  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_156 Registers
        631. 8.1.5.631  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_157 Registers
        632. 8.1.5.632  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_158 Registers
        633. 8.1.5.633  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_159 Registers
        634. 8.1.5.634  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_160 Registers
        635. 8.1.5.635  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_161 Registers
        636. 8.1.5.636  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_162 Registers
        637. 8.1.5.637  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_163 Registers
        638. 8.1.5.638  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_164 Registers
        639. 8.1.5.639  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_165 Registers
        640. 8.1.5.640  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_166 Registers
        641. 8.1.5.641  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_167 Registers
        642. 8.1.5.642  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_168 Registers
        643. 8.1.5.643  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_169 Registers
        644. 8.1.5.644  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_170 Registers
        645. 8.1.5.645  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_171 Registers
        646. 8.1.5.646  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_172 Registers
        647. 8.1.5.647  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_173 Registers
        648. 8.1.5.648  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_174 Registers
        649. 8.1.5.649  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_175 Registers
        650. 8.1.5.650  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_176 Registers
        651. 8.1.5.651  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_177 Registers
        652. 8.1.5.652  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_178 Registers
        653. 8.1.5.653  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_179 Registers
        654. 8.1.5.654  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_180 Registers
        655. 8.1.5.655  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_181 Registers
        656. 8.1.5.656  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_182 Registers
        657. 8.1.5.657  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_183 Registers
        658. 8.1.5.658  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_184 Registers
        659. 8.1.5.659  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_185 Registers
        660. 8.1.5.660  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_186 Registers
        661. 8.1.5.661  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_187 Registers
        662. 8.1.5.662  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_188 Registers
        663. 8.1.5.663  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_189 Registers
        664. 8.1.5.664  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_190 Registers
        665. 8.1.5.665  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_191 Registers
        666. 8.1.5.666  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_192 Registers
        667. 8.1.5.667  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_193 Registers
        668. 8.1.5.668  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_194 Registers
        669. 8.1.5.669  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_195 Registers
        670. 8.1.5.670  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_196 Registers
        671. 8.1.5.671  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_197 Registers
        672. 8.1.5.672  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_198 Registers
        673. 8.1.5.673  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_199 Registers
        674. 8.1.5.674  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_200 Registers
        675. 8.1.5.675  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_201 Registers
        676. 8.1.5.676  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_202 Registers
        677. 8.1.5.677  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_203 Registers
        678. 8.1.5.678  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_204 Registers
        679. 8.1.5.679  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_205 Registers
        680. 8.1.5.680  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_206 Registers
        681. 8.1.5.681  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_207 Registers
        682. 8.1.5.682  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_208 Registers
        683. 8.1.5.683  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_209 Registers
        684. 8.1.5.684  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_210 Registers
        685. 8.1.5.685  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_211 Registers
        686. 8.1.5.686  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_212 Registers
        687. 8.1.5.687  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_213 Registers
        688. 8.1.5.688  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_214 Registers
        689. 8.1.5.689  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_215 Registers
        690. 8.1.5.690  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_216 Registers
        691. 8.1.5.691  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_217 Registers
        692. 8.1.5.692  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_218 Registers
        693. 8.1.5.693  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_219 Registers
        694. 8.1.5.694  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_220 Registers
        695. 8.1.5.695  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_221 Registers
        696. 8.1.5.696  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_222 Registers
        697. 8.1.5.697  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_223 Registers
        698. 8.1.5.698  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_224 Registers
        699. 8.1.5.699  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_225 Registers
        700. 8.1.5.700  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_226 Registers
        701. 8.1.5.701  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_227 Registers
        702. 8.1.5.702  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_228 Registers
        703. 8.1.5.703  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_229 Registers
        704. 8.1.5.704  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_230 Registers
        705. 8.1.5.705  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_231 Registers
        706. 8.1.5.706  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_232 Registers
        707. 8.1.5.707  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_233 Registers
        708. 8.1.5.708  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_234 Registers
        709. 8.1.5.709  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_235 Registers
        710. 8.1.5.710  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_236 Registers
        711. 8.1.5.711  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_237 Registers
        712. 8.1.5.712  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_238 Registers
        713. 8.1.5.713  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_239 Registers
        714. 8.1.5.714  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_240 Registers
        715. 8.1.5.715  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_241 Registers
        716. 8.1.5.716  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_242 Registers
        717. 8.1.5.717  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_243 Registers
        718. 8.1.5.718  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_244 Registers
        719. 8.1.5.719  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_245 Registers
        720. 8.1.5.720  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_246 Registers
        721. 8.1.5.721  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_247 Registers
        722. 8.1.5.722  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_248 Registers
        723. 8.1.5.723  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_249 Registers
        724. 8.1.5.724  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_250 Registers
        725. 8.1.5.725  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_251 Registers
        726. 8.1.5.726  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_252 Registers
        727. 8.1.5.727  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_253 Registers
        728. 8.1.5.728  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_254 Registers
        729. 8.1.5.729  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_255 Registers
        730. 8.1.5.730  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_256 Registers
        731. 8.1.5.731  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_257 Registers
        732. 8.1.5.732  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_258 Registers
        733. 8.1.5.733  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_259 Registers
        734. 8.1.5.734  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_260 Registers
        735. 8.1.5.735  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_261 Registers
        736. 8.1.5.736  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_262 Registers
        737. 8.1.5.737  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_263 Registers
        738. 8.1.5.738  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_264 Registers
        739. 8.1.5.739  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_265 Registers
        740. 8.1.5.740  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_266 Registers
        741. 8.1.5.741  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_267 Registers
        742. 8.1.5.742  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_268 Registers
        743. 8.1.5.743  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_269 Registers
        744. 8.1.5.744  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_270 Registers
        745. 8.1.5.745  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_271 Registers
        746. 8.1.5.746  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_272 Registers
        747. 8.1.5.747  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_273 Registers
        748. 8.1.5.748  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_274 Registers
        749. 8.1.5.749  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_275 Registers
        750. 8.1.5.750  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_276 Registers
        751. 8.1.5.751  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_277 Registers
        752. 8.1.5.752  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_278 Registers
        753. 8.1.5.753  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_279 Registers
        754. 8.1.5.754  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_280 Registers
        755. 8.1.5.755  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_281 Registers
        756. 8.1.5.756  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_282 Registers
        757. 8.1.5.757  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_283 Registers
        758. 8.1.5.758  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_284 Registers
        759. 8.1.5.759  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_285 Registers
        760. 8.1.5.760  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_286 Registers
        761. 8.1.5.761  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_287 Registers
        762. 8.1.5.762  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_288 Registers
        763. 8.1.5.763  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_289 Registers
        764. 8.1.5.764  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_290 Registers
        765. 8.1.5.765  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_291 Registers
        766. 8.1.5.766  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_292 Registers
        767. 8.1.5.767  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_293 Registers
        768. 8.1.5.768  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_294 Registers
        769. 8.1.5.769  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_295 Registers
        770. 8.1.5.770  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_296 Registers
        771. 8.1.5.771  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_297 Registers
        772. 8.1.5.772  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_298 Registers
        773. 8.1.5.773  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_299 Registers
        774. 8.1.5.774  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_300 Registers
        775. 8.1.5.775  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_301 Registers
        776. 8.1.5.776  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_302 Registers
        777. 8.1.5.777  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_303 Registers
        778. 8.1.5.778  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_304 Registers
        779. 8.1.5.779  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_305 Registers
        780. 8.1.5.780  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_306 Registers
        781. 8.1.5.781  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_307 Registers
        782. 8.1.5.782  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_308 Registers
        783. 8.1.5.783  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_309 Registers
        784. 8.1.5.784  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_310 Registers
        785. 8.1.5.785  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_311 Registers
        786. 8.1.5.786  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_312 Registers
        787. 8.1.5.787  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_313 Registers
        788. 8.1.5.788  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_314 Registers
        789. 8.1.5.789  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_315 Registers
        790. 8.1.5.790  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_316 Registers
        791. 8.1.5.791  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_317 Registers
        792. 8.1.5.792  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_318 Registers
        793. 8.1.5.793  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_319 Registers
        794. 8.1.5.794  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_320 Registers
        795. 8.1.5.795  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_321 Registers
        796. 8.1.5.796  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_322 Registers
        797. 8.1.5.797  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_323 Registers
        798. 8.1.5.798  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_324 Registers
        799. 8.1.5.799  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_325 Registers
        800. 8.1.5.800  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_326 Registers
        801. 8.1.5.801  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_327 Registers
        802. 8.1.5.802  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_328 Registers
        803. 8.1.5.803  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_329 Registers
        804. 8.1.5.804  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_330 Registers
        805. 8.1.5.805  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_331 Registers
        806. 8.1.5.806  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_332 Registers
        807. 8.1.5.807  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_333 Registers
        808. 8.1.5.808  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_334 Registers
        809. 8.1.5.809  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_335 Registers
        810. 8.1.5.810  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_336 Registers
        811. 8.1.5.811  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_337 Registers
        812. 8.1.5.812  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_338 Registers
        813. 8.1.5.813  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_339 Registers
        814. 8.1.5.814  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_340 Registers
        815. 8.1.5.815  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_341 Registers
        816. 8.1.5.816  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_342 Registers
        817. 8.1.5.817  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_343 Registers
        818. 8.1.5.818  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PI_344 Registers
        819. 8.1.5.819  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_0 Registers
        820. 8.1.5.820  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1 Registers
        821. 8.1.5.821  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_2 Registers
        822. 8.1.5.822  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_3 Registers
        823. 8.1.5.823  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_4 Registers
        824. 8.1.5.824  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_5 Registers
        825. 8.1.5.825  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_6 Registers
        826. 8.1.5.826  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_7 Registers
        827. 8.1.5.827  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_8 Registers
        828. 8.1.5.828  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_9 Registers
        829. 8.1.5.829  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_10 Registers
        830. 8.1.5.830  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_11 Registers
        831. 8.1.5.831  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_12 Registers
        832. 8.1.5.832  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_13 Registers
        833. 8.1.5.833  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_14 Registers
        834. 8.1.5.834  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_15 Registers
        835. 8.1.5.835  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_16 Registers
        836. 8.1.5.836  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_17 Registers
        837. 8.1.5.837  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_18 Registers
        838. 8.1.5.838  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_19 Registers
        839. 8.1.5.839  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_20 Registers
        840. 8.1.5.840  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_21 Registers
        841. 8.1.5.841  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_22 Registers
        842. 8.1.5.842  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_23 Registers
        843. 8.1.5.843  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_24 Registers
        844. 8.1.5.844  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_25 Registers
        845. 8.1.5.845  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_26 Registers
        846. 8.1.5.846  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_27 Registers
        847. 8.1.5.847  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_28 Registers
        848. 8.1.5.848  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_29 Registers
        849. 8.1.5.849  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_30 Registers
        850. 8.1.5.850  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_31 Registers
        851. 8.1.5.851  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_32 Registers
        852. 8.1.5.852  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_33 Registers
        853. 8.1.5.853  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_34 Registers
        854. 8.1.5.854  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_35 Registers
        855. 8.1.5.855  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_36 Registers
        856. 8.1.5.856  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_37 Registers
        857. 8.1.5.857  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_38 Registers
        858. 8.1.5.858  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_39 Registers
        859. 8.1.5.859  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_40 Registers
        860. 8.1.5.860  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_41 Registers
        861. 8.1.5.861  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_42 Registers
        862. 8.1.5.862  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_43 Registers
        863. 8.1.5.863  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_44 Registers
        864. 8.1.5.864  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_45 Registers
        865. 8.1.5.865  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_46 Registers
        866. 8.1.5.866  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_47 Registers
        867. 8.1.5.867  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_48 Registers
        868. 8.1.5.868  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_49 Registers
        869. 8.1.5.869  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_50 Registers
        870. 8.1.5.870  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_51 Registers
        871. 8.1.5.871  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_52 Registers
        872. 8.1.5.872  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_53 Registers
        873. 8.1.5.873  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_54 Registers
        874. 8.1.5.874  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_55 Registers
        875. 8.1.5.875  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_56 Registers
        876. 8.1.5.876  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_57 Registers
        877. 8.1.5.877  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_58 Registers
        878. 8.1.5.878  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_59 Registers
        879. 8.1.5.879  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_60 Registers
        880. 8.1.5.880  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_61 Registers
        881. 8.1.5.881  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_62 Registers
        882. 8.1.5.882  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_63 Registers
        883. 8.1.5.883  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_64 Registers
        884. 8.1.5.884  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_65 Registers
        885. 8.1.5.885  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_66 Registers
        886. 8.1.5.886  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_67 Registers
        887. 8.1.5.887  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_68 Registers
        888. 8.1.5.888  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_69 Registers
        889. 8.1.5.889  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_70 Registers
        890. 8.1.5.890  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_71 Registers
        891. 8.1.5.891  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_72 Registers
        892. 8.1.5.892  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_73 Registers
        893. 8.1.5.893  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_74 Registers
        894. 8.1.5.894  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_75 Registers
        895. 8.1.5.895  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_76 Registers
        896. 8.1.5.896  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_77 Registers
        897. 8.1.5.897  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_78 Registers
        898. 8.1.5.898  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_79 Registers
        899. 8.1.5.899  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_80 Registers
        900. 8.1.5.900  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_81 Registers
        901. 8.1.5.901  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_82 Registers
        902. 8.1.5.902  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_83 Registers
        903. 8.1.5.903  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_84 Registers
        904. 8.1.5.904  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_85 Registers
        905. 8.1.5.905  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_86 Registers
        906. 8.1.5.906  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_87 Registers
        907. 8.1.5.907  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_88 Registers
        908. 8.1.5.908  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_89 Registers
        909. 8.1.5.909  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_90 Registers
        910. 8.1.5.910  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_91 Registers
        911. 8.1.5.911  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_92 Registers
        912. 8.1.5.912  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_93 Registers
        913. 8.1.5.913  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_94 Registers
        914. 8.1.5.914  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_95 Registers
        915. 8.1.5.915  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_96 Registers
        916. 8.1.5.916  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_97 Registers
        917. 8.1.5.917  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_98 Registers
        918. 8.1.5.918  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_99 Registers
        919. 8.1.5.919  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_100 Registers
        920. 8.1.5.920  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_101 Registers
        921. 8.1.5.921  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_102 Registers
        922. 8.1.5.922  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_103 Registers
        923. 8.1.5.923  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_104 Registers
        924. 8.1.5.924  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_105 Registers
        925. 8.1.5.925  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_106 Registers
        926. 8.1.5.926  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_107 Registers
        927. 8.1.5.927  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_108 Registers
        928. 8.1.5.928  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_109 Registers
        929. 8.1.5.929  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_110 Registers
        930. 8.1.5.930  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_111 Registers
        931. 8.1.5.931  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_112 Registers
        932. 8.1.5.932  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_113 Registers
        933. 8.1.5.933  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_114 Registers
        934. 8.1.5.934  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_115 Registers
        935. 8.1.5.935  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_116 Registers
        936. 8.1.5.936  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_117 Registers
        937. 8.1.5.937  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_118 Registers
        938. 8.1.5.938  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_119 Registers
        939. 8.1.5.939  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_120 Registers
        940. 8.1.5.940  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_121 Registers
        941. 8.1.5.941  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_122 Registers
        942. 8.1.5.942  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_123 Registers
        943. 8.1.5.943  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_124 Registers
        944. 8.1.5.944  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_125 Registers
        945. 8.1.5.945  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_256 Registers
        946. 8.1.5.946  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_257 Registers
        947. 8.1.5.947  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_258 Registers
        948. 8.1.5.948  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_259 Registers
        949. 8.1.5.949  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_260 Registers
        950. 8.1.5.950  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_261 Registers
        951. 8.1.5.951  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_262 Registers
        952. 8.1.5.952  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_263 Registers
        953. 8.1.5.953  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_264 Registers
        954. 8.1.5.954  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_265 Registers
        955. 8.1.5.955  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_266 Registers
        956. 8.1.5.956  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_267 Registers
        957. 8.1.5.957  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_268 Registers
        958. 8.1.5.958  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_269 Registers
        959. 8.1.5.959  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_270 Registers
        960. 8.1.5.960  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_271 Registers
        961. 8.1.5.961  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_272 Registers
        962. 8.1.5.962  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_273 Registers
        963. 8.1.5.963  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_274 Registers
        964. 8.1.5.964  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_275 Registers
        965. 8.1.5.965  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_276 Registers
        966. 8.1.5.966  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_277 Registers
        967. 8.1.5.967  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_278 Registers
        968. 8.1.5.968  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_279 Registers
        969. 8.1.5.969  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_280 Registers
        970. 8.1.5.970  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_281 Registers
        971. 8.1.5.971  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_282 Registers
        972. 8.1.5.972  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_283 Registers
        973. 8.1.5.973  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_284 Registers
        974. 8.1.5.974  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_285 Registers
        975. 8.1.5.975  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_286 Registers
        976. 8.1.5.976  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_287 Registers
        977. 8.1.5.977  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_288 Registers
        978. 8.1.5.978  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_289 Registers
        979. 8.1.5.979  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_290 Registers
        980. 8.1.5.980  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_291 Registers
        981. 8.1.5.981  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_292 Registers
        982. 8.1.5.982  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_293 Registers
        983. 8.1.5.983  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_294 Registers
        984. 8.1.5.984  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_295 Registers
        985. 8.1.5.985  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_296 Registers
        986. 8.1.5.986  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_297 Registers
        987. 8.1.5.987  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_298 Registers
        988. 8.1.5.988  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_299 Registers
        989. 8.1.5.989  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_300 Registers
        990. 8.1.5.990  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_301 Registers
        991. 8.1.5.991  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_302 Registers
        992. 8.1.5.992  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_303 Registers
        993. 8.1.5.993  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_304 Registers
        994. 8.1.5.994  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_305 Registers
        995. 8.1.5.995  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_306 Registers
        996. 8.1.5.996  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_307 Registers
        997. 8.1.5.997  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_308 Registers
        998. 8.1.5.998  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_309 Registers
        999. 8.1.5.999  CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_310 Registers
        1000. 8.1.5.1000 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_311 Registers
        1001. 8.1.5.1001 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_312 Registers
        1002. 8.1.5.1002 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_313 Registers
        1003. 8.1.5.1003 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_314 Registers
        1004. 8.1.5.1004 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_315 Registers
        1005. 8.1.5.1005 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_316 Registers
        1006. 8.1.5.1006 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_317 Registers
        1007. 8.1.5.1007 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_318 Registers
        1008. 8.1.5.1008 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_319 Registers
        1009. 8.1.5.1009 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_320 Registers
        1010. 8.1.5.1010 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_321 Registers
        1011. 8.1.5.1011 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_322 Registers
        1012. 8.1.5.1012 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_323 Registers
        1013. 8.1.5.1013 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_324 Registers
        1014. 8.1.5.1014 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_325 Registers
        1015. 8.1.5.1015 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_326 Registers
        1016. 8.1.5.1016 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_327 Registers
        1017. 8.1.5.1017 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_328 Registers
        1018. 8.1.5.1018 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_329 Registers
        1019. 8.1.5.1019 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_330 Registers
        1020. 8.1.5.1020 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_331 Registers
        1021. 8.1.5.1021 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_332 Registers
        1022. 8.1.5.1022 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_333 Registers
        1023. 8.1.5.1023 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_334 Registers
        1024. 8.1.5.1024 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_335 Registers
        1025. 8.1.5.1025 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_336 Registers
        1026. 8.1.5.1026 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_337 Registers
        1027. 8.1.5.1027 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_338 Registers
        1028. 8.1.5.1028 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_339 Registers
        1029. 8.1.5.1029 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_340 Registers
        1030. 8.1.5.1030 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_341 Registers
        1031. 8.1.5.1031 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_342 Registers
        1032. 8.1.5.1032 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_343 Registers
        1033. 8.1.5.1033 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_344 Registers
        1034. 8.1.5.1034 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_345 Registers
        1035. 8.1.5.1035 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_346 Registers
        1036. 8.1.5.1036 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_347 Registers
        1037. 8.1.5.1037 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_348 Registers
        1038. 8.1.5.1038 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_349 Registers
        1039. 8.1.5.1039 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_350 Registers
        1040. 8.1.5.1040 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_351 Registers
        1041. 8.1.5.1041 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_352 Registers
        1042. 8.1.5.1042 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_353 Registers
        1043. 8.1.5.1043 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_354 Registers
        1044. 8.1.5.1044 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_355 Registers
        1045. 8.1.5.1045 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_356 Registers
        1046. 8.1.5.1046 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_357 Registers
        1047. 8.1.5.1047 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_358 Registers
        1048. 8.1.5.1048 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_359 Registers
        1049. 8.1.5.1049 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_360 Registers
        1050. 8.1.5.1050 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_361 Registers
        1051. 8.1.5.1051 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_362 Registers
        1052. 8.1.5.1052 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_363 Registers
        1053. 8.1.5.1053 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_364 Registers
        1054. 8.1.5.1054 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_365 Registers
        1055. 8.1.5.1055 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_366 Registers
        1056. 8.1.5.1056 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_367 Registers
        1057. 8.1.5.1057 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_368 Registers
        1058. 8.1.5.1058 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_369 Registers
        1059. 8.1.5.1059 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_370 Registers
        1060. 8.1.5.1060 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_371 Registers
        1061. 8.1.5.1061 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_372 Registers
        1062. 8.1.5.1062 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_373 Registers
        1063. 8.1.5.1063 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_374 Registers
        1064. 8.1.5.1064 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_375 Registers
        1065. 8.1.5.1065 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_376 Registers
        1066. 8.1.5.1066 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_377 Registers
        1067. 8.1.5.1067 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_378 Registers
        1068. 8.1.5.1068 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_379 Registers
        1069. 8.1.5.1069 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_380 Registers
        1070. 8.1.5.1070 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_381 Registers
        1071. 8.1.5.1071 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_512 Registers
        1072. 8.1.5.1072 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_513 Registers
        1073. 8.1.5.1073 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_514 Registers
        1074. 8.1.5.1074 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_515 Registers
        1075. 8.1.5.1075 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_516 Registers
        1076. 8.1.5.1076 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_517 Registers
        1077. 8.1.5.1077 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_518 Registers
        1078. 8.1.5.1078 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_519 Registers
        1079. 8.1.5.1079 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_520 Registers
        1080. 8.1.5.1080 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_521 Registers
        1081. 8.1.5.1081 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_522 Registers
        1082. 8.1.5.1082 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_523 Registers
        1083. 8.1.5.1083 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_524 Registers
        1084. 8.1.5.1084 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_525 Registers
        1085. 8.1.5.1085 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_526 Registers
        1086. 8.1.5.1086 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_527 Registers
        1087. 8.1.5.1087 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_528 Registers
        1088. 8.1.5.1088 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_529 Registers
        1089. 8.1.5.1089 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_530 Registers
        1090. 8.1.5.1090 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_531 Registers
        1091. 8.1.5.1091 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_532 Registers
        1092. 8.1.5.1092 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_533 Registers
        1093. 8.1.5.1093 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_534 Registers
        1094. 8.1.5.1094 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_535 Registers
        1095. 8.1.5.1095 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_536 Registers
        1096. 8.1.5.1096 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_537 Registers
        1097. 8.1.5.1097 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_538 Registers
        1098. 8.1.5.1098 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_539 Registers
        1099. 8.1.5.1099 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_540 Registers
        1100. 8.1.5.1100 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_541 Registers
        1101. 8.1.5.1101 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_542 Registers
        1102. 8.1.5.1102 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_543 Registers
        1103. 8.1.5.1103 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_544 Registers
        1104. 8.1.5.1104 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_545 Registers
        1105. 8.1.5.1105 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_546 Registers
        1106. 8.1.5.1106 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_547 Registers
        1107. 8.1.5.1107 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_548 Registers
        1108. 8.1.5.1108 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_549 Registers
        1109. 8.1.5.1109 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_550 Registers
        1110. 8.1.5.1110 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_551 Registers
        1111. 8.1.5.1111 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_552 Registers
        1112. 8.1.5.1112 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_553 Registers
        1113. 8.1.5.1113 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_554 Registers
        1114. 8.1.5.1114 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_768 Registers
        1115. 8.1.5.1115 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_769 Registers
        1116. 8.1.5.1116 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_770 Registers
        1117. 8.1.5.1117 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_771 Registers
        1118. 8.1.5.1118 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_772 Registers
        1119. 8.1.5.1119 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_773 Registers
        1120. 8.1.5.1120 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_774 Registers
        1121. 8.1.5.1121 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_775 Registers
        1122. 8.1.5.1122 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_776 Registers
        1123. 8.1.5.1123 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_777 Registers
        1124. 8.1.5.1124 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_778 Registers
        1125. 8.1.5.1125 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_779 Registers
        1126. 8.1.5.1126 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_780 Registers
        1127. 8.1.5.1127 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_781 Registers
        1128. 8.1.5.1128 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_782 Registers
        1129. 8.1.5.1129 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_783 Registers
        1130. 8.1.5.1130 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_784 Registers
        1131. 8.1.5.1131 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_785 Registers
        1132. 8.1.5.1132 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_786 Registers
        1133. 8.1.5.1133 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_787 Registers
        1134. 8.1.5.1134 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_788 Registers
        1135. 8.1.5.1135 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_789 Registers
        1136. 8.1.5.1136 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_790 Registers
        1137. 8.1.5.1137 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_791 Registers
        1138. 8.1.5.1138 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_792 Registers
        1139. 8.1.5.1139 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_793 Registers
        1140. 8.1.5.1140 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_794 Registers
        1141. 8.1.5.1141 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_795 Registers
        1142. 8.1.5.1142 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_796 Registers
        1143. 8.1.5.1143 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_797 Registers
        1144. 8.1.5.1144 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_798 Registers
        1145. 8.1.5.1145 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_799 Registers
        1146. 8.1.5.1146 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_800 Registers
        1147. 8.1.5.1147 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_801 Registers
        1148. 8.1.5.1148 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_802 Registers
        1149. 8.1.5.1149 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_803 Registers
        1150. 8.1.5.1150 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_804 Registers
        1151. 8.1.5.1151 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_805 Registers
        1152. 8.1.5.1152 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_806 Registers
        1153. 8.1.5.1153 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_807 Registers
        1154. 8.1.5.1154 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_808 Registers
        1155. 8.1.5.1155 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_809 Registers
        1156. 8.1.5.1156 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_810 Registers
        1157. 8.1.5.1157 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1024 Registers
        1158. 8.1.5.1158 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1025 Registers
        1159. 8.1.5.1159 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1026 Registers
        1160. 8.1.5.1160 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1027 Registers
        1161. 8.1.5.1161 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1028 Registers
        1162. 8.1.5.1162 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1029 Registers
        1163. 8.1.5.1163 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1030 Registers
        1164. 8.1.5.1164 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1031 Registers
        1165. 8.1.5.1165 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1032 Registers
        1166. 8.1.5.1166 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1033 Registers
        1167. 8.1.5.1167 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1034 Registers
        1168. 8.1.5.1168 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1035 Registers
        1169. 8.1.5.1169 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1036 Registers
        1170. 8.1.5.1170 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1037 Registers
        1171. 8.1.5.1171 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1038 Registers
        1172. 8.1.5.1172 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1039 Registers
        1173. 8.1.5.1173 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1040 Registers
        1174. 8.1.5.1174 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1041 Registers
        1175. 8.1.5.1175 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1042 Registers
        1176. 8.1.5.1176 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1043 Registers
        1177. 8.1.5.1177 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1044 Registers
        1178. 8.1.5.1178 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1045 Registers
        1179. 8.1.5.1179 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1046 Registers
        1180. 8.1.5.1180 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1047 Registers
        1181. 8.1.5.1181 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1048 Registers
        1182. 8.1.5.1182 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1049 Registers
        1183. 8.1.5.1183 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1050 Registers
        1184. 8.1.5.1184 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1051 Registers
        1185. 8.1.5.1185 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1052 Registers
        1186. 8.1.5.1186 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1053 Registers
        1187. 8.1.5.1187 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1054 Registers
        1188. 8.1.5.1188 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1055 Registers
        1189. 8.1.5.1189 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1056 Registers
        1190. 8.1.5.1190 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1057 Registers
        1191. 8.1.5.1191 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1058 Registers
        1192. 8.1.5.1192 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1059 Registers
        1193. 8.1.5.1193 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1060 Registers
        1194. 8.1.5.1194 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1061 Registers
        1195. 8.1.5.1195 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1062 Registers
        1196. 8.1.5.1196 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1063 Registers
        1197. 8.1.5.1197 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1064 Registers
        1198. 8.1.5.1198 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1065 Registers
        1199. 8.1.5.1199 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1066 Registers
        1200. 8.1.5.1200 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1280 Registers
        1201. 8.1.5.1201 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1281 Registers
        1202. 8.1.5.1202 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1282 Registers
        1203. 8.1.5.1203 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1283 Registers
        1204. 8.1.5.1204 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1284 Registers
        1205. 8.1.5.1205 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1285 Registers
        1206. 8.1.5.1206 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1286 Registers
        1207. 8.1.5.1207 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1287 Registers
        1208. 8.1.5.1208 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1288 Registers
        1209. 8.1.5.1209 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1289 Registers
        1210. 8.1.5.1210 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1290 Registers
        1211. 8.1.5.1211 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1291 Registers
        1212. 8.1.5.1212 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1292 Registers
        1213. 8.1.5.1213 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1293 Registers
        1214. 8.1.5.1214 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1294 Registers
        1215. 8.1.5.1215 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1295 Registers
        1216. 8.1.5.1216 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1296 Registers
        1217. 8.1.5.1217 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1297 Registers
        1218. 8.1.5.1218 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1298 Registers
        1219. 8.1.5.1219 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1299 Registers
        1220. 8.1.5.1220 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1300 Registers
        1221. 8.1.5.1221 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1301 Registers
        1222. 8.1.5.1222 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1302 Registers
        1223. 8.1.5.1223 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1303 Registers
        1224. 8.1.5.1224 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1304 Registers
        1225. 8.1.5.1225 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1305 Registers
        1226. 8.1.5.1226 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1306 Registers
        1227. 8.1.5.1227 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1307 Registers
        1228. 8.1.5.1228 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1308 Registers
        1229. 8.1.5.1229 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1309 Registers
        1230. 8.1.5.1230 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1310 Registers
        1231. 8.1.5.1231 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1311 Registers
        1232. 8.1.5.1232 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1312 Registers
        1233. 8.1.5.1233 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1313 Registers
        1234. 8.1.5.1234 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1314 Registers
        1235. 8.1.5.1235 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1315 Registers
        1236. 8.1.5.1236 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1316 Registers
        1237. 8.1.5.1237 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1317 Registers
        1238. 8.1.5.1238 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1318 Registers
        1239. 8.1.5.1239 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1319 Registers
        1240. 8.1.5.1240 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1320 Registers
        1241. 8.1.5.1241 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1321 Registers
        1242. 8.1.5.1242 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1322 Registers
        1243. 8.1.5.1243 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1323 Registers
        1244. 8.1.5.1244 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1324 Registers
        1245. 8.1.5.1245 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1325 Registers
        1246. 8.1.5.1246 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1326 Registers
        1247. 8.1.5.1247 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1327 Registers
        1248. 8.1.5.1248 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1328 Registers
        1249. 8.1.5.1249 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1329 Registers
        1250. 8.1.5.1250 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1330 Registers
        1251. 8.1.5.1251 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1331 Registers
        1252. 8.1.5.1252 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1332 Registers
        1253. 8.1.5.1253 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1333 Registers
        1254. 8.1.5.1254 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1334 Registers
        1255. 8.1.5.1255 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1335 Registers
        1256. 8.1.5.1256 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1336 Registers
        1257. 8.1.5.1257 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1337 Registers
        1258. 8.1.5.1258 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1338 Registers
        1259. 8.1.5.1259 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1339 Registers
        1260. 8.1.5.1260 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1340 Registers
        1261. 8.1.5.1261 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1341 Registers
        1262. 8.1.5.1262 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1342 Registers
        1263. 8.1.5.1263 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1343 Registers
        1264. 8.1.5.1264 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1344 Registers
        1265. 8.1.5.1265 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1345 Registers
        1266. 8.1.5.1266 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1346 Registers
        1267. 8.1.5.1267 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1347 Registers
        1268. 8.1.5.1268 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1348 Registers
        1269. 8.1.5.1269 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1349 Registers
        1270. 8.1.5.1270 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1350 Registers
        1271. 8.1.5.1271 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1351 Registers
        1272. 8.1.5.1272 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1352 Registers
        1273. 8.1.5.1273 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1353 Registers
        1274. 8.1.5.1274 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1354 Registers
        1275. 8.1.5.1275 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1355 Registers
        1276. 8.1.5.1276 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1356 Registers
        1277. 8.1.5.1277 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1357 Registers
        1278. 8.1.5.1278 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1358 Registers
        1279. 8.1.5.1279 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1359 Registers
        1280. 8.1.5.1280 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1360 Registers
        1281. 8.1.5.1281 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1361 Registers
        1282. 8.1.5.1282 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1362 Registers
        1283. 8.1.5.1283 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1363 Registers
        1284. 8.1.5.1284 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1364 Registers
        1285. 8.1.5.1285 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1365 Registers
        1286. 8.1.5.1286 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1366 Registers
        1287. 8.1.5.1287 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1367 Registers
        1288. 8.1.5.1288 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1368 Registers
        1289. 8.1.5.1289 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1369 Registers
        1290. 8.1.5.1290 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1370 Registers
        1291. 8.1.5.1291 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1371 Registers
        1292. 8.1.5.1292 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1372 Registers
        1293. 8.1.5.1293 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1373 Registers
        1294. 8.1.5.1294 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1374 Registers
        1295. 8.1.5.1295 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1375 Registers
        1296. 8.1.5.1296 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1376 Registers
        1297. 8.1.5.1297 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1377 Registers
        1298. 8.1.5.1298 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1378 Registers
        1299. 8.1.5.1299 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1379 Registers
        1300. 8.1.5.1300 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1380 Registers
        1301. 8.1.5.1301 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1381 Registers
        1302. 8.1.5.1302 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1382 Registers
        1303. 8.1.5.1303 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1383 Registers
        1304. 8.1.5.1304 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1384 Registers
        1305. 8.1.5.1305 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1385 Registers
        1306. 8.1.5.1306 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1386 Registers
        1307. 8.1.5.1307 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1387 Registers
        1308. 8.1.5.1308 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1388 Registers
        1309. 8.1.5.1309 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1389 Registers
        1310. 8.1.5.1310 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1390 Registers
        1311. 8.1.5.1311 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1391 Registers
        1312. 8.1.5.1312 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1392 Registers
        1313. 8.1.5.1313 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1393 Registers
        1314. 8.1.5.1314 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1394 Registers
        1315. 8.1.5.1315 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1395 Registers
        1316. 8.1.5.1316 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1396 Registers
        1317. 8.1.5.1317 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1397 Registers
        1318. 8.1.5.1318 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1398 Registers
        1319. 8.1.5.1319 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1399 Registers
        1320. 8.1.5.1320 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1400 Registers
        1321. 8.1.5.1321 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1401 Registers
        1322. 8.1.5.1322 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1402 Registers
        1323. 8.1.5.1323 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1403 Registers
        1324. 8.1.5.1324 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1404 Registers
        1325. 8.1.5.1325 CTLPHY_WRAP__CTL_CFG__CTLCFG_DDR16SS_DENALI_PHY_1405 Registers
        1326. 8.1.5.1326 Access Table
    2. 8.2 Region-based Address Translation (RAT) Module
      1. 8.2.1 RAT Functional Description
        1. 8.2.1.1 RAT Availability
        2. 8.2.1.2 RAT Operation
        3. 8.2.1.3 RAT Error Logging
      2. 8.2.2 RAT Registers
  11. Interrupts
    1. 9.1 Interrupt Architecture
    2. 9.2 Interrupt Controllers
      1. 9.2.1 Generic Interrupt Controller (GICSS)
        1. 9.2.1.1 GICSS Overview
          1. 9.2.1.1.1 GICSS Features
          2. 9.2.1.1.2 GICSS Not Supported Features
        2. 9.2.1.2 GICSS Integration
        3. 9.2.1.3 GICSS Functional Description
          1. 9.2.1.3.1 GICSS Block Diagram
          2. 9.2.1.3.2 Arm GIC-500
          3. 9.2.1.3.3 GICSS Interrupt Types
          4. 9.2.1.3.4 GICSS Interfaces
          5. 9.2.1.3.5 GICSS Interrupt Outputs
          6. 9.2.1.3.6 GICSS ECC Support
          7. 9.2.1.3.7 GICSS AXI2VBUSM and VBUSM2AXI Bridges
        4. 9.2.1.4 GICSS Registers
          1. 9.2.1.4.1 Arm GIC-500 Registers
          2. 9.2.1.4.2 GICSS0_ECC_AGGR Registers
      2. 9.2.2 Other Interrupt Controllers
    3. 9.3 Interrupt Routers
      1. 9.3.1 INTRTR Overview
      2. 9.3.2 INTRTR Integration
        1. 9.3.2.1 MCU_GPIOMUX_INTRTR0 Integration
        2. 9.3.2.2 GPIOMUX_INTRTR0 Integration
      3. 9.3.3 INTRTR Registers
        1. 9.3.3.1 GPIOMUX_INTRTR0 Registers
        2. 9.3.3.2 MCU_GPIOMUX_INTRTR0 Registers
    4. 9.4 Interrupt Sources
      1. 9.4.1 MAIN Domain Interrupt Maps
        1. 9.4.1.1 GICSS0 Interrupt Map
          1. 9.4.1.1.1 GICSS0 PPI Interrupt Map
          2. 9.4.1.1.2 GICSS0 SPI Interrupt Map
        2. 9.4.1.2 R5FSS0_CORE0 Interrupt Map
        3. 9.4.1.3 R5FSS0_CORE1 Interrupt Map
        4. 9.4.1.4 R5FSS1_CORE0 Interrupt Map
        5. 9.4.1.5 R5FSS1_CORE1 Interrupt Map
        6. 9.4.1.6 PRU_ICSSG0 Interrupt Map
        7. 9.4.1.7 PRU_ICSSG1 Interrupt Map
        8. 9.4.1.8 GPIOMUX_INTRTR0 Interrupt Map
        9. 9.4.1.9 ESM0 Interrupt Map
      2. 9.4.2 MCU Domain Interrupt Maps
        1. 9.4.2.1 MCU_M4FSS Interrupt Map
        2. 9.4.2.2 MCU_GPIOMUX_INTRTR0 Interrupt Map
        3. 9.4.2.3 MCU_ESM0 Interrupt Map
    5. 9.5 Time Sync and Compare Interrupt Events
      1. 9.5.1 CMPEVT_INTRTR0 Interrupt Map
      2. 9.5.2 TIMESYNC_INTRTR0 Interrupt Map
  12. 10Time Sync
    1. 10.1 Time Sync Module (CPTS)
      1. 10.1.1 CPTS Overview
        1. 10.1.1.1 CPTS Features
        2. 10.1.1.2 CPTS Not Supported Features
      2. 10.1.2 CPTS Integration
      3. 10.1.3 CPTS Functional Description
        1. 10.1.3.1  CPTS Architecture
        2. 10.1.3.2  CPTS Initialization
        3. 10.1.3.3  32-bit Time Stamp Value
        4. 10.1.3.4  64-bit Time Stamp Value
          1. 10.1.3.4.1 64-Bit Timestamp Nudge
          2. 10.1.3.4.2 64-bit Timestamp PPM
        5. 10.1.3.5  Event FIFO
        6. 10.1.3.6  Timestamp Compare Output
          1. 10.1.3.6.1 Non-Toggle Mode
          2. 10.1.3.6.2 Toggle Mode
        7. 10.1.3.7  Timestamp Sync Output
        8. 10.1.3.8  Timestamp GENF Output
          1. 10.1.3.8.1 GENFn Nudge
          2. 10.1.3.8.2 GENFn PPM
        9. 10.1.3.9  Time Sync Events
          1. 10.1.3.9.1 Time Stamp Push Event
          2. 10.1.3.9.2 Time Stamp Counter Rollover Event (32-bit mode only)
          3. 10.1.3.9.3 Time Stamp Counter Half-rollover Event (32-bit mode only)
          4. 10.1.3.9.4 Hardware Time Stamp Push Event
        10. 10.1.3.10 Timestamp Compare Event
        11. 10.1.3.11 CPTS Interrupt Handling
      4. 10.1.4 CPTS Registers
    2. 10.2 Timer Manager
      1. 10.2.1 Timer Manager Overview
        1. 10.2.1.1 Timer Manager Features
        2. 10.2.1.2 Timer Manager Not Supported Features
      2. 10.2.2 Timer Manager Integration
      3. 10.2.3 Timer Manager Functional Description
        1. 10.2.3.1 Timer Manager Function Overview
        2. 10.2.3.2 Timer Counter
          1. 10.2.3.2.1 Timer Counter Rollover
        3. 10.2.3.3 Timer Control Module (FSM)
        4. 10.2.3.4 Timer Reprogramming
          1. 10.2.3.4.1 Periodic Hardware Timers
        5. 10.2.3.5 Event FIFO
        6. 10.2.3.6 Timer Manager Unmapped Events mapping
      4. 10.2.4 Timer Manager Programming Guide
        1. 10.2.4.1 Timer Manager Low-level Programming Models
          1. 10.2.4.1.1 Surrounding Modules Global Initialization
          2. 10.2.4.1.2 Initialization Sequence
          3. 10.2.4.1.3 Real-time Operating Requirements
            1. 10.2.4.1.3.1 Timer Touch
            2. 10.2.4.1.3.2 Timer Disable
            3. 10.2.4.1.3.3 Timer Enable
          4. 10.2.4.1.4 Power Up/Power Down Sequence
      5. 10.2.5 Timer Manager Registers
        1. 10.2.5.1 TIMERMGR_CFG_CFG Registers
        2. 10.2.5.2 TIMERMGR_CFG_TIMERS Registers
    3. 10.3 Time Sync and Compare Events
      1. 10.3.1 Time Sync Architecture
        1. 10.3.1.1 Time Sync Architecture Overview
      2. 10.3.2 Time Sync Routers
        1. 10.3.2.1 Time Sync Routers Overview
        2. 10.3.2.2 Time Sync Routers Integration
          1. 10.3.2.2.1 TIMESYNC_INTRTR0 Integration
          2. 10.3.2.2.2 CMPEVT_INTRTR0 Integration
        3. 10.3.2.3 Time Sync Routers Registers
          1. 10.3.2.3.1 TIMESYNC_EVENT_INTROUTER Registers
            1. 10.3.2.3.1.1 INTR_ROUTER_CFG_TIMESYNC_EVENT_INTROUTER_PID Registers
            2. 10.3.2.3.1.2 INTR_ROUTER_CFG_TIMESYNC_EVENT_INTROUTER_MUXCNTL Registers
            3. 10.3.2.3.1.3 Access Table
          2. 10.3.2.3.2 CMP_EVENT_INTROUTER Registers
            1. 10.3.2.3.2.1 INTR_ROUTER_CFG_CMP_EVENT_INTROUTER_PID Registers
            2. 10.3.2.3.2.2 INTR_ROUTER_CFG_CMP_EVENT_INTROUTER_MUXCNTL Registers
            3. 10.3.2.3.2.3 Access Table
      3. 10.3.3 Time Sync Event Sources
  13. 11Data Movement Architecture
    1. 11.1 Data Movement Architecture Overview
      1. 11.1.1 Overview
        1. 11.1.1.1 Ring Accelerator (RINGACC)
        2. 11.1.1.2 Secure Proxy (SEC_PROXY)
        3. 11.1.1.3 Interrupt Aggregator (INTAGGR)
        4. 11.1.1.4 Packet DMA (PKTDMA)
          1. 11.1.1.4.1 PKTDMA Submodule Descriptions
            1. 11.1.1.4.1.1  Bus Interface Unit
            2. 11.1.1.4.1.2  Config CR
            3. 11.1.1.4.1.3  Configuration Registers
              1. 11.1.1.4.1.3.1 RX State Mapping
              2. 11.1.1.4.1.3.2 TX State Mapping
            4. 11.1.1.4.1.4  Tx Packet DMA Unit
            5. 11.1.1.4.1.5  Tx Packet Coherency Unit
            6. 11.1.1.4.1.6  Tx Per Channel Buffers
            7. 11.1.1.4.1.7  Rx Per Channel Buffers
            8. 11.1.1.4.1.8  Rx Packet DMA Unit
            9. 11.1.1.4.1.9  Rx Packet Coherency Unit
            10. 11.1.1.4.1.10 Event Handler
          2. 11.1.1.4.2 Channel Classes
        5. 11.1.1.5 Block Copy DMA (BCDMA)
          1. 11.1.1.5.1 BCDMA Submodule Descriptions
            1. 11.1.1.5.1.1  Bus Interface Unit
            2. 11.1.1.5.1.2  Config CR
            3. 11.1.1.5.1.3  Configuration Registers
              1. 11.1.1.5.1.3.1 BCDMA Mapping Table
            4. 11.1.1.5.1.4  Read Unit(s)
            5. 11.1.1.5.1.5  TR Coherency Unit
            6. 11.1.1.5.1.6  Per-Copy-Channel Buffers
            7. 11.1.1.5.1.7  Tx Per-Split-Channel Buffers
            8. 11.1.1.5.1.8  Rx Per-Split-Channel Buffers
            9. 11.1.1.5.1.9  Write Unit(s)
            10. 11.1.1.5.1.10 Event Coherency Unit
            11. 11.1.1.5.1.11 Event Handler
          2. 11.1.1.5.2 Channel Classes
      2. 11.1.2 Definition of Terms
      3. 11.1.3 DMSS Hardware/Software Interface
        1. 11.1.3.1 Data Buffers
        2. 11.1.3.2 Descriptors
          1. 11.1.3.2.1 Host Packet Descriptor
          2. 11.1.3.2.2 Host Buffer Descriptor
          3. 11.1.3.2.3 Transfer Request Descriptor
        3. 11.1.3.3 Transfer Request Record
          1. 11.1.3.3.1 Overview
          2. 11.1.3.3.2 Addressing Algorithm
            1. 11.1.3.3.2.1 Linear Addressing (Forward)
          3. 11.1.3.3.3 Transfer Request Formats
          4. 11.1.3.3.4 Flags Field Definition
            1. 11.1.3.3.4.1 Type: TR Type Field
            2. 11.1.3.3.4.2 EVENT_SIZE: Event Generation Definition
            3. 11.1.3.3.4.3 TRIGGER_INFO: TR Triggers
            4. 11.1.3.3.4.4 TRIGGERX_TYPE: Trigger Type
            5. 11.1.3.3.4.5 TRIGGERX: Trigger Selection
            6. 11.1.3.3.4.6 Configuration Specific Flags Definition
          5. 11.1.3.3.5 TR Address and Size Attributes
            1. 11.1.3.3.5.1  ICNT0
            2. 11.1.3.3.5.2  ICNT1
            3. 11.1.3.3.5.3  ADDR
            4. 11.1.3.3.5.4  DIM1
            5. 11.1.3.3.5.5  ICNT2
            6. 11.1.3.3.5.6  ICNT3
            7. 11.1.3.3.5.7  DIM2
            8. 11.1.3.3.5.8  DIM3
            9. 11.1.3.3.5.9  DDIM1
            10. 11.1.3.3.5.10 DADDR
            11. 11.1.3.3.5.11 DDIM2
            12. 11.1.3.3.5.12 DDIM3
            13. 11.1.3.3.5.13 DICNT0
            14. 11.1.3.3.5.14 DICNT1
            15. 11.1.3.3.5.15 DICNT2
            16. 11.1.3.3.5.16 DICNT3
        4. 11.1.3.4 Transfer Response Record
          1. 11.1.3.4.1 STATUS Field Definition
            1. 11.1.3.4.1.1 STATUS_TYPE Definitions
              1. 11.1.3.4.1.1.1 Transfer Error
              2. 11.1.3.4.1.1.2 Aborted Error
              3. 11.1.3.4.1.1.3 Submission Error
              4. 11.1.3.4.1.1.4 Unsupported Feature
              5. 11.1.3.4.1.1.5 Transfer Exception
              6. 11.1.3.4.1.1.6 Teardown Flush
        5. 11.1.3.5 Channels
        6. 11.1.3.6 Flows
        7. 11.1.3.7 Queues
          1. 11.1.3.7.1 Queue Types
            1. 11.1.3.7.1.1 Transmit Queues
            2. 11.1.3.7.1.2 Transmit Completion Queues
            3. 11.1.3.7.1.3 Free Descriptor / Buffer Queues
            4. 11.1.3.7.1.4 Receive Queues
            5. 11.1.3.7.1.5 Ring Based Queues Implementation
      4. 11.1.4 Operational Description
        1. 11.1.4.1  Resource Allocation
        2. 11.1.4.2  PKTDMA/BCDMA - Ring Operation
          1. 11.1.4.2.1 Queue Initialization
          2. 11.1.4.2.2 Queueing Entries
          3. 11.1.4.2.3 De-queueing Entries
        3. 11.1.4.3  PKTDMA/BCDMA - Output Event Generation
        4. 11.1.4.4  PKTDMA - Transmit Channel Setup
        5. 11.1.4.5  PKTDMA - Transmit Channel Pause
        6. 11.1.4.6  PKTDMA - Transmit Channel Teardown
        7. 11.1.4.7  PKTDMA - Transmit Operation
        8. 11.1.4.8  PKTDMA - Receive Free Descriptor / Buffer Queue Setup
        9. 11.1.4.9  PKTDMA - Receive Channel Setup
        10. 11.1.4.10 PKTDMA - Receive Channel Teardown
        11. 11.1.4.11 PKTDMA - Receive Channel Pause
        12. 11.1.4.12 PKTDMA - Receive Operation
        13. 11.1.4.13 BCDMA - Block Copy Channel Setup
        14. 11.1.4.14 BCDMA - Block Copy Channel Pause
        15. 11.1.4.15 BCDMA - Block Copy Channel Teardown
        16. 11.1.4.16 BCDMA - Block Copy Operation (TR Packet)
        17. 11.1.4.17 BCDMA - Block Copy Error/Exception Handling
          1. 11.1.4.17.1 Null Icnt0 Error
          2. 11.1.4.17.2 Unsupported TR Type
          3. 11.1.4.17.3 Bus Errors
        18. 11.1.4.18 BCDMA - Split Transmit Channel Setup
        19. 11.1.4.19 BCDMA - Split Transmit Operation Pause
        20. 11.1.4.20 BCDMA - Split Transmit Channel Teardown
        21. 11.1.4.21 BCDMA - Split Transmit Operation (TR Packet)
        22. 11.1.4.22 BCDMA - Split Transmit Error / Exception Handling
          1. 11.1.4.22.1 Null Icnt0 Error
          2. 11.1.4.22.2 Unsupported TR Type
          3. 11.1.4.22.3 Bus Errors
        23. 11.1.4.23 BCDMA - Split Receive Channel Setup
        24. 11.1.4.24 BCDMA - Split Receive Channel Pause
        25. 11.1.4.25 BCDMA - Split Receive Channel Teardown
        26. 11.1.4.26 BCDMA - Split Receive Operation (TR Packet)
        27. 11.1.4.27 BCDMA - Split Receive Error / Exception Handling
          1. 11.1.4.27.1 PKTDMA Exception Conditions
            1. 11.1.4.27.1.1 Descriptor Starvation
            2. 11.1.4.27.1.2 Protocol Errors
            3. 11.1.4.27.1.3 Dropped Packets
            4. 11.1.4.27.1.4 Long Packet
          2. 11.1.4.27.2 BCDMA Exception Conditions
            1. 11.1.4.27.2.1 Reception of EOL Delimiter
            2. 11.1.4.27.2.2 EOP Asserted Prematurely (Short Packet)
            3. 11.1.4.27.2.3 EOP Asserted Late (Long Packets)
            4. 11.1.4.27.2.4 Descriptor Starvation
    2. 11.2 Data Movement Subsystem (DMSS)
      1. 11.2.1 Data Movement Subsystem (DMSS)
        1. 11.2.1.1 DMSS Overview
        2. 11.2.1.2 DMSS Integration
          1. 11.2.1.2.1 DMSS Integration Attributes
          2. 11.2.1.2.2 DMSS Clocks
          3. 11.2.1.2.3 DMSS Resets
          4. 11.2.1.2.4 DMSS Interrupt Requests
          5. 11.2.1.2.5 DMSS L2G Interrupt Inputs
          6. 11.2.1.2.6 DMSS DMA Events
          7. 11.2.1.2.7 Global Event Map
          8. 11.2.1.2.8 PSI-L System Thread Map
        3. 11.2.1.3 DMSS Functional Description
        4. 11.2.1.4 DMSS Interrupt Configuration
          1. 11.2.1.4.1 DMSS Event and Interrupt Flow
            1. 11.2.1.4.1.1 DMSS Interrupt Description
        5. 11.2.1.5 DMSS Top-Level Registers
          1. 11.2.1.5.1 DMASS_PKTDMA_0 Registers
          2. 11.2.1.5.2 DMASS_BCDMA_0 Registers
      2. 11.2.2 Ring Accelerator (RINGACC)
        1. 11.2.2.1 RINGACC Overview
          1. 11.2.2.1.1 RINGACC Features
          2. 11.2.2.1.2 RINGACC Not Supported Features
          3. 11.2.2.1.3 RINGACC Parameters
        2. 11.2.2.2 RINGACC Integration
          1. 11.2.2.2.1 RINGACC Integration Attributes
          2. 11.2.2.2.2 RINGACC Clocks
          3. 11.2.2.2.3 RINGACC Resets
          4. 11.2.2.2.4 RINGACC Interrupt Requests
          5. 11.2.2.2.5 RINGACC Outbound Events
        3. 11.2.2.3 RINGACC Functional Description
          1. 11.2.2.3.1 Block Diagram
            1. 11.2.2.3.1.1  Configuration Registers
            2. 11.2.2.3.1.2  Source Command FIFO
            3. 11.2.2.3.1.3  Source Write Data FIFO
            4. 11.2.2.3.1.4  Source Read Data FIFO
            5. 11.2.2.3.1.5  Source Write Status FIFO
            6. 11.2.2.3.1.6  Main State Machine
            7. 11.2.2.3.1.7  Destination Command FIFO
            8. 11.2.2.3.1.8  Destination Write Data FIFO
            9. 11.2.2.3.1.9  Destination Read Data FIFO
            10. 11.2.2.3.1.10 Destination Write Status FIFO
          2. 11.2.2.3.2 RINGACC Functional Operation
            1. 11.2.2.3.2.1 Queue Modes
              1. 11.2.2.3.2.1.1 Ring Mode
              2. 11.2.2.3.2.1.2 Messaging Mode
              3. 11.2.2.3.2.1.3 Credentials Mode
              4. 11.2.2.3.2.1.4 Peek Support
              5. 11.2.2.3.2.1.5 Index Register Operation
            2. 11.2.2.3.2.2 VBUSM Target Ring Operations
            3. 11.2.2.3.2.3 VBUSM Initiator Interface Command ID Selection
            4. 11.2.2.3.2.4 Ring Push Operation (VBUSM Write to Source Interface)
            5. 11.2.2.3.2.5 Ring Pop Operation (VBUSM Read from Source Interface)
            6. 11.2.2.3.2.6 Host Doorbell Access
            7. 11.2.2.3.2.7 Queue Push Operation (VBUSM Write to Source Interface)
            8. 11.2.2.3.2.8 Queue Pop Operation (VBUSM Read from Source Interface)
            9. 11.2.2.3.2.9 Mismatched Element Size Handling
          3. 11.2.2.3.3 Events
          4. 11.2.2.3.4 Bus Error Handling
          5. 11.2.2.3.5 Monitors
            1. 11.2.2.3.5.1 Threshold Monitor
            2. 11.2.2.3.5.2 Watermark Monitor
            3. 11.2.2.3.5.3 Starvation Monitor
            4. 11.2.2.3.5.4 Statistics Monitor
            5. 11.2.2.3.5.5 Overflow
            6. 11.2.2.3.5.6 Ring Update Port
            7. 11.2.2.3.5.7 Tracing
        4. 11.2.2.4 RINGACC Registers
          1. 11.2.2.4.1 DMASS_RINGACC_0 Registers
      3. 11.2.3 Secure Proxy (SEC_PROXY)
        1. 11.2.3.1 Secure Proxy Overview
          1. 11.2.3.1.1 Secure Proxy Features
          2. 11.2.3.1.2 Secure Proxy Parameters
          3. 11.2.3.1.3 Secure Proxy Not Supported Features
        2. 11.2.3.2 Secure Proxy Integration
          1. 11.2.3.2.1 Secure Proxy Integration Attributes
          2. 11.2.3.2.2 Secure Proxy Clocks
          3. 11.2.3.2.3 Secure Proxy Resets
          4. 11.2.3.2.4 Secure Proxy Interrupt Requests
          5. 11.2.3.2.5 Secure Proxy DMA Events
        3. 11.2.3.3 Secure Proxy Functional Description
          1. 11.2.3.3.1  Targets
          2. 11.2.3.3.2  Buffers
          3. 11.2.3.3.3  Proxy Thread Sizes
          4. 11.2.3.3.4  Proxy Thread Interleaving
          5. 11.2.3.3.5  Proxy States
          6. 11.2.3.3.6  Proxy Host Access
          7. 11.2.3.3.7  Permission Inheritance
          8. 11.2.3.3.8  Resource Association
          9. 11.2.3.3.9  Direction
          10. 11.2.3.3.10 Threshold Events
          11. 11.2.3.3.11 Error Events
          12. 11.2.3.3.12 Bus Error and Credits
          13. 11.2.3.3.13 Debug
        4. 11.2.3.4 Secure Proxy Registers
          1. 11.2.3.4.1 DMASS_SEC_PROXY_0 Registers
      4. 11.2.4 Interrupt Aggregator (INTAGGR)
        1. 11.2.4.1 INTAGGR Overview
          1. 11.2.4.1.1 INTAGGR Features
          2. 11.2.4.1.2 INTAGGR Parameters
        2. 11.2.4.2 INTAGGR Integration
          1. 11.2.4.2.1 INTAGGR Integration Attributes
          2. 11.2.4.2.2 INTAGGR Clocks
          3. 11.2.4.2.3 INTAGGR Resets
          4. 11.2.4.2.4 INTAGGR Interrupt Requests
          5. 11.2.4.2.5 INTAGGR DMA Events
        3. 11.2.4.3 INTAGGR Functional Description
          1. 11.2.4.3.1 Submodule Descriptions
          2. 11.2.4.3.2 General Functionality
        4. 11.2.4.4 INTAGGR Registers
          1. 11.2.4.4.1 DMASS_INTAGGR_0 Registers
      5. 11.2.5 Packet Streaming Interface Link (PSI-L)
        1. 11.2.5.1 PSI-L Overview
        2. 11.2.5.2 PSI-L Functional Description
          1. 11.2.5.2.1 PSI-L Introduction
          2. 11.2.5.2.2 PSI-L Operation
        3. 11.2.5.3 PSI-L Configuration Registers
          1. 11.2.5.3.1 DMASS_PSILCFG_0 Registers
          2. 11.2.5.3.2 DMASS_PSILSS_0 Registers
    3. 11.3 Peripheral DMA (PDMA)
      1. 11.3.1 PDMA Controller
        1. 11.3.1.1 PDMA Overview
          1. 11.3.1.1.1 PDMA Features
            1. 11.3.1.1.1.1 PDMA0 Features
            2. 11.3.1.1.1.2 PDMA1 Features
        2. 11.3.1.2 PDMA Integration
          1. 11.3.1.2.1 PDMA Integration in MAIN Domain
        3. 11.3.1.3 PDMA Functional Description
          1. 11.3.1.3.1 PDMA Functional Blocks
            1. 11.3.1.3.1.1 Scheduler
            2. 11.3.1.3.1.2 Tx Per-Channel Buffers (TCP FIFO)
            3. 11.3.1.3.1.3 Tx DMA Unit (Tx Engine)
            4. 11.3.1.3.1.4 Rx Per-Channel Buffers (RCP FIFO)
            5. 11.3.1.3.1.5 Rx DMA Unit (Rx Engine)
          2. 11.3.1.3.2 PDMA General Functionality
            1. 11.3.1.3.2.1 Operational States
            2. 11.3.1.3.2.2 Clock Stop
            3. 11.3.1.3.2.3 Emulation Control
          3. 11.3.1.3.3 PDMA Events and Flow Control
            1. 11.3.1.3.3.1 Channel Types
              1. 11.3.1.3.3.1.1 X-Y FIFO Mode
              2. 11.3.1.3.3.1.2 MCAN Mode
            2. 11.3.1.3.3.2 Channel Triggering
            3. 11.3.1.3.3.3 Completion Events
          4. 11.3.1.3.4 PDMA Transmit Operation
            1. 11.3.1.3.4.1 Destination (Tx) Channel Allocation
            2. 11.3.1.3.4.2 Destination (Tx) Channel Out-of-Band Signals
            3. 11.3.1.3.4.3 Destination Channel Initialization
              1. 11.3.1.3.4.3.1 PSI-L Destination Thread Pairing
              2. 11.3.1.3.4.3.2 Static Transfer Request Setup
              3. 11.3.1.3.4.3.3 PSI-L Destination Thread Enables
            4. 11.3.1.3.4.4 Data Transfer
              1. 11.3.1.3.4.4.1 X-Y FIFO Mode Channel
                1. 11.3.1.3.4.4.1.1 X-Y FIFO Burst Mode
              2. 11.3.1.3.4.4.2 MCAN Mode Channel
                1. 11.3.1.3.4.4.2.1 MCAN Burst Mode
              3. 11.3.1.3.4.4.3 AASRC Mode Channel
            5. 11.3.1.3.4.5 Tx Pause
            6. 11.3.1.3.4.6 Tx Teardown
            7. 11.3.1.3.4.7 Tx Channel Reset
            8. 11.3.1.3.4.8 Tx Debug/State Registers
          5. 11.3.1.3.5 PDMA Receive Operation
            1. 11.3.1.3.5.1 Source (Rx) Channel Allocation
            2. 11.3.1.3.5.2 Source Channel Initialization
              1. 11.3.1.3.5.2.1 PSI-L Source Thread Pairing
              2. 11.3.1.3.5.2.2 Static Transfer Request Setup
              3. 11.3.1.3.5.2.3 PSI-L Source Thread Enables
            3. 11.3.1.3.5.3 Data Transfer
              1. 11.3.1.3.5.3.1 X-Y FIFO Mode Channel
              2. 11.3.1.3.5.3.2 MCAN Mode Channel
                1. 11.3.1.3.5.3.2.1 MCAN Burst Mode
              3. 11.3.1.3.5.3.3 AASRC Mode Channel
            4. 11.3.1.3.5.4 Rx Pause
            5. 11.3.1.3.5.5 Rx Teardown
            6. 11.3.1.3.5.6 Rx Channel Reset
            7. 11.3.1.3.5.7 Rx Debug/State Register
          6. 11.3.1.3.6 PDMA ECC Support
        4. 11.3.1.4 PDMA Registers
          1. 11.3.1.4.1 PDMA0 ECC Registers
          2. 11.3.1.4.2 PDMA1 ECC Registers
          3. 11.3.1.4.3 PDMA PSI-L TX Configuration Registers
          4. 11.3.1.4.4 PDMA PSI-L RX Configuration Registers
      2. 11.3.2 PDMA Sources
        1. 11.3.2.1 PDMA0 Event Map
        2. 11.3.2.2 PDMA1 Event Map
  14. 12Peripherals
    1. 12.1 General Connectivity Peripherals
      1. 12.1.1 Analog-to-Digital Converter (ADC)
        1. 12.1.1.1 ADC Overview
          1. 12.1.1.1.1 ADC Features
          2. 12.1.1.1.2 ADC Not Supported Features
        2. 12.1.1.2 ADC Environment
          1. 12.1.1.2.1 ADC Interface Signals
        3. 12.1.1.3 ADC Integration
          1. 12.1.1.3.1 ADC Integration in MAIN Domain
        4. 12.1.1.4 ADC Functional Description
          1. 12.1.1.4.1 ADC FSM Sequencer Functional Description
            1. 12.1.1.4.1.1 Step Enable
            2. 12.1.1.4.1.2 Step Configuration
              1. 12.1.1.4.1.2.1 One-Shot (Single) or Continuous Mode
              2. 12.1.1.4.1.2.2 Software- or Hardware-Enabled Steps
              3. 12.1.1.4.1.2.3 Averaging of Samples
              4. 12.1.1.4.1.2.4 Analog Multiplexer Input Select
              5. 12.1.1.4.1.2.5 Differential Control
              6. 12.1.1.4.1.2.6 FIFO Select
              7. 12.1.1.4.1.2.7 Range Check Interrupt Enable
            3. 12.1.1.4.1.3 Open Delay and Sample Delay
              1. 12.1.1.4.1.3.1 Open Delay
              2. 12.1.1.4.1.3.2 Sample Delay
            4. 12.1.1.4.1.4 Interrupts
            5. 12.1.1.4.1.5 Power Management
            6. 12.1.1.4.1.6 DMA Requests
          2. 12.1.1.4.2 ADC AFE Functional Description
            1. 12.1.1.4.2.1 AFE Functional Block Diagram
            2. 12.1.1.4.2.2 ADC GPI Integration
          3. 12.1.1.4.3 ADC FIFOs and DMA
            1. 12.1.1.4.3.1 FIFOs
            2. 12.1.1.4.3.2 DMA
          4. 12.1.1.4.4 ADC Error Correcting Code (ECC)
            1. 12.1.1.4.4.1 Testing ECC Error Injection
          5. 12.1.1.4.5 ADC Functional Internal Diagnostic Debug Mode
        5. 12.1.1.5 ADC Programming Guide
          1. 12.1.1.5.1 ADC Low-Level Programming Models
            1. 12.1.1.5.1.1 Global Initialization
              1. 12.1.1.5.1.1.1 Surrounding Modules Global Initialization
              2. 12.1.1.5.1.1.2 General Programming Model
            2. 12.1.1.5.1.2 During Operation
        6. 12.1.1.6 ADC Registers
      2. 12.1.2 General-Purpose Interface (GPIO)
        1. 12.1.2.1 GPIO Overview
          1. 12.1.2.1.1 GPIO Features
          2. 12.1.2.1.2 GPIO Not Supported Features
        2. 12.1.2.2 GPIO Environment
          1. 12.1.2.2.1 GPIO Interface Signals
        3. 12.1.2.3 GPIO Integration
          1. 12.1.2.3.1 GPIO Integration in MCU Domain
          2. 12.1.2.3.2 GPIO Integration in MAIN Domain
        4. 12.1.2.4 GPIO Functional Description
          1. 12.1.2.4.1 GPIO Block Diagram
          2. 12.1.2.4.2 GPIO Function
          3. 12.1.2.4.3 GPIO Interrupt and Event Generation
            1. 12.1.2.4.3.1 Interrupt Enable (per Bank)
            2. 12.1.2.4.3.2 Trigger Configuration (per Bit)
            3. 12.1.2.4.3.3 Interrupt Status and Clear (per Bit)
          4. 12.1.2.4.4 GPIO Interrupt Connectivity
          5. 12.1.2.4.5 GPIO Emulation Halt Operation
        5. 12.1.2.5 GPIO Programming Guide
          1. 12.1.2.5.1 GPIO Low-Level Programming Models
            1. 12.1.2.5.1.1 Global Initialization
              1. 12.1.2.5.1.1.1 Surrounding Modules Global Initialization
              2. 12.1.2.5.1.1.2 GPIO Module Global Initialization
            2. 12.1.2.5.1.2 GPIO Operational Modes Configuration
              1. 12.1.2.5.1.2.1 GPIO Read Input Register
              2. 12.1.2.5.1.2.2 GPIO Set Bit Function
              3. 12.1.2.5.1.2.3 GPIO Clear Bit Function
        6. 12.1.2.6 GPIO Registers
      3. 12.1.3 Inter-Integrated Circuit (I2C) Interface
        1. 12.1.3.1 I2C Overview
          1. 12.1.3.1.1 I2C Features
          2. 12.1.3.1.2 I2C Not Supported Features
        2. 12.1.3.2 I2C Environment
          1. 12.1.3.2.1 I2C Typical Application
            1. 12.1.3.2.1.1 I2C Pins for Typical Connections in I2C Mode
            2. 12.1.3.2.1.2 I2C Interface Typical Connections
            3. 12.1.3.2.1.3 4200
          2. 12.1.3.2.2 I2C Typical Connection Protocol and Data Format
            1. 12.1.3.2.2.1  I2C Serial Data Format
            2. 12.1.3.2.2.2  I2C Data Validity
            3. 12.1.3.2.2.3  I2C Start and Stop Conditions
            4. 12.1.3.2.2.4  I2C Addressing
              1. 12.1.3.2.2.4.1 Data Transfer Formats in F/S Mode
              2. 12.1.3.2.2.4.2 Data Transfer Format in HS Mode
            5. 12.1.3.2.2.5  I2C Controller Transmitter
            6. 12.1.3.2.2.6  I2C Controller Receiver
            7. 12.1.3.2.2.7  I2C Target Transmitter
            8. 12.1.3.2.2.8  I2C Target Receiver
            9. 12.1.3.2.2.9  I2C Bus Arbitration
            10. 12.1.3.2.2.10 I2C Clock Generation and Synchronization
        3. 12.1.3.3 I2C Integration
          1. 12.1.3.3.1 I2C Integration in MCU Domain
          2. 12.1.3.3.2 I2C Integration in MAIN Domain
        4. 12.1.3.4 I2C Functional Description
          1. 12.1.3.4.1 I2C Block Diagram
          2. 12.1.3.4.2 I2C Clocks
            1. 12.1.3.4.2.1 I2C Clocking
            2. 12.1.3.4.2.2 I2C Automatic Blocking of the I2C Clock Feature
          3. 12.1.3.4.3 I2C Software Reset
          4. 12.1.3.4.4 I2C Power Management
          5. 12.1.3.4.5 I2C Interrupt Requests
          6. 12.1.3.4.6 I2C Programmable Multitarget Channel Feature
          7. 12.1.3.4.7 I2C FIFO Management
            1. 12.1.3.4.7.1 I2C FIFO Interrupt Mode
            2. 12.1.3.4.7.2 I2C FIFO Polling Mode
            3. 12.1.3.4.7.3 I2C Draining Feature
          8. 12.1.3.4.8 I2C Noise Filter
          9. 12.1.3.4.9 I2C System Test Mode
        5. 12.1.3.5 I2C Programming Guide
          1. 12.1.3.5.1 I2C Low-Level Programming Models
            1. 12.1.3.5.1.1 I2C Programming Model
              1. 12.1.3.5.1.1.1 Main Program
                1. 12.1.3.5.1.1.1.1 Configure the Module Before Enabling the I2C Controller
                2. 12.1.3.5.1.1.1.2 Initialize the I2C Controller
                3. 12.1.3.5.1.1.1.3 Configure Target Address and the Data Control Register
                4. 12.1.3.5.1.1.1.4 Initiate a Transfer
                5. 12.1.3.5.1.1.1.5 Receive Data
                6. 12.1.3.5.1.1.1.6 Transmit Data
              2. 12.1.3.5.1.1.2 Interrupt Subroutine Sequence
              3. 12.1.3.5.1.1.3 Programming Flow-Diagrams
        6. 12.1.3.6 I2C Registers
      4. 12.1.4 Multichannel Serial Peripheral Interface (MCSPI)
        1. 12.1.4.1 MCSPI Overview
          1. 12.1.4.1.1 SPI Features
          2. 12.1.4.1.2 SPI Not Supported Features
        2. 12.1.4.2 MCSPI Environment
          1. 12.1.4.2.1 Basic MCSPI Pins for Controller Mode
          2. 12.1.4.2.2 Basic MCSPI Pins for Peripheral Mode
          3. 12.1.4.2.3 MCSPI Protocol and Data Format
            1. 12.1.4.2.3.1 Transfer Format
          4. 12.1.4.2.4 MCSPI in Controller Mode
          5. 12.1.4.2.5 MCSPI in Peripheral Mode
        3. 12.1.4.3 MCSPI Integration
          1. 12.1.4.3.1 MCSPI Integration in MCU Domain
          2. 12.1.4.3.2 MCSPI Integration in MAIN Domain
        4. 12.1.4.4 MCSPI Functional Description
          1. 12.1.4.4.1 SPI Block Diagram
          2. 12.1.4.4.2 MCSPI Reset
          3. 12.1.4.4.3 MCSPI Controller Mode
            1. 12.1.4.4.3.1 Controller Mode Features
            2. 12.1.4.4.3.2 Controller Transmit-and-Receive Mode (Full Duplex)
            3. 12.1.4.4.3.3 Controller Transmit-Only Mode (Half Duplex)
            4. 12.1.4.4.3.4 Controller Receive-Only Mode (Half Duplex)
            5. 12.1.4.4.3.5 Single-Channel Controller Mode
              1. 12.1.4.4.3.5.1 Programming Tips When Switching to Another Channel
              2. 12.1.4.4.3.5.2 Force SPIEN[i] Mode
              3. 12.1.4.4.3.5.3 Turbo Mode
            6. 12.1.4.4.3.6 Start-Bit Mode
            7. 12.1.4.4.3.7 Chip-Select Timing Control
            8. 12.1.4.4.3.8 Programmable MCSPI Clock (SPICLK)
              1. 12.1.4.4.3.8.1 Clock Ratio Granularity
          4. 12.1.4.4.4 MCSPI Peripheral Mode
            1. 12.1.4.4.4.1 Dedicated Resources
            2. 12.1.4.4.4.2 Peripheral Transmit-and-Receive Mode
            3. 12.1.4.4.4.3 Peripheral Transmit-Only Mode
            4. 12.1.4.4.4.4 Peripheral Receive-Only Mode
          5. 12.1.4.4.5 MCSPI 3-Pin or 4-Pin Mode
          6. 12.1.4.4.6 MCSPI FIFO Buffer Management
            1. 12.1.4.4.6.1 Buffer Almost Full
            2. 12.1.4.4.6.2 Buffer Almost Empty
            3. 12.1.4.4.6.3 End of Transfer Management
            4. 12.1.4.4.6.4 Multiple MCSPI Word Access
            5. 12.1.4.4.6.5 First MCSPI Word Delay
          7. 12.1.4.4.7 MCSPI Interrupts
            1. 12.1.4.4.7.1 Interrupt Events in Controller Mode
              1. 12.1.4.4.7.1.1 TXx_EMPTY
              2. 12.1.4.4.7.1.2 TXx_UNDERFLOW
              3. 12.1.4.4.7.1.3 RXx_ FULL
              4. 12.1.4.4.7.1.4 End Of Word Count
            2. 12.1.4.4.7.2 Interrupt Events in Peripheral Mode
              1. 12.1.4.4.7.2.1 TXx_EMPTY
              2. 12.1.4.4.7.2.2 TXx_UNDERFLOW
              3. 12.1.4.4.7.2.3 RXx_FULL
              4. 12.1.4.4.7.2.4 RX0_OVERFLOW
              5. 12.1.4.4.7.2.5 End Of Word Count
            3. 12.1.4.4.7.3 Interrupt-Driven Operation
            4. 12.1.4.4.7.4 Polling
          8. 12.1.4.4.8 MCSPI DMA Requests
          9. 12.1.4.4.9 MCSPI Power Saving Management
            1. 12.1.4.4.9.1 Normal Mode
            2. 12.1.4.4.9.2 Idle Mode
              1. 12.1.4.4.9.2.1 Force-Idle Mode
        5. 12.1.4.5 MCSPI Programming Guide
          1. 12.1.4.5.1 MCSPI Global Initialization
            1. 12.1.4.5.1.1 Surrounding Modules Global Initialization
            2. 12.1.4.5.1.2 MCSPI Global Initialization
              1. 12.1.4.5.1.2.1 Main Sequence – MCSPI Global Initialization
          2. 12.1.4.5.2 MCSPI Operational Mode Configuration
            1. 12.1.4.5.2.1 MCSPI Operational Modes
              1. 12.1.4.5.2.1.1 Common Transfer Sequence
              2. 12.1.4.5.2.1.2 End of Transfer Sequences
              3. 12.1.4.5.2.1.3 Transmit-and-Receive (Controller and Peripheral)
              4. 12.1.4.5.2.1.4 Transmit-Only (Controller and Peripheral)
                1. 12.1.4.5.2.1.4.1 Based on Interrupt Requests
                2. 12.1.4.5.2.1.4.2 Based on DMA Write Requests
              5. 12.1.4.5.2.1.5 Controller Normal Receive-Only
                1. 12.1.4.5.2.1.5.1 Based on Interrupt Requests
                2. 12.1.4.5.2.1.5.2 Based on DMA Read Requests
              6. 12.1.4.5.2.1.6 Controller Turbo Receive-Only
                1. 12.1.4.5.2.1.6.1 Based on Interrupt Requests
                2. 12.1.4.5.2.1.6.2 Based on DMA Read Requests
              7. 12.1.4.5.2.1.7 Peripheral Receive-Only
              8. 12.1.4.5.2.1.8 Transfer Procedures With FIFO
                1. 12.1.4.5.2.1.8.1 Common Transfer Sequence in FIFO Mode
                2. 12.1.4.5.2.1.8.2 End of Transfer Sequences in FIFO Mode
                3. 12.1.4.5.2.1.8.3 Transmit-and-Receive With Word Count
                4. 12.1.4.5.2.1.8.4 Transmit-and-Receive Without Word Count
                5. 12.1.4.5.2.1.8.5 Transmit-Only
                6. 12.1.4.5.2.1.8.6 Receive-Only With Word Count
                7. 12.1.4.5.2.1.8.7 Receive-Only Without Word Count
              9. 12.1.4.5.2.1.9 Common Transfer Procedures Without FIFO – Polling Method
                1. 12.1.4.5.2.1.9.1 Receive-Only Procedure – Polling Method
                2. 12.1.4.5.2.1.9.2 Receive-Only Procedure – Interrupt Method
                3. 12.1.4.5.2.1.9.3 Transmit-Only Procedure – Polling Method
                4. 12.1.4.5.2.1.9.4 Transmit-and-Receive Procedure – Polling Method
        6. 12.1.4.6 MCSPI Registers
      5. 12.1.5 Universal Asynchronous Receiver/Transmitter (UART)
        1. 12.1.5.1 UART Overview
          1. 12.1.5.1.1 UART Features
          2. 12.1.5.1.2 IrDA Features
          3. 12.1.5.1.3 CIR Features
          4. 12.1.5.1.4 UART Not Supported Features
        2. 12.1.5.2 UART Environment
          1. 12.1.5.2.1 UART Functional Interfaces
            1. 12.1.5.2.1.1 System Using UART Communication With Hardware Handshake
            2. 12.1.5.2.1.2 UART Interface Description
            3. 12.1.5.2.1.3 UART Protocol and Data Format
            4. 12.1.5.2.1.4 UART 9-bit Mode Data Format
          2. 12.1.5.2.2 RS-485 Functional Interfaces
            1. 12.1.5.2.2.1 System Using RS-485 Communication
            2. 12.1.5.2.2.2 RS-485 Interface Description
          3. 12.1.5.2.3 IrDA Functional Interfaces
            1. 12.1.5.2.3.1 System Using IrDA Communication Protocol
            2. 12.1.5.2.3.2 IrDA Interface Description
            3. 12.1.5.2.3.3 IrDA Protocol and Data Format
              1. 12.1.5.2.3.3.1 SIR Mode
                1. 12.1.5.2.3.3.1.1 Frame Format
                2. 12.1.5.2.3.3.1.2 Asynchronous Transparency
                3. 12.1.5.2.3.3.1.3 Abort Sequence
                4. 12.1.5.2.3.3.1.4 Pulse Shaping
                5. 12.1.5.2.3.3.1.5 Encoder
                6. 12.1.5.2.3.3.1.6 Decoder
                7. 12.1.5.2.3.3.1.7 IR Address Checking
              2. 12.1.5.2.3.3.2 SIR Free-Format Mode
              3. 12.1.5.2.3.3.3 MIR Mode
                1. 12.1.5.2.3.3.3.1 MIR Encoder/Decoder
                2. 12.1.5.2.3.3.3.2 SIP Generation
              4. 12.1.5.2.3.3.4 FIR Mode
          4. 12.1.5.2.4 CIR Functional Interfaces
            1. 12.1.5.2.4.1 System Using CIR Communication Protocol With Remote Control
            2. 12.1.5.2.4.2 CIR Interface Description
            3. 12.1.5.2.4.3 CIR Protocol and Data Format
              1. 12.1.5.2.4.3.1 Carrier Modulation
              2. 12.1.5.2.4.3.2 Pulse Duty Cycle
              3. 12.1.5.2.4.3.3 Consumer IR Encoding/Decoding
        3. 12.1.5.3 UART Integration
          1. 12.1.5.3.1 UART Integration in MCU Domain
          2. 12.1.5.3.2 UART Integration in MAIN Domain
        4. 12.1.5.4 UART Functional Description
          1. 12.1.5.4.1 UART Block Diagram
          2. 12.1.5.4.2 UART Clock Configuration
          3. 12.1.5.4.3 UART Software Reset
            1. 12.1.5.4.3.1 Independent TX/RX
          4. 12.1.5.4.4 UART Power Management
            1. 12.1.5.4.4.1 UART Mode Power Management
              1. 12.1.5.4.4.1.1 Module Power Saving
              2. 12.1.5.4.4.1.2 System Power Saving
            2. 12.1.5.4.4.2 IrDA Mode Power Management
              1. 12.1.5.4.4.2.1 Module Power Saving
              2. 12.1.5.4.4.2.2 System Power Saving
            3. 12.1.5.4.4.3 CIR Mode Power Management
              1. 12.1.5.4.4.3.1 Module Power Saving
              2. 12.1.5.4.4.3.2 System Power Saving
            4. 12.1.5.4.4.4 Local Power Management
          5. 12.1.5.4.5 UART Interrupt Requests
            1. 12.1.5.4.5.1 UART Mode Interrupt Management
              1. 12.1.5.4.5.1.1 UART Interrupts
              2. 12.1.5.4.5.1.2 Wake-Up Interrupt
            2. 12.1.5.4.5.2 IrDA Mode Interrupt Management
              1. 12.1.5.4.5.2.1 IrDA Interrupts
              2. 12.1.5.4.5.2.2 Wake-Up Interrupts
            3. 12.1.5.4.5.3 CIR Mode Interrupt Management
              1. 12.1.5.4.5.3.1 CIR Interrupts
              2. 12.1.5.4.5.3.2 Wake-Up Interrupts
          6. 12.1.5.4.6 UART FIFO Management
            1. 12.1.5.4.6.1 FIFO Trigger
              1. 12.1.5.4.6.1.1 Transmit FIFO Trigger
              2. 12.1.5.4.6.1.2 Receive FIFO Trigger
            2. 12.1.5.4.6.2 FIFO Interrupt Mode
            3. 12.1.5.4.6.3 FIFO Polled Mode Operation
            4. 12.1.5.4.6.4 FIFO DMA Mode Operation
              1. 12.1.5.4.6.4.1 DMA sequence to disable TX DMA
              2. 12.1.5.4.6.4.2 DMA Transfers (DMA Mode 1, 2, or 3)
              3. 12.1.5.4.6.4.3 DMA Transmission
              4. 12.1.5.4.6.4.4 DMA Reception
          7. 12.1.5.4.7 UART Mode Selection
            1. 12.1.5.4.7.1 Register Access Modes
              1. 12.1.5.4.7.1.1 Operational Mode and Configuration Modes
              2. 12.1.5.4.7.1.2 Register Access Submode
              3. 12.1.5.4.7.1.3 Registers Available for the Register Access Modes
            2. 12.1.5.4.7.2 UART/RS-485/IrDA (SIR, MIR, FIR)/CIR Mode Selection
              1. 12.1.5.4.7.2.1 Registers Available for the UART Function
              2. 12.1.5.4.7.2.2 Registers Available for the IrDA Function
              3. 12.1.5.4.7.2.3 Registers Available for the CIR Function
          8. 12.1.5.4.8 UART Protocol Formatting
            1. 12.1.5.4.8.1 UART Mode
              1. 12.1.5.4.8.1.1 UART Clock Generation: Baud Rate Generation
              2. 12.1.5.4.8.1.2 Choosing the Appropriate Divisor Value
              3. 12.1.5.4.8.1.3 UART Data Formatting
                1. 12.1.5.4.8.1.3.1 Frame Formatting
                2. 12.1.5.4.8.1.3.2 Hardware Flow Control
                3. 12.1.5.4.8.1.3.3 Software Flow Control
                  1. 1.5.4.8.1.3.3.1 Receive (RX)
                  2. 1.5.4.8.1.3.3.2 Transmit (TX)
                4. 12.1.5.4.8.1.3.4 Autobauding Modes
                5. 12.1.5.4.8.1.3.5 Error Detection
                6. 12.1.5.4.8.1.3.6 Overrun During Receive
                7. 12.1.5.4.8.1.3.7 Time-Out and Break Conditions
                  1. 1.5.4.8.1.3.7.1 Time-Out Counter
                  2. 1.5.4.8.1.3.7.2 Break Condition
            2. 12.1.5.4.8.2 RS-485 Mode
              1. 12.1.5.4.8.2.1 RS-485 External Transceiver Direction Control
            3. 12.1.5.4.8.3 IrDA Mode
              1. 12.1.5.4.8.3.1 IrDA Clock Generation: Baud Generator
              2. 12.1.5.4.8.3.2 Choosing the Appropriate Divisor Value
              3. 12.1.5.4.8.3.3 IrDA Data Formatting
                1. 12.1.5.4.8.3.3.1  IR RX Polarity Control
                2. 12.1.5.4.8.3.3.2  IrDA Reception Control
                3. 12.1.5.4.8.3.3.3  IR Address Checking
                4. 12.1.5.4.8.3.3.4  Frame Closing
                5. 12.1.5.4.8.3.3.5  Store and Controlled Transmission
                6. 12.1.5.4.8.3.3.6  Error Detection
                7. 12.1.5.4.8.3.3.7  Underrun During Transmission
                8. 12.1.5.4.8.3.3.8  Overrun During Receive
                9. 12.1.5.4.8.3.3.9  Status FIFO
                10. 12.1.5.4.8.3.3.10 Multi-drop Parity Mode with Address Match
                11. 12.1.5.4.8.3.3.11 Time-guard
              4. 12.1.5.4.8.3.4 SIR Mode Data Formatting
                1. 12.1.5.4.8.3.4.1 Abort Sequence
                2. 12.1.5.4.8.3.4.2 Pulse Shaping
                3. 12.1.5.4.8.3.4.3 SIR Free Format Programming
              5. 12.1.5.4.8.3.5 MIR and FIR Mode Data Formatting
            4. 12.1.5.4.8.4 CIR Mode
              1. 12.1.5.4.8.4.1 CIR Mode Clock Generation
              2. 12.1.5.4.8.4.2 CIR Data Formatting
                1. 12.1.5.4.8.4.2.1 IR RX Polarity Control
                2. 12.1.5.4.8.4.2.2 CIR Transmission
                3. 12.1.5.4.8.4.2.3 CIR Reception
        5. 12.1.5.5 UART Programming Guide
          1. 12.1.5.5.1 UART Global Initialization
            1. 12.1.5.5.1.1 Surrounding Modules Global Initialization
            2. 12.1.5.5.1.2 UART Module Global Initialization
          2. 12.1.5.5.2 UART Mode selection
          3. 12.1.5.5.3 UART Submode selection
          4. 12.1.5.5.4 UART Load FIFO trigger and DMA mode settings
            1. 12.1.5.5.4.1 DMA mode Settings
            2. 12.1.5.5.4.2 FIFO Trigger Settings
          5. 12.1.5.5.5 UART Protocol, Baud rate and interrupt settings
            1. 12.1.5.5.5.1 Baud rate settings
            2. 12.1.5.5.5.2 Interrupt settings
            3. 12.1.5.5.5.3 Protocol settings
            4. 12.1.5.5.5.4 UART/RS-485/IrDA(SIR/MIR/FIR)/CIR
            5. 12.1.5.5.5.5 UART Multi-drop Parity Address Match Mode Configuration
          6. 12.1.5.5.6 UART Hardware and Software Flow Control Configuration
            1. 12.1.5.5.6.1 Hardware Flow Control Configuration
            2. 12.1.5.5.6.2 Software Flow Control Configuration
          7. 12.1.5.5.7 IrDA Programming Model
            1. 12.1.5.5.7.1 SIR mode
              1. 12.1.5.5.7.1.1 Receive
              2. 12.1.5.5.7.1.2 Transmit
            2. 12.1.5.5.7.2 MIR mode
              1. 12.1.5.5.7.2.1 Receive
              2. 12.1.5.5.7.2.2 Transmit
            3. 12.1.5.5.7.3 FIR mode
              1. 12.1.5.5.7.3.1 Receive
              2. 12.1.5.5.7.3.2 Transmit
        6. 12.1.5.6 UART Registers
    2. 12.2 High-speed Serial Interfaces
      1. 12.2.1 Gigabit Ethernet Switch (CPSW3G)
        1. 12.2.1.1 CPSW0 Overview
          1. 12.2.1.1.1 CPSW0 Features
          2. 12.2.1.1.2 CPSW0 Not Supported Features
          3. 12.2.1.1.3 CPSW Terminology
        2. 12.2.1.2 CPSW0 Environment
          1. 12.2.1.2.1 CPSW0 RMII Interface
          2. 12.2.1.2.2 CPSW0 RGMII Interface
        3. 12.2.1.3 CPSW0 Integration
        4. 12.2.1.4 CPSW0 Functional Description
          1. 12.2.1.4.1 Functional Block Diagram
          2. 12.2.1.4.2 CPSW Ports
            1. 12.2.1.4.2.1 Interface Mode Selection
          3. 12.2.1.4.3 Clocking
            1. 12.2.1.4.3.1 Subsystem Clocking
            2. 12.2.1.4.3.2 Interface Clocking
              1. 12.2.1.4.3.2.1 RGMII Interface Clocking
              2. 12.2.1.4.3.2.2 RMII Interface Clocking
              3. 12.2.1.4.3.2.3 MDIO Clocking
          4. 12.2.1.4.4 Software IDLE
          5. 12.2.1.4.5 Interrupt Functionality
            1. 12.2.1.4.5.1 EVNT_PEND Interrupt
            2. 12.2.1.4.5.2 Statistics Interrupt (STAT_PEND0)
            3. 12.2.1.4.5.3 ECC DED Level Interrupt (ECC_DED_INT)
            4. 12.2.1.4.5.4 ECC SEC Level Interrupt (ECC_SEC_INT)
            5. 12.2.1.4.5.5 MDIO Interrupts
          6. 12.2.1.4.6 CPSW_3G
            1. 12.2.1.4.6.1  Address Lookup Engine (ALE)
              1. 12.2.1.4.6.1.1  Error Handling
              2. 12.2.1.4.6.1.2  Bypass Operations
              3. 12.2.1.4.6.1.3  OUI Deny or Accept
              4. 12.2.1.4.6.1.4  Statistics Counting
              5. 12.2.1.4.6.1.5  Automotive Security Features
              6. 12.2.1.4.6.1.6  CPSW Switching Solutions
                1. 12.2.1.4.6.1.6.1 Basics of 3-port Switch Type
              7. 12.2.1.4.6.1.7  VLAN Routing and OAM Operations
                1. 12.2.1.4.6.1.7.1 InterVLAN Routing
                2. 12.2.1.4.6.1.7.2 OAM Operations
              8. 12.2.1.4.6.1.8  Supervisory packets
              9. 12.2.1.4.6.1.9  Address Table Entry
                1. 12.2.1.4.6.1.9.1  Multicast Address Table Entry
                2. 12.2.1.4.6.1.9.2  OUI Unicast Address Table Entry
                3. 12.2.1.4.6.1.9.3  Unicast Address Table Entry (Bit 40 == 0)
                4. 12.2.1.4.6.1.9.4  Multicast Address Table Entry (Bit 40==1)
                5. 12.2.1.4.6.1.9.5  VLAN/Unicast Address Table Entry (Bit 40 == 0)
                6. 12.2.1.4.6.1.9.6  VLAN/Multicast Address Table Entry (Bit 40==1)
                7. 12.2.1.4.6.1.9.7  Inner VLAN Table Entry
                8. 12.2.1.4.6.1.9.8  Outer VLAN Table Entry
                9. 12.2.1.4.6.1.9.9  EtherType Table Entry
                10. 12.2.1.4.6.1.9.10 IPv4 Table Entry
                11. 12.2.1.4.6.1.9.11 IPv6 Table Entry High
                12. 12.2.1.4.6.1.9.12 IPv6 Table Entry Low
              10. 12.2.1.4.6.1.10 Multicast Address
                1. 12.2.1.4.6.1.10.1 Multicast Ranges
              11. 12.2.1.4.6.1.11 Aging and Auto Aging
              12. 12.2.1.4.6.1.12 ALE Policing and Classification
                1. 12.2.1.4.6.1.12.1 ALE Policing
                2. 12.2.1.4.6.1.12.2 Classifier to Host Thread Mapping
                3. 12.2.1.4.6.1.12.3 ALE Classification
                  1. 2.1.4.6.1.12.3.1 Classifier to CPPI Transmit Flow ID Mapping
              13. 12.2.1.4.6.1.13 Mirroring
              14. 12.2.1.4.6.1.14 Trunking
              15. 12.2.1.4.6.1.15 DSCP
              16. 12.2.1.4.6.1.16 Packet Forwarding Processes
                1. 12.2.1.4.6.1.16.1 Ingress Filtering Process
                2. 12.2.1.4.6.1.16.2 VLAN_Aware Lookup Process
                3. 12.2.1.4.6.1.16.3 Egress Process
                4. 12.2.1.4.6.1.16.4 Learning/Updating/Touching Processes
                  1. 2.1.4.6.1.16.4.1 Learning Process
                  2. 2.1.4.6.1.16.4.2 Updating Process
                  3. 2.1.4.6.1.16.4.3 Touching Process
              17. 12.2.1.4.6.1.17 VLAN Aware Mode
              18. 12.2.1.4.6.1.18 VLAN Unaware Mode
            2. 12.2.1.4.6.2  Packet Priority Handling
              1. 12.2.1.4.6.2.1 Priority Mapping and Transmit VLAN Priority
            3. 12.2.1.4.6.3  CPPI Port Ingress
            4. 12.2.1.4.6.4  Packet CRC Handling
              1. 12.2.1.4.6.4.1 Transmit VLAN Processing
                1. 12.2.1.4.6.4.1.1 Untagged Packets (No VLAN or Priority Tag Header)
                2. 12.2.1.4.6.4.1.2 Priority Tagged Packets (VLAN VID == 0 && EN_VID0_MODE ==0h)
                3. 12.2.1.4.6.4.1.3 VLAN Tagged Packets (VLAN VID != 0 || (EN_VID0_MODE ==1h && VLAN VID ==0))
              2. 12.2.1.4.6.4.2 Ethernet Port Ingress Packet CRC
              3. 12.2.1.4.6.4.3 Ethernet Port Egress Packet CRC
              4. 12.2.1.4.6.4.4 CPPI Port Ingress Packet CRC
              5. 12.2.1.4.6.4.5 CPPI Port Egress Packet CRC
            5. 12.2.1.4.6.5  FIFO Memory Control
            6. 12.2.1.4.6.6  FIFO Transmit Queue Control
              1. 12.2.1.4.6.6.1 CPPI Port Receive Rate Limiting
              2. 12.2.1.4.6.6.2 Ethernet Port Transmit Rate Limiting
            7. 12.2.1.4.6.7  Intersperced Express Traffic (IET – P802.3br/D2.0)
              1. 12.2.1.4.6.7.1 IET Configuration
            8. 12.2.1.4.6.8  Enhanced Scheduled Traffic (EST – P802.1Qbv/D2.2)
              1. 12.2.1.4.6.8.1 Enhanced Scheduled Traffic Overview
              2. 12.2.1.4.6.8.2 Enhanced Scheduled Traffic Fetch RAM
              3. 12.2.1.4.6.8.3 Enhanced Scheduled Traffic Time Interval
              4. 12.2.1.4.6.8.4 Enhanced Scheduled Traffic Fetch Values
              5. 12.2.1.4.6.8.5 Enhanced Scheduled Traffic Packet Fill
              6. 12.2.1.4.6.8.6 Enhanced Scheduled Traffic Time Stamp
              7. 12.2.1.4.6.8.7 Enhanced Scheduled Traffic Packets Per Priority
            9. 12.2.1.4.6.9  Audio Video Bridging
              1. 12.2.1.4.6.9.1 IEEE 802.1AS: Timing and Synchronization for Time-Sensitive Applications in Bridged Local Area Networks (Precision Time Protocol (PTP))
                1. 12.2.1.4.6.9.1.1 IEEE 1722: "Layer 2 Transport Protocol for Time-Sensitive Streams"
                  1. 2.1.4.6.9.1.1.1 Cross-timestamping and Presentation Timestamps
                2. 12.2.1.4.6.9.1.2 IEEE 1733: Extends RTCP for RTP Streaming over AVB-supported Networks
              2. 12.2.1.4.6.9.2 IEEE 802.1Qav: "Virtual Bridged Local Area Networks: Forwarding and Queuing for Time-Sensitive Streams"
                1. 12.2.1.4.6.9.2.1 Configuring the Device for 802.1Qav Operation
            10. 12.2.1.4.6.10 Ethernet MAC Sliver
              1. 12.2.1.4.6.10.1 Ethernet MAC Sliver Overview
                1. 12.2.1.4.6.10.1.1 CRC Insertion
                2. 12.2.1.4.6.10.1.2 MTXER
                3. 12.2.1.4.6.10.1.3 Adaptive Performance Optimization (APO)
                4. 12.2.1.4.6.10.1.4 Inter-Packet-Gap Enforcement
                5. 12.2.1.4.6.10.1.5 Back Off
                6. 12.2.1.4.6.10.1.6 Programmable Transmit Inter-Packet Gap
                7. 12.2.1.4.6.10.1.7 Speed, Duplex and Pause Frame Support Negotiation
              2. 12.2.1.4.6.10.2 RMII Interface
                1. 12.2.1.4.6.10.2.1 Features
                2. 12.2.1.4.6.10.2.2 RMII Receive (RX)
                3. 12.2.1.4.6.10.2.3 RMII Transmit (TX)
              3. 12.2.1.4.6.10.3 RGMII Interface
                1. 12.2.1.4.6.10.3.1 Features
                2. 12.2.1.4.6.10.3.2 RGMII Receive (RX)
                3. 12.2.1.4.6.10.3.3 In-Band Mode of Operation
                4. 12.2.1.4.6.10.3.4 Forced Mode of Operation
                5. 12.2.1.4.6.10.3.5 RGMII Transmit (TX)
              4. 12.2.1.4.6.10.4 Frame Classification
              5. 12.2.1.4.6.10.5 Receive FIFO Architecture
            11. 12.2.1.4.6.11 Embedded Memories
            12. 12.2.1.4.6.12 Memory Error Detection and Correction
              1. 12.2.1.4.6.12.1 Packet Header ECC
              2. 12.2.1.4.6.12.2 Packet Protect CRC
              3. 12.2.1.4.6.12.3 Aggregator RAM Control
            13. 12.2.1.4.6.13 Ethernet Port Flow Control
              1. 12.2.1.4.6.13.1 Ethernet Receive Flow Control
                1. 12.2.1.4.6.13.1.1 Collision Based Receive Buffer Flow Control
                2. 12.2.1.4.6.13.1.2 IEEE 802.3X Based Receive Flow Control
              2. 12.2.1.4.6.13.2 Flow Control Trigger
              3. 12.2.1.4.6.13.3 Ethernet Transmit Flow Control
            14. 12.2.1.4.6.14 Energy Efficient Ethernet Support (802.3az)
            15. 12.2.1.4.6.15 Ethernet Switch Latency
            16. 12.2.1.4.6.16 MAC Emulation Control
            17. 12.2.1.4.6.17 MAC Command IDLE
            18. 12.2.1.4.6.18 CPSW Network Statistics
              1. 12.2.1.4.6.18.1  Rx-only Statistics Descriptions
                1. 12.2.1.4.6.18.1.1  Good Rx Frames (Offset = 3A000h)
                2. 12.2.1.4.6.18.1.2  Broadcast Rx Frames (Offset = 3A004h)
                3. 12.2.1.4.6.18.1.3  Multicast Rx Frames (Offset = 3A008h)
                4. 12.2.1.4.6.18.1.4  Pause Rx Frames (Offset = 3A00Ch)
                5. 12.2.1.4.6.18.1.5  Rx CRC Errors (Offset = 3A010h)
                6. 12.2.1.4.6.18.1.6  Rx Align/Code Errors (Offset = 3A014h)
                7. 12.2.1.4.6.18.1.7  Oversize Rx Frames (Offset = 3A018h)
                8. 12.2.1.4.6.18.1.8  Rx Jabbers (Offset = 3A01Ch)
                9. 12.2.1.4.6.18.1.9  Undersize (Short) Rx Frames (Offset = 3A020h)
                10. 12.2.1.4.6.18.1.10 Rx Fragments (Offset = 3A024h)
                11. 12.2.1.4.6.18.1.11 RX IPG Error (Offset = 3A05Ch)
                12. 12.2.1.4.6.18.1.12 ALE Drop (Offset = 3A028h)
                13. 12.2.1.4.6.18.1.13 ALE Overrun Drop (Offset = 3A02Ch)
                14. 12.2.1.4.6.18.1.14 Rx Octets (Offset = 3A030h)
                15. 12.2.1.4.6.18.1.15 Rx Bottom of FIFO Drop (Offset = 3A084h)
                16. 12.2.1.4.6.18.1.16 Portmask Drop (Offset = 3A088h)
                17. 12.2.1.4.6.18.1.17 Rx Top of FIFO Drop (Offset = 3A08Ch)
                18. 12.2.1.4.6.18.1.18 ALE Rate Limit Drop (Offset = 3A090h)
                19. 12.2.1.4.6.18.1.19 ALE VLAN Ingress Check Drop (Offset = 3A094h)
                  1. 2.1.4.6.18.1.19.1  ALE DA=SA Drop (Offset = 3A098h)
                  2. 2.1.4.6.18.1.19.2  Block Address Drop (Offset = 3A09Ch)
                  3. 2.1.4.6.18.1.19.3  ALE Secure Drop (Offset = 3A0A0h)
                  4. 2.1.4.6.18.1.19.4  ALE Authentication Drop (Offset = 3A0A4h)
                  5. 2.1.4.6.18.1.19.5  ALE Unknown Unicast (Offset = 3A0A8h)
                  6. 2.1.4.6.18.1.19.6  ALE Unknown Unicast Bytecount (Offset = 3A0ACh)
                  7. 2.1.4.6.18.1.19.7  ALE Unknown Multicast (Offset = 3A0B0h)
                  8. 2.1.4.6.18.1.19.8  ALE Unknown Multicast Bytecount (Offset = 3A0B4h)
                  9. 2.1.4.6.18.1.19.9  ALE Unknown Broadcast (Offset = 3A0B8h)
                  10. 2.1.4.6.18.1.19.10 ALE Unknown Broadcast Bytecount (Offset = 3A0BCh)
                  11. 2.1.4.6.18.1.19.11 ALE Policer/Classifier Match (Offset = 3A0C0h)
              2. 12.2.1.4.6.18.2  ALE Policer Match Red (Offset = 3A0C4h)
              3. 12.2.1.4.6.18.3  ALE Policer Match Yellow (Offset = 3A0C8h)
              4. 12.2.1.4.6.18.4  IET Receive Assembly Error (Offset = 3A140h)
              5. 12.2.1.4.6.18.5  IET Receive Assembly OK (Offset = 3A144h)
              6. 12.2.1.4.6.18.6  IET Receive SMD Error (Offset = 3A148h)
              7. 12.2.1.4.6.18.7  IET Receive Merge Fragment Count (Offset = 3A14Ch)
              8. 12.2.1.4.6.18.8  Rx Cut Thru with No Delay
              9. 12.2.1.4.6.18.9  Rx Cut Thru with Delay
              10. 12.2.1.4.6.18.10 Rx Cut Thru Store-and-Forward
              11. 12.2.1.4.6.18.11 Tx-only Statistics Descriptions
                1. 12.2.1.4.6.18.11.1  Good Tx Frames (Offset = 3A034h)
                2. 12.2.1.4.6.18.11.2  Broadcast Tx Frames (Offset = 3A038h)
                3. 12.2.1.4.6.18.11.3  Multicast Tx Frames (Offset = 3A03Ch)
                4. 12.2.1.4.6.18.11.4  Pause Tx Frames (Offset = 3A040h)
                5. 12.2.1.4.6.18.11.5  Deferred Tx Frames (Offset = 3A044h)
                6. 12.2.1.4.6.18.11.6  Collisions (Offset = 3A048h)
                7. 12.2.1.4.6.18.11.7  Single Collision Tx Frames (Offset = 3A04Ch)
                8. 12.2.1.4.6.18.11.8  Multiple Collision Tx Frames (Offset = 3A050h)
                9. 12.2.1.4.6.18.11.9  Excessive Collisions (Offset = 3A054h)
                10. 12.2.1.4.6.18.11.10 Late Collisions (Offset = 3A058h)
                11. 12.2.1.4.6.18.11.11 Carrier Sense Errors (Offset = 3A060h)
                12. 12.2.1.4.6.18.11.12 Tx Octets (Offset = 3A064h)
                13. 12.2.1.4.6.18.11.13 Transmit Priority 0-7 (Offset = 3A180h to 3A1A8h)
                14. 12.2.1.4.6.18.11.14 Transmit Priority 0-7 Drop (Offset = 3A1C0h to 3A1E8)
                15. 12.2.1.4.6.18.11.15 Tx Memory Protect Errors (Offset = 3A17Ch)
                16. 12.2.1.4.6.18.11.16 IET Transmit Merge Hold Count (Offset = 3A150h)
                17. 12.2.1.4.6.18.11.17 IET Transmit Merge Fragment Count (Offset = 3A14Ch)
                18. 12.2.1.4.6.18.11.18 Tx CRC Errors
                19. 12.2.1.4.6.18.11.19 Tx Cut Thru
                20. 12.2.1.4.6.18.11.20 Tx Cut Thru Store-and-Forward
              12. 12.2.1.4.6.18.12 Rx- and Tx (Shared) Statistics Descriptions
                1. 12.2.1.4.6.18.12.1 Rx + Tx 64 Octet Frames (Offset = 3A068h)
                2. 12.2.1.4.6.18.12.2 Rx + Tx 65–127 Octet Frames (Offset = 3A06Ch)
                3. 12.2.1.4.6.18.12.3 Rx + Tx 128–255 Octet Frames (Offset = 3A070h)
                4. 12.2.1.4.6.18.12.4 Rx + Tx 256–511 Octet Frames (Offset = 3A074h)
                5. 12.2.1.4.6.18.12.5 Rx + Tx 512–1023 Octet Frames (Offset = 3A078h)
                6. 12.2.1.4.6.18.12.6 Rx + Tx 1024_Up Octet Frames (Offset = 3A07Ch)
                7. 12.2.1.4.6.18.12.7 Net Octets (Offset = 3A080h)
              13. 12.2.1.4.6.18.13 4714
          7. 12.2.1.4.7 Common Platform Time Sync (CPTS)
            1. 12.2.1.4.7.1  CPSW0 CPTS Integration
            2. 12.2.1.4.7.2  CPTS Architecture
            3. 12.2.1.4.7.3  CPTS Initialization
            4. 12.2.1.4.7.4  32-bit Time Stamp Value
            5. 12.2.1.4.7.5  64-bit Time Stamp Value
            6. 12.2.1.4.7.6  64-Bit Timestamp Nudge
            7. 12.2.1.4.7.7  64-bit Timestamp PPM
            8. 12.2.1.4.7.8  Event FIFO
            9. 12.2.1.4.7.9  Timestamp Compare Output
              1. 12.2.1.4.7.9.1 Non-Toggle Mode: 32-bit
              2. 12.2.1.4.7.9.2 Non-Toggle Mode: 64-bit
              3. 12.2.1.4.7.9.3 Toggle Mode: 32-bit
              4. 12.2.1.4.7.9.4 Toggle Mode: 64-bit
            10. 12.2.1.4.7.10 Timestamp Sync Output
            11. 12.2.1.4.7.11 Timestamp GENFn Output
              1. 12.2.1.4.7.11.1 GENFn Nudge
              2. 12.2.1.4.7.11.2 GENFn PPM
            12. 12.2.1.4.7.12 Timestamp ESTFn
            13. 12.2.1.4.7.13 Time Sync Events
              1. 12.2.1.4.7.13.1 Time Stamp Push Event
              2. 12.2.1.4.7.13.2 Time Stamp Counter Rollover Event (32-bit mode only)
              3. 12.2.1.4.7.13.3 Time Stamp Counter Half-rollover Event (32-bit mode only)
              4. 12.2.1.4.7.13.4 Hardware Time Stamp Push Event
              5. 12.2.1.4.7.13.5 Ethernet Port Events
                1. 12.2.1.4.7.13.5.1 Ethernet Port Receive Event
                2. 12.2.1.4.7.13.5.2 Ethernet Port Transmit Event
                3. 12.2.1.4.7.13.5.3 4742
            14. 12.2.1.4.7.14 Timestamp Compare Event
              1. 12.2.1.4.7.14.1 32-Bit Mode
              2. 12.2.1.4.7.14.2 64-Bit Mode
            15. 12.2.1.4.7.15 Host Transmit Event
            16. 12.2.1.4.7.16 CPTS Interrupt Handling
          8. 12.2.1.4.8 CPPI Streaming Packet Interface
            1. 12.2.1.4.8.1 Port 0 CPPI Transmit Packet Streaming Interface (CPSW_3G Egress)
            2. 12.2.1.4.8.2 Port 0 CPPI Receive Packet Streaming Interface (CPSW_3G Ingress)
            3. 12.2.1.4.8.3 Cut-Thru
              1. 12.2.1.4.8.3.1 Host Port Cut-Thru Operations
              2. 12.2.1.4.8.3.2 Cut-Thru Error Packets
            4. 12.2.1.4.8.4 Port Speed
            5. 12.2.1.4.8.5 CPPI Checksum Offload
              1. 12.2.1.4.8.5.1 CPPI Transmit Checksum Offload
                1. 12.2.1.4.8.5.1.1 IPV4 UDP
                2. 12.2.1.4.8.5.1.2 IPV4 TCP
                3. 12.2.1.4.8.5.1.3 IPV6 UDP
                4. 12.2.1.4.8.5.1.4 IPV6 TCP
            6. 12.2.1.4.8.6 CPPI Receive Checksum Offload
            7. 12.2.1.4.8.7 Egress Packet Operations
          9. 12.2.1.4.9 MII Management Interface (MDIO)
            1. 12.2.1.4.9.1 MDIO Frame Formats
            2. 12.2.1.4.9.2 MDIO Functional Description
        5. 12.2.1.5 CPSW0 Programming Guide
          1. 12.2.1.5.1 Initialization and Configuration of CPSW Subsystem
          2. 12.2.1.5.2 CPSW Reset
          3. 12.2.1.5.3 MDIO Software Interface
            1. 12.2.1.5.3.1 Initializing the MDIO Module
            2. 12.2.1.5.3.2 Writing Data To a PHY Register
            3. 12.2.1.5.3.3 Reading Data From a PHY Register
        6. 12.2.1.6 CPSW0 Registers
          1. 12.2.1.6.1  CPSW0_NUSS Subsystem (SS) Registers
          2. 12.2.1.6.2  CPSW0_MDIO Registers
          3. 12.2.1.6.3  CPSW0_CPTS Registers
          4. 12.2.1.6.4  CPSW0_CONTROL Registers
          5. 12.2.1.6.5  CPSW0_CPINT Registers
          6. 12.2.1.6.6  CPSW0_RAM Registers
          7. 12.2.1.6.7  CPSW0_STAT0 Registers
          8. 12.2.1.6.8  CPSW0_STATN Registers
          9. 12.2.1.6.9  CPSW0_ALE Registers
          10. 12.2.1.6.10 CPSW0_PCSR Registers
          11. 12.2.1.6.11 CPSW0_ECC Registers
      2. 12.2.2 Peripheral Component Interconnect Express (PCIe) Subsystem
        1. 12.2.2.1 PCIe Subsystem Overview
          1. 12.2.2.1.1 PCIe Subsystem Features
          2. 12.2.2.1.2 PCIe Subsystem Not Supported Features
        2. 12.2.2.2 PCIe Subsystem Environment
        3. 12.2.2.3 PCIe Subsystem Integration
        4. 12.2.2.4 PCIe Subsystem Functional Description
          1. 12.2.2.4.1  PCIe Subsystem Block Diagram
            1. 12.2.2.4.1.1 PCIe PHY Interface
              1. 12.2.2.4.1.1.1 PCIe Core Module
            2. 12.2.2.4.1.2 Custom Logic
          2. 12.2.2.4.2  PCIe Subsystem Reset Schemes
            1. 12.2.2.4.2.1 PCIe Conventional Reset
            2. 12.2.2.4.2.2 PCIe Function Level Reset
            3. 12.2.2.4.2.3 PCIe Reset Isolation
              1. 12.2.2.4.2.3.1 Root Complex Reset with Device Not Reset
              2. 12.2.2.4.2.3.2 Device Reset with Root Complex Not Reset
              3. 12.2.2.4.2.3.3 End Point Device Reset with Root Complex Not Reset
              4. 12.2.2.4.2.3.4 Device Reset with End Point Device Not Reset
            4. 12.2.2.4.2.4 PCIe Reset Limitations
            5. 12.2.2.4.2.5 PCIe Reset Requirements
          3. 12.2.2.4.3  PCIe Subsystem Power Management
            1. 12.2.2.4.3.1 CBA Power Management
          4. 12.2.2.4.4  PCIe Subsystem Interrupts
            1. 12.2.2.4.4.1 Interrupts Aggregation
            2. 12.2.2.4.4.2 Interrupt Generation in EP Mode
              1. 12.2.2.4.4.2.1 Legacy Interrupt Generation in EP Mode
              2. 12.2.2.4.4.2.2 MSI and MSI-X Interrupt Generation
            3. 12.2.2.4.4.3 Interrupt Reception in EP Mode
              1. 12.2.2.4.4.3.1 PCIe Core Downstream Interrupts
              2. 12.2.2.4.4.3.2 PCIe Core Function Level Reset Interrupts
              3. 12.2.2.4.4.3.3 PCIe Core Power Management Event Interrupts
              4. 12.2.2.4.4.3.4 PCIe Core Hot Reset Request Interrupt
              5. 12.2.2.4.4.3.5 PTM Valid Interrupt
            4. 12.2.2.4.4.4 Interrupt Generation in RC Mode
            5. 12.2.2.4.4.5 Interrupt Reception in RC Mode
              1. 12.2.2.4.4.5.1 PCIe Legacy Interrupt Reception in RC Mode
              2. 12.2.2.4.4.5.2 MSI/MSI-X Interrupt Reception in RC Mode
              3. 12.2.2.4.4.5.3 Advanced Error Reporting Interrupt
            6. 12.2.2.4.4.6 Common Interrupt Reception in RC and EP Modes
              1. 12.2.2.4.4.6.1 PCIe Local Interrupt
              2. 12.2.2.4.4.6.2 PHY Interrupt
              3. 12.2.2.4.4.6.3 Link down Interrupt
              4. 12.2.2.4.4.6.4 Transaction Error Interrupts
              5. 12.2.2.4.4.6.5 Power Management Event Interrupt
            7. 12.2.2.4.4.7 ECC Aggregator Interrupts
            8. 12.2.2.4.4.8 CPTS Interrupt
          5. 12.2.2.4.5  PCIe Subsystem DMA Support
            1. 12.2.2.4.5.1 PCIe DMA Support in RC Mode
            2. 12.2.2.4.5.2 PCIe DMA Support in EP Mode
          6. 12.2.2.4.6  PCIe Subsystem Transactions
            1. 12.2.2.4.6.1 PCIe Supported Transactions
            2. 12.2.2.4.6.2 PCIe Transaction Limitations
          7. 12.2.2.4.7  PCIe Subsystem Address Translation
            1. 12.2.2.4.7.1 PCIe Inbound Address Translation
              1. 12.2.2.4.7.1.1 Root Complex Inbound PCIe to AXI Address Translation
              2. 12.2.2.4.7.1.2 End Point Inbound PCIe to AXI Address Translation
            2. 12.2.2.4.7.2 PCIe Outbound Address Translation
              1. 12.2.2.4.7.2.1 PCIe Outbound Address Translation Bypass
          8. 12.2.2.4.8  PCIe Subsystem Quality-of-Service (QoS)
          9. 12.2.2.4.9  PCIe Subsystem Precision Time Measurement (PTM)
          10. 12.2.2.4.10 PCIe Subsystem Loopback
            1. 12.2.2.4.10.1 PCIe Loopback
              1. 12.2.2.4.10.1.1 PCIe Loopback Initiator Mode
              2. 12.2.2.4.10.1.2 PCIe Loopback Target Mode
          11. 12.2.2.4.11 PCIe Subsystem Error Handling
          12. 12.2.2.4.12 PCIe Subsystem Internal Diagnostics Features
            1. 12.2.2.4.12.1 ECC Aggregators
            2. 12.2.2.4.12.2 RAM ECC Inversion
        5. 12.2.2.5 PCIe Subsystem Registers
          1. 12.2.2.5.1 PCIE Registers
      3. 12.2.3 Serializer/Deserializer (SerDes)
        1. 12.2.3.1 SerDes Overview
          1. 12.2.3.1.1 SerDes Features
          2. 12.2.3.1.2 Not Supported Features
          3. 12.2.3.1.3 Industry Standards Compatibility
        2. 12.2.3.2 SerDes Environment
          1. 12.2.3.2.1 SerDes I/Os
        3. 12.2.3.3 SerDes Integration
          1. 12.2.3.3.1 WIZ Settings
            1. 12.2.3.3.1.1 Interface Selection
            2. 12.2.3.3.1.2 Internal Reference Clock Selection
        4. 12.2.3.4 SerDes Functional Description
          1. 12.2.3.4.1 SerDes Block Diagram
      4. 12.2.4 Universal Serial Bus Subsystem (USBSS)
        1. 12.2.4.1 USB Overview
          1. 12.2.4.1.1 USB Features
          2. 12.2.4.1.2 USB Not Supported Features
          3. 12.2.4.1.3 USB Terminology
        2. 12.2.4.2 USB Environment
          1. 12.2.4.2.1 USB I/Os
          2. 12.2.4.2.2 USB Subsystem Application
          3. 12.2.4.2.3 VBUS Sense
        3. 12.2.4.3 USB Integration
          1. 12.2.4.3.1 Resets, Interrupts, and Clocks
        4. 12.2.4.4 USB Functional Description
          1. 12.2.4.4.1 USB Controller Reset
          2. 12.2.4.4.2 Overcurrent Detection
          3. 12.2.4.4.3 Top-Level Initialization Sequence
        5. 12.2.4.5 USB Registers
          1. 12.2.4.5.1 USB_RAMS_INJ_CFG Registers
          2. 12.2.4.5.2 USB_ECC_AGGR_CFG Registers
          3. 12.2.4.5.3 USB3P0SS_MMR_MMRVBP_USBSS_CMN Registers
    3. 12.3 Memory Interfaces
      1. 12.3.1 Flash Subsystem (FSS)
        1.       4890
        2. 12.3.1.1 FSS Overview
          1. 12.3.1.1.1 FSS Features
          2. 12.3.1.1.2 FSS Not Supported Features
        3. 12.3.1.2 FSS Environment
          1. 12.3.1.2.1 FSS Typical Application
        4. 12.3.1.3 FSS Integration
          1. 12.3.1.3.1 FSS Integration in MAIN Domain
        5. 12.3.1.4 FSS Functional Description
          1. 12.3.1.4.1 FSS Block Diagram
          2. 12.3.1.4.2 FSS Regions
            1. 12.3.1.4.2.1 FSS Regions Boot Size Configuration
          3. 12.3.1.4.3 FSS Memory Regions
        6. 12.3.1.5 FSS Programming Guide
          1. 12.3.1.5.1 FSS Initialization Sequence
          2. 12.3.1.5.2 FSS Power Up/Down Sequence
        7. 12.3.1.6 FSS Registers
          1. 12.3.1.6.1 FSS Registers
          2. 12.3.1.6.2 FSS_FSAS_0 Registers
          3. 12.3.1.6.3 FSS_OSPI_0 Registers
      2. 12.3.2 Octal Serial Peripheral Interface (OSPI)
        1.       4911
        2. 12.3.2.1 OSPI Overview
          1. 12.3.2.1.1 OSPI Features
          2. 12.3.2.1.2 OSPI Not Supported Features
        3. 12.3.2.2 OSPI Environment
        4. 12.3.2.3 OSPI Integration
          1. 12.3.2.3.1 OSPI Integration in MAIN Domain
        5. 12.3.2.4 OSPI Functional Description
          1. 12.3.2.4.1  OSPI Block Diagram
            1. 12.3.2.4.1.1 Data Target Interface
            2. 12.3.2.4.1.2 Configuration Target Interface
            3. 12.3.2.4.1.3 OSPI Clock Domains
          2. 12.3.2.4.2  OSPI Modes
            1. 12.3.2.4.2.1 Read Data Capture
              1. 12.3.2.4.2.1.1 Mechanisms of Data Capturing
              2. 12.3.2.4.2.1.2 Data Capturing Mechanism Using Taps
              3. 12.3.2.4.2.1.3 Data Capturing Mechanism Using PHY Module
              4. 12.3.2.4.2.1.4 External Pull Down on DQS
          3. 12.3.2.4.3  OSPI Power Management
          4. 12.3.2.4.4  Auto HW Polling
          5. 12.3.2.4.5  Flash Reset
          6. 12.3.2.4.6  OSPI Memory Regions
          7. 12.3.2.4.7  OSPI Interrupt Requests
          8. 12.3.2.4.8  OSPI Data Interface
            1. 12.3.2.4.8.1 Data Interface Address Remapping
            2. 12.3.2.4.8.2 Write Protection
            3. 12.3.2.4.8.3 Access Forwarding
          9. 12.3.2.4.9  OSPI Direct Access Controller (DAC)
          10. 12.3.2.4.10 OSPI Indirect Access Controller (INDAC)
            1. 12.3.2.4.10.1 Indirect Read Controller
              1. 12.3.2.4.10.1.1 Indirect Read Transfer Process
            2. 12.3.2.4.10.2 Indirect Write Controller
              1. 12.3.2.4.10.2.1 Indirect Write Transfer Process
            3. 12.3.2.4.10.3 Indirect Access Queuing
            4. 12.3.2.4.10.4 Consecutive Writes and Reads Using Indirect Transfers
            5. 12.3.2.4.10.5 Accessing the SRAM
          11. 12.3.2.4.11 OSPI Software-Triggered Instruction Generator (STIG)
            1. 12.3.2.4.11.1 Servicing a STIG Request
          12. 12.3.2.4.12 OSPI Arbitration Between Direct / Indirect Access Controller and STIG
          13. 12.3.2.4.13 OSPI Command Translation
          14. 12.3.2.4.14 Selecting the Flash Instruction Type
          15. 12.3.2.4.15 OSPI Data Integrity
          16. 12.3.2.4.16 OSPI PHY Module
            1. 12.3.2.4.16.1 PHY Pipeline Mode
            2. 12.3.2.4.16.2 Read Data Capturing by the PHY Module
        6. 12.3.2.5 OSPI Programming Guide
          1. 12.3.2.5.1 Configuring the OSPI Controller for Use After Reset
          2. 12.3.2.5.2 Configuring the OSPI Controller for Optimal Use
          3. 12.3.2.5.3 Using the Flash Command Control Register (STIG Operation)
          4. 12.3.2.5.4 Using SPI Legacy Mode
          5. 12.3.2.5.5 Entering XIP Mode from POR
          6. 12.3.2.5.6 Entering XIP Mode Otherwise
          7. 12.3.2.5.7 Exiting XIP Mode
        7. 12.3.2.6 OSPI Registers
      3. 12.3.3 General-Purpose Memory Controller (GPMC)
        1. 12.3.3.1 GPMC Overview
          1. 12.3.3.1.1 GPMC Features
          2. 12.3.3.1.2 GPMC Not Supported Features
        2. 12.3.3.2 GPMC Environment
          1. 12.3.3.2.1 GPMC Modes
          2. 12.3.3.2.2 GPMC I/O Signals
        3. 12.3.3.3 GPMC Integration
          1. 12.3.3.3.1 GPMC Integration in MAIN Domain
        4. 12.3.3.4 GPMC Functional Description
          1. 12.3.3.4.1  GPMC Block Diagram
          2. 12.3.3.4.2  GPMC Clock Configuration
          3. 12.3.3.4.3  GPMC Power Management
          4. 12.3.3.4.4  GPMC Interrupt Requests
          5. 12.3.3.4.5  GPMC Interconnect Port Interface
          6. 12.3.3.4.6  GPMC Address and Data Bus
            1. 12.3.3.4.6.1 GPMC I/O Configuration Setting
          7. 12.3.3.4.7  GPMC Address Decoder and Chip-Select Configuration
            1. 12.3.3.4.7.1 Chip-Select Base Address and Region Size
            2. 12.3.3.4.7.2 Access Protocol
              1. 12.3.3.4.7.2.1 Supported Devices
              2. 12.3.3.4.7.2.2 Access Size Adaptation and Device Width
              3. 12.3.3.4.7.2.3 Address/Data-Multiplexing Interface
            3. 12.3.3.4.7.3 External Signals
              1. 12.3.3.4.7.3.1 WAIT Pin Monitoring Control
                1. 12.3.3.4.7.3.1.1 Wait Monitoring During Asynchronous Read Access
                2. 12.3.3.4.7.3.1.2 Wait Monitoring During Asynchronous Write Access
                3. 12.3.3.4.7.3.1.3 Wait Monitoring During Synchronous Read Access
                4. 12.3.3.4.7.3.1.4 Wait Monitoring During Synchronous Write Access
                5. 12.3.3.4.7.3.1.5 Wait With NAND Device
                6. 12.3.3.4.7.3.1.6 Idle Cycle Control Between Successive Accesses
                  1. 3.3.4.7.3.1.6.1 Bus Turnaround (BUSTURNAROUND)
                  2. 3.3.4.7.3.1.6.2 Idle Cycles Between Accesses to Same Chip-Select (CYCLE2CYCLESAMECSEN, CYCLE2CYCLEDELAY)
                  3. 3.3.4.7.3.1.6.3 Idle Cycles Between Accesses to Different Chip-Select (CYCLE2CYCLEDIFFCSEN, CYCLE2CYCLEDELAY)
                7. 12.3.3.4.7.3.1.7 Slow Device Support (TIMEPARAGRANULARITY Parameter)
              2. 12.3.3.4.7.3.2 DIR Pin
              3. 12.3.3.4.7.3.3 Reset
              4. 12.3.3.4.7.3.4 Write Protect Signal (nWP)
              5. 12.3.3.4.7.3.5 Byte Enable (nBE1/nBE0)
            4. 12.3.3.4.7.4 Error Handling
          8. 12.3.3.4.8  GPMC Timing Setting
            1. 12.3.3.4.8.1  Read Cycle Time and Write Cycle Time (RDCYCLETIME / WRCYCLETIME)
            2. 12.3.3.4.8.2  nCS: Chip-Select Signal Control Assertion/Deassertion Time (CSONTIME / CSRDOFFTIME / CSWROFFTIME / CSEXTRADELAY)
            3. 12.3.3.4.8.3  nADV/ALE: Address Valid/Address Latch Enable Signal Control Assertion/Deassertion Time (ADVONTIME / ADVRDOFFTIME / ADVWROFFTIME / ADVEXTRADELAY/ADVAADMUXONTIME/ADVAADMUXRDOFFTIME/ADVAADMUXWROFFTIME)
            4. 12.3.3.4.8.4  nOE/nRE: Output Enable/Read Enable Signal Control Assertion/Deassertion Time (OEONTIME / OEOFFTIME / OEEXTRADELAY / OEAADMUXONTIME / OEAADMUXOFFTIME)
            5. 12.3.3.4.8.5  nWE: Write Enable Signal Control Assertion/Deassertion Time (WEONTIME / WEOFFTIME / WEEXTRADELAY)
            6. 12.3.3.4.8.6  GPMC_CLKOUT
            7. 12.3.3.4.8.7  GPMC Output Clock and Control Signals Setup and Hold
            8. 12.3.3.4.8.8  Access Time (RDACCESSTIME / WRACCESSTIME)
              1. 12.3.3.4.8.8.1 Access Time on Read Access
              2. 12.3.3.4.8.8.2 Access Time on Write Access
            9. 12.3.3.4.8.9  Page Burst Access Time (PAGEBURSTACCESSTIME)
              1. 12.3.3.4.8.9.1 Page Burst Access Time on Read Access
              2. 12.3.3.4.8.9.2 Page Burst Access Time on Write Access
            10. 12.3.3.4.8.10 Bus Keeping Support
          9. 12.3.3.4.9  GPMC NOR Access Description
            1. 12.3.3.4.9.1 Asynchronous Access Description
              1. 12.3.3.4.9.1.1 Access on Address/Data Multiplexed Devices
                1. 12.3.3.4.9.1.1.1 Asynchronous Single-Read Operation on an Address/Data Multiplexed Device
                2. 12.3.3.4.9.1.1.2 Asynchronous Single-Write Operation on an Address/Data-Multiplexed Device
                3. 12.3.3.4.9.1.1.3 Asynchronous Multiple (Page) Write Operation on an Address/Data-Multiplexed Device
              2. 12.3.3.4.9.1.2 Access on Address/Address/Data-Multiplexed Devices
                1. 12.3.3.4.9.1.2.1 Asynchronous Single Read Operation on an AAD-Multiplexed Device
                2. 12.3.3.4.9.1.2.2 Asynchronous Single-Write Operation on an AAD-Multiplexed Device
                3. 12.3.3.4.9.1.2.3 Asynchronous Multiple (Page) Read Operation on an AAD-Multiplexed Device
            2. 12.3.3.4.9.2 Synchronous Access Description
              1. 12.3.3.4.9.2.1 Synchronous Single Read
              2. 12.3.3.4.9.2.2 Synchronous Multiple (Burst) Read (4-, 8-, 16-Word16 Burst With Wraparound Capability)
              3. 12.3.3.4.9.2.3 Synchronous Single Write
              4. 12.3.3.4.9.2.4 Synchronous Multiple (Burst) Write
            3. 12.3.3.4.9.3 Asynchronous and Synchronous Accesses in non-multiplexed Mode
              1. 12.3.3.4.9.3.1 Asynchronous Single-Read Operation on non-multiplexed Device
              2. 12.3.3.4.9.3.2 Asynchronous Single-Write Operation on non-multiplexed Device
              3. 12.3.3.4.9.3.3 Asynchronous Multiple (Page Mode) Read Operation on non-multiplexed Device
              4. 12.3.3.4.9.3.4 Synchronous Operations on a non-multiplexed Device
            4. 12.3.3.4.9.4 Page and Burst Support
            5. 12.3.3.4.9.5 System Burst vs External Device Burst Support
          10. 12.3.3.4.10 GPMC pSRAM Access Specificities
          11. 12.3.3.4.11 GPMC NAND Access Description
            1. 12.3.3.4.11.1 NAND Memory Device in Byte or 16-bit Word Stream Mode
              1. 12.3.3.4.11.1.1 Chip-Select Configuration for NAND Interfacing in Byte or Word Stream Mode
              2. 12.3.3.4.11.1.2 NAND Device Command and Address Phase Control
              3. 12.3.3.4.11.1.3 Command Latch Cycle
              4. 12.3.3.4.11.1.4 Address Latch Cycle
              5. 12.3.3.4.11.1.5 NAND Device Data Read and Write Phase Control in Stream Mode
              6. 12.3.3.4.11.1.6 NAND Device General Chip-Select Timing Control Requirement
              7. 12.3.3.4.11.1.7 Read and Write Access Size Adaptation
                1. 12.3.3.4.11.1.7.1 8-Bit-Wide NAND Device
                2. 12.3.3.4.11.1.7.2 16-Bit-Wide NAND Device
            2. 12.3.3.4.11.2 NAND Device-Ready Pin
              1. 12.3.3.4.11.2.1 Ready Pin Monitored by Software Polling
              2. 12.3.3.4.11.2.2 Ready Pin Monitored by Hardware Interrupt
            3. 12.3.3.4.11.3 ECC Calculator
              1. 12.3.3.4.11.3.1 Hamming Code
                1. 12.3.3.4.11.3.1.1 ECC Result Register and ECC Computation Accumulation Size
                2. 12.3.3.4.11.3.1.2 ECC Enabling
                3. 12.3.3.4.11.3.1.3 ECC Computation
                4. 12.3.3.4.11.3.1.4 ECC Comparison and Correction
                5. 12.3.3.4.11.3.1.5 ECC Calculation Based on 8-Bit Word
                6. 12.3.3.4.11.3.1.6 ECC Calculation Based on 16-Bit Word
              2. 12.3.3.4.11.3.2 BCH Code
                1. 12.3.3.4.11.3.2.1 Requirements
                2. 12.3.3.4.11.3.2.2 Memory Mapping of BCH Codeword
                  1. 3.3.4.11.3.2.2.1 Memory Mapping of Data Message
                  2. 3.3.4.11.3.2.2.2 Memory-Mapping of the ECC
                  3. 3.3.4.11.3.2.2.3 Wrapping Modes
                    1. 3.4.11.3.2.2.3.1  Manual Mode (0x0)
                    2. 3.4.11.3.2.2.3.2  Mode 0x1
                    3. 3.4.11.3.2.2.3.3  Mode 0xA (10)
                    4. 3.4.11.3.2.2.3.4  Mode 0x2
                    5. 3.4.11.3.2.2.3.5  Mode 0x3
                    6. 3.4.11.3.2.2.3.6  Mode 0x7
                    7. 3.4.11.3.2.2.3.7  Mode 0x8
                    8. 3.4.11.3.2.2.3.8  Mode 0x4
                    9. 3.4.11.3.2.2.3.9  Mode 0x9
                    10. 3.4.11.3.2.2.3.10 Mode 0x5
                    11. 3.4.11.3.2.2.3.11 Mode 0xB (11)
                    12. 3.4.11.3.2.2.3.12 Mode 0x6
                3. 12.3.3.4.11.3.2.3 Supported NAND Page Mappings and ECC Schemes
                  1. 3.3.4.11.3.2.3.1 Per-Sector Spare Mappings
                  2. 3.3.4.11.3.2.3.2 Pooled Spare Mapping
                  3. 3.3.4.11.3.2.3.3 Per-Sector Spare Mapping, with ECC Separated at the End of the Page
            4. 12.3.3.4.11.4 Prefetch and Write-Posting Engine
              1. 12.3.3.4.11.4.1 General Facts About the Engine Configuration
              2. 12.3.3.4.11.4.2 Prefetch Mode
              3. 12.3.3.4.11.4.3 FIFO Control in Prefetch Mode
              4. 12.3.3.4.11.4.4 Write-Posting Mode
              5. 12.3.3.4.11.4.5 FIFO Control in Write-Posting Mode
              6. 12.3.3.4.11.4.6 Optimizing NAND Access Using the Prefetch and Write-Posting Engine
              7. 12.3.3.4.11.4.7 Interleaved Accesses Between Prefetch and Write-Posting Engine and Other Chip-Selects
          12. 12.3.3.4.12 GPMC Memory Regions
          13. 12.3.3.4.13 GPMC Use Cases and Tips
            1. 12.3.3.4.13.1 How to Set GPMC Timing Parameters for Typical Accesses
              1. 12.3.3.4.13.1.1 External Memory Attached to the GPMC Module
              2. 12.3.3.4.13.1.2 Typical GPMC Setup
                1. 12.3.3.4.13.1.2.1 GPMC Configuration for Synchronous Burst Read Access
                2. 12.3.3.4.13.1.2.2 GPMC Configuration for Asynchronous Read Access
                3. 12.3.3.4.13.1.2.3 GPMC Configuration for Asynchronous Single Write Access
            2. 12.3.3.4.13.2 How to Choose a Suitable Memory to Use With the GPMC
              1. 12.3.3.4.13.2.1 Supported Memories or Devices
                1. 12.3.3.4.13.2.1.1 Memory Pin Multiplexing
                2. 12.3.3.4.13.2.1.2 NAND Interface Protocol
                3. 12.3.3.4.13.2.1.3 NOR Interface Protocol
                4. 12.3.3.4.13.2.1.4 Other Technologies
        5. 12.3.3.5 GPMC Basic Programming Model
          1. 12.3.3.5.1 GPMC High-Level Programming Model Overview
          2. 12.3.3.5.2 GPMC Initialization
          3. 12.3.3.5.3 GPMC Configuration in NOR Mode
          4. 12.3.3.5.4 GPMC Configuration in NAND Mode
          5. 12.3.3.5.5 Set Memory Access
          6. 12.3.3.5.6 GPMC Timing Parameters
            1. 12.3.3.5.6.1 GPMC Timing Parameters Formulas
              1. 12.3.3.5.6.1.1 NAND Flash Interface Timing Parameters Formulas
              2. 12.3.3.5.6.1.2 Synchronous NOR Flash Timing Parameters Formulas
              3. 12.3.3.5.6.1.3 Asynchronous NOR Flash Timing Parameters Formulas
        6. 12.3.3.6 GPMC Registers
      4. 12.3.4 Error Location Module (ELM)
        1. 12.3.4.1 ELM Overview
          1. 12.3.4.1.1 ELM Features
          2. 12.3.4.1.2 ELM Not Supported Features
        2. 12.3.4.2 ELM Integration
          1. 12.3.4.2.1 ELM Integration in MAIN Domain
        3. 12.3.4.3 ELM Functional Description
          1. 12.3.4.3.1 ELM Software Reset
          2. 12.3.4.3.2 ELM Power Management
          3. 12.3.4.3.3 ELM Interrupt Requests
          4. 12.3.4.3.4 ELM Processing Initialization
          5. 12.3.4.3.5 ELM Processing Sequence
          6. 12.3.4.3.6 ELM Processing Completion
        4. 12.3.4.4 ELM Basic Programming Model
          1. 12.3.4.4.1 ELM Low-Level Programming Model
            1. 12.3.4.4.1.1 Processing Initialization
            2. 12.3.4.4.1.2 Read Results
            3. 12.3.4.4.1.3 5138
          2. 12.3.4.4.2 Use Case: ELM Used in Continuous Mode
          3. 12.3.4.4.3 Use Case: ELM Used in Page Mode
        5. 12.3.4.5 ELM Registers
      5. 12.3.5 Multi-Media Card Secure Digital (MMCSD) Interface
        1. 12.3.5.1 MMCSD Overview
          1. 12.3.5.1.1 MMCSD Features
          2. 12.3.5.1.2 MMCSD Not Supported Features
        2. 12.3.5.2 MMCSD Environment
          1. 12.3.5.2.1 Protocol and Data Format
            1. 12.3.5.2.1.1 Protocol
            2. 12.3.5.2.1.2 Data Format
              1. 12.3.5.2.1.2.1 Coding Scheme for Command Token
              2. 12.3.5.2.1.2.2 Coding Scheme for Response Token
              3. 12.3.5.2.1.2.3 Coding Scheme for Data Token
        3. 12.3.5.3 MMCSD Integration
          1. 12.3.5.3.1 MMCSD Integration in MAIN Domain
        4. 12.3.5.4 MMCSD Functional Description
          1. 12.3.5.4.1 Block Diagram
          2. 12.3.5.4.2 Memory Regions
          3. 12.3.5.4.3 Interrupt Requests
          4. 12.3.5.4.4 ECC Support
            1. 12.3.5.4.4.1 ECC Aggregator
          5. 12.3.5.4.5 Advanced DMA
        5. 12.3.5.5 MMCSD Programming Guide
          1. 12.3.5.5.1 Sequences
            1. 12.3.5.5.1.1  SD Card Detection
            2. 12.3.5.5.1.2  SD Clock Control
              1. 12.3.5.5.1.2.1 Internal Clock Setup Sequence
              2. 12.3.5.5.1.2.2 SD Clock Supply and Stop Sequence
              3. 12.3.5.5.1.2.3 SD Clock Frequency Change Sequence
            3. 12.3.5.5.1.3  SD Bus Power Control
            4. 12.3.5.5.1.4  Changing Bus Width
            5. 12.3.5.5.1.5  Timeout Setting on DAT Line
            6. 12.3.5.5.1.6  Card Initialization and Identification (for SD I/F)
              1. 12.3.5.5.1.6.1 Signal Voltage Switch Procedure (for UHS-I)
            7. 12.3.5.5.1.7  SD Transaction Generation
              1. 12.3.5.5.1.7.1 Transaction Control without Data Transfer Using DAT Line
                1. 12.3.5.5.1.7.1.1 The Sequence to Issue a SD Command
                2. 12.3.5.5.1.7.1.2 The Sequence to Finalize a Command
                3. 12.3.5.5.1.7.1.3 5178
              2. 12.3.5.5.1.7.2 Transaction Control with Data Transfer Using DAT Line
                1. 12.3.5.5.1.7.2.1 Not using DMA
                2. 12.3.5.5.1.7.2.2 Using SDMA
                3. 12.3.5.5.1.7.2.3 Using ADMA
            8. 12.3.5.5.1.8  Abort Transaction
              1. 12.3.5.5.1.8.1 Asynchronous Abort
              2. 12.3.5.5.1.8.2 Synchronous Abort
            9. 12.3.5.5.1.9  Changing Bus Speed Mode
            10. 12.3.5.5.1.10 Error Recovery
              1. 12.3.5.5.1.10.1 Error Interrupt Recovery
              2. 12.3.5.5.1.10.2 Auto CMD12 Error Recovery
            11. 12.3.5.5.1.11 Wakeup Control (Optional)
            12. 12.3.5.5.1.12 Suspend/Resume (Optional, Not Supported from Version 4.00)
              1. 12.3.5.5.1.12.1 Suspend Sequence
              2. 12.3.5.5.1.12.2 Resume Sequence
              3. 12.3.5.5.1.12.3 Stop At Block Gap/Continue Timing for Read Transaction
              4. 12.3.5.5.1.12.4 Stop At Block Gap/Continue Timing for Write Transaction
          2. 12.3.5.5.2 Driver Flow Sequence
            1. 12.3.5.5.2.1 Host Controller Setup and Card Detection
              1. 12.3.5.5.2.1.1 Host Controller Setup Sequence
              2. 12.3.5.5.2.1.2 Card Interface Detection Sequence
            2. 12.3.5.5.2.2 Boot Operation
              1. 12.3.5.5.2.2.1 Normal Boot Operation: (For Legacy eMMC 5.0)
              2. 12.3.5.5.2.2.2 Alternate Boot Operation (For Legacy eMMC 5.0):
              3. 12.3.5.5.2.2.3 Boot Code Chunk Read Operation (For Legacy eMMC 5.0):
            3. 12.3.5.5.2.3 Retuning procedure (For Legacy Interface)
              1. 12.3.5.5.2.3.1 Sampling Clock Tuning
              2. 12.3.5.5.2.3.2 Tuning Modes
              3. 12.3.5.5.2.3.3 Re-Tuning Mode 2
            4. 12.3.5.5.2.4 Command Queuing Driver Flow Sequence
              1. 12.3.5.5.2.4.1 Command Queuing Initialization Sequence
              2. 12.3.5.5.2.4.2 Task Issuance Sequence
              3. 12.3.5.5.2.4.3 Task Execution and Completion Sequence
              4. 12.3.5.5.2.4.4 Task Discard and Clear Sequence
              5. 12.3.5.5.2.4.5 Error Detect and Recovery when CQ is enabled
        6. 12.3.5.6 MMCSD Registers
          1. 12.3.5.6.1 MMCSD0 Subsystem Registers
          2. 12.3.5.6.2 MMCSD0 RX RAM ECC Aggregator Registers
          3. 12.3.5.6.3 MMCSD0 TX RAM ECC Aggregator Registers
          4. 12.3.5.6.4 MMCSD0 Host Controller Registers
          5. 12.3.5.6.5 MMCSD1 Subsystem Registers
          6. 12.3.5.6.6 MMCSD1 RX RAM ECC Aggregator Registers
          7. 12.3.5.6.7 MMCSD1 TX RAM ECC Aggregator Registers
          8. 12.3.5.6.8 MMCSD1 Host Controller Registers
    4. 12.4 Industrial and Control Interfaces
      1. 12.4.1 Modular Controller Area Network (MCAN)
        1. 12.4.1.1 MCAN Overview
          1. 12.4.1.1.1 MCAN Features
          2. 12.4.1.1.2 MCAN Not Supported Features
        2. 12.4.1.2 MCAN Environment
          1. 12.4.1.2.1 CAN Network Basics
        3. 12.4.1.3 MCAN Integration
          1. 12.4.1.3.1 MCAN Integration in MAIN Domain
        4. 12.4.1.4 MCAN Functional Description
          1. 12.4.1.4.1  Module Clocking Requirements
          2. 12.4.1.4.2  Interrupt and DMA Requests
            1. 12.4.1.4.2.1 Interrupt Requests
            2. 12.4.1.4.2.2 DMA Requests
          3. 12.4.1.4.3  Operating Modes
            1. 12.4.1.4.3.1 Software Initialization
            2. 12.4.1.4.3.2 Normal Operation
            3. 12.4.1.4.3.3 CAN FD Operation
            4. 12.4.1.4.3.4 Transmitter Delay Compensation
              1. 12.4.1.4.3.4.1 Description
              2. 12.4.1.4.3.4.2 Transmitter Delay Compensation Measurement
            5. 12.4.1.4.3.5 Restricted Operation Mode
            6. 12.4.1.4.3.6 Bus Monitoring Mode
            7. 12.4.1.4.3.7 Disabled Automatic Retransmission (DAR) Mode
              1. 12.4.1.4.3.7.1 Frame Transmission in DAR Mode
            8. 12.4.1.4.3.8 Power Down (Sleep Mode)
              1. 12.4.1.4.3.8.1 External Clock Stop Mode
              2. 12.4.1.4.3.8.2 Suspend Mode
              3. 12.4.1.4.3.8.3 Wakeup request
            9. 12.4.1.4.3.9 Test Modes
              1. 12.4.1.4.3.9.1 Internal Loopback Mode
          4. 12.4.1.4.4  Timestamp Generation
            1. 12.4.1.4.4.1 External Timestamp Counter
          5. 12.4.1.4.5  Timeout Counter
          6. 12.4.1.4.6  ECC Support
            1. 12.4.1.4.6.1 ECC Wrapper
            2. 12.4.1.4.6.2 ECC Aggregator
          7. 12.4.1.4.7  Rx Handling
            1. 12.4.1.4.7.1 Acceptance Filtering
              1. 12.4.1.4.7.1.1 Range Filter
              2. 12.4.1.4.7.1.2 Filter for specific IDs
              3. 12.4.1.4.7.1.3 Classic Bit Mask Filter
              4. 12.4.1.4.7.1.4 Standard Message ID Filtering
              5. 12.4.1.4.7.1.5 Extended Message ID Filtering
            2. 12.4.1.4.7.2 Rx FIFOs
              1. 12.4.1.4.7.2.1 Rx FIFO Blocking Mode
              2. 12.4.1.4.7.2.2 Rx FIFO Overwrite Mode
            3. 12.4.1.4.7.3 Dedicated Rx Buffers
              1. 12.4.1.4.7.3.1 Rx Buffer Handling
            4. 12.4.1.4.7.4 Debug on CAN Support
          8. 12.4.1.4.8  Tx Handling
            1. 12.4.1.4.8.1 Transmit Pause
            2. 12.4.1.4.8.2 Dedicated Tx Buffers
            3. 12.4.1.4.8.3 Tx FIFO
            4. 12.4.1.4.8.4 Tx Queue
            5. 12.4.1.4.8.5 Mixed Dedicated Tx Buffers/Tx FIFO
            6. 12.4.1.4.8.6 Mixed Dedicated Tx Buffers/Tx Queue
            7. 12.4.1.4.8.7 Transmit Cancellation
            8. 12.4.1.4.8.8 Tx Event Handling
          9. 12.4.1.4.9  FIFO Acknowledge Handling
          10. 12.4.1.4.10 Message RAM
            1. 12.4.1.4.10.1 Message RAM Configuration
            2. 12.4.1.4.10.2 Rx Buffer and FIFO Element
            3. 12.4.1.4.10.3 Tx Buffer Element
            4. 12.4.1.4.10.4 Tx Event FIFO Element
            5. 12.4.1.4.10.5 Standard Message ID Filter Element
            6. 12.4.1.4.10.6 Extended Message ID Filter Element
        5. 12.4.1.5 MCAN Registers
          1. 12.4.1.5.1 MCAN Subsystem Registers
          2. 12.4.1.5.2 MCAN Core Registers
          3. 12.4.1.5.3 MCAN ECC Aggregator Registers
      2. 12.4.2 Enhanced Capture (ECAP) Module
        1. 12.4.2.1 ECAP Overview
          1. 12.4.2.1.1 ECAP Features
        2. 12.4.2.2 ECAP Environment
          1. 12.4.2.2.1 ECAP I/O Interface
        3. 12.4.2.3 ECAP Integration
          1. 12.4.2.3.1 Daisy-Chain Connectivity between ECAP Modules
        4. 12.4.2.4 ECAP Functional Description
          1. 12.4.2.4.1 Capture and APWM Operating Modes
            1. 12.4.2.4.1.1 ECAP Capture Mode Description
              1. 12.4.2.4.1.1.1 ECAP Event Prescaler
              2. 12.4.2.4.1.1.2 ECAP Edge Polarity Select and Qualifier
              3. 12.4.2.4.1.1.3 ECAP Continuous/One-Shot Control
              4. 12.4.2.4.1.1.4 ECAP 32-Bit Counter and Phase Control
              5. 12.4.2.4.1.1.5 CAP1-CAP4 Registers
              6. 12.4.2.4.1.1.6 ECAP Interrupt Control
              7. 12.4.2.4.1.1.7 ECAP Shadow Load and Lockout Control
            2. 12.4.2.4.1.2 ECAP APWM Mode Operation
          2. 12.4.2.4.2 Summary of ECAP Functional Registers
        5. 12.4.2.5 ECAP Use Cases
          1. 12.4.2.5.1 Absolute Time-Stamp Operation Rising Edge Trigger Example
            1. 12.4.2.5.1.1 Code Snippet for CAP Mode Absolute Time, Rising Edge Trigger
          2. 12.4.2.5.2 Absolute Time-Stamp Operation Rising and Falling Edge Trigger Example
            1. 12.4.2.5.2.1 Code Snippet for CAP Mode Absolute Time, Rising and Falling Edge Trigger
          3. 12.4.2.5.3 Time Difference (Delta) Operation Rising Edge Trigger Example
            1. 12.4.2.5.3.1 Code Snippet for CAP Mode Delta Time, Rising Edge Trigger
          4. 12.4.2.5.4 Time Difference (Delta) Operation Rising and Falling Edge Trigger Example
            1. 12.4.2.5.4.1 Code Snippet for CAP Mode Delta Time, Rising and Falling Edge Triggers
          5. 12.4.2.5.5 Application of the APWM Mode
            1. 12.4.2.5.5.1 Simple PWM Generation (Independent Channel/s) Example
              1. 12.4.2.5.5.1.1 Code Snippet for APWM Mode
            2. 12.4.2.5.5.2 Multichannel PWM Generation with Synchronization Example
              1. 12.4.2.5.5.2.1 Code Snippet for Multichannel PWM Generation with Synchronization
            3. 12.4.2.5.5.3 Multichannel PWM Generation with Phase Control Example
              1. 12.4.2.5.5.3.1 Code Snippet for Multichannel PWM Generation with Phase Control
        6. 12.4.2.6 ECAP Registers
      3. 12.4.3 Enhanced Pulse Width Modulation (EPWM) Module
        1. 12.4.3.1 EPWM Overview
          1. 12.4.3.1.1 EPWM Features
          2. 12.4.3.1.2 EPWM Not Supported Features
          3. 12.4.3.1.3 Multiple EPWM Module Details
        2. 12.4.3.2 EPWM Environment
        3. 12.4.3.3 EPWM Integration
          1. 12.4.3.3.1 EPWM Additional Integration Details
            1. 12.4.3.3.1.1 EPWM Tripzone Connectivity
            2. 12.4.3.3.1.2 Daisy-Chain Connectivity between EPWM Modules
            3. 12.4.3.3.1.3 ADC start of conversion signals (PWM_SOCA and PWM_SOCB)
            4. 12.4.3.3.1.4 EPWM Modules Time-Base Clock Gating
        4. 12.4.3.4 EPWM Functional Description
          1. 12.4.3.4.1  EPWM Submodule Features
            1. 12.4.3.4.1.1 Constant Definitions Used in the EPWM Code Examples
          2. 12.4.3.4.2  EPWM Time-Base (TB) Submodule
            1. 12.4.3.4.2.1 Overview
            2. 12.4.3.4.2.2 Controlling and Monitoring the EPWM Time-Base Submodule
            3. 12.4.3.4.2.3 Calculating PWM Period and Frequency
              1. 12.4.3.4.2.3.1 EPWM Time-Base Period Shadow Register
              2. 12.4.3.4.2.3.2 EPWM Time-Base Counter Synchronization
            4. 12.4.3.4.2.4 Phase Locking the Time-Base Clocks of Multiple EPWM Modules
            5. 12.4.3.4.2.5 EPWM Time-Base Counter Modes and Timing Waveforms
          3. 12.4.3.4.3  EPWM Counter-Compare (CC) Submodule
            1. 12.4.3.4.3.1 Overview
            2. 12.4.3.4.3.2 Controlling and Monitoring the EPWM Counter-Compare Submodule
            3. 12.4.3.4.3.3 Operational Highlights for the EPWM Counter-Compare Submodule
            4. 12.4.3.4.3.4 EPWM Counter-Compare Submodule Timing Waveforms
          4. 12.4.3.4.4  EPWM Action-Qualifier (AQ) Submodule
            1. 12.4.3.4.4.1 Overview
            2. 12.4.3.4.4.2 Controlling and Monitoring the EPWM Action-Qualifier Submodule
            3. 12.4.3.4.4.3 EPWM Action-Qualifier Event Priority
            4. 12.4.3.4.4.4 Waveforms for Common EPWM Configurations
          5. 12.4.3.4.5  EPWM Dead-Band Generator (DB) Submodule
            1. 12.4.3.4.5.1 Overview
            2. 12.4.3.4.5.2 Controlling and Monitoring the EPWM Dead-Band Submodule
            3. 12.4.3.4.5.3 Operational Highlights for the EPWM Dead-Band Generator Submodule
          6. 12.4.3.4.6  EPWM-Chopper (PC) Submodule
            1. 12.4.3.4.6.1 Overview
            2. 12.4.3.4.6.2 5369
            3. 12.4.3.4.6.3 Controlling the EPWM-Chopper Submodule
            4. 12.4.3.4.6.4 Operational Highlights for the EPWM-Chopper Submodule
            5. 12.4.3.4.6.5 EPWM-Chopper Waveforms
              1. 12.4.3.4.6.5.1 EPWM-Chopper One-Shot Pulse
              2. 12.4.3.4.6.5.2 EPWM-Chopper Duty Cycle Control
          7. 12.4.3.4.7  EPWM Trip-Zone (TZ) Submodule
            1. 12.4.3.4.7.1 Overview
            2. 12.4.3.4.7.2 Controlling and Monitoring the EPWM Trip-Zone Submodule
            3. 12.4.3.4.7.3 Operational Highlights for the EPWM Trip-Zone Submodule
            4. 12.4.3.4.7.4 Generating EPWM Trip-Event Interrupts
          8. 12.4.3.4.8  EPWM Event-Trigger (ET) Submodule
            1. 12.4.3.4.8.1 Overview
            2. 12.4.3.4.8.2 Controlling and Monitoring the EPWM Event-Trigger Submodule
            3. 12.4.3.4.8.3 Operational Overview of the EPWM Event-Trigger Submodule
            4. 12.4.3.4.8.4 Operation Overview of the EPWM SOCx Pulse Generator
          9. 12.4.3.4.9  EPWM Functional Register Groups
          10. 12.4.3.4.10 Proper EPWM Interrupt Initialization Procedure
        5. 12.4.3.5 EPWM Registers
      4. 12.4.4 Enhanced Quadrature Encoder Pulse (EQEP) Module
        1. 12.4.4.1 EQEP Overview
          1. 12.4.4.1.1 EQEP Features
          2. 12.4.4.1.2 EQEP Not Supported Features
        2. 12.4.4.2 EQEP Environment
          1. 12.4.4.2.1 EQEP I/O Interface
        3. 12.4.4.3 EQEP Integration
          1. 12.4.4.3.1 Device Specific EQEP Features
        4. 12.4.4.4 EQEP Functional Description
          1. 12.4.4.4.1 EQEP Inputs
          2. 12.4.4.4.2 EQEP Quadrature Decoder Unit (QDU)
            1. 12.4.4.4.2.1 EQEP Position Counter Input Modes
              1. 12.4.4.4.2.1.1 Quadrature Count Mode
              2. 12.4.4.4.2.1.2 EQEP Direction-count Mode
              3. 12.4.4.4.2.1.3 EQEP Up-Count Mode
              4. 12.4.4.4.2.1.4 EQEP Down-Count Mode
            2. 12.4.4.4.2.2 EQEP Input Polarity Selection
            3. 12.4.4.4.2.3 EQEP Position-Compare Sync Output
          3. 12.4.4.4.3 EQEP Position Counter and Control Unit (PCCU)
            1. 12.4.4.4.3.1 EQEP Position Counter Operating Modes
              1. 12.4.4.4.3.1.1 EQEP Position Counter Reset on Index Event (EQEP_QDEC_QEP_CTL[29-28] PCRM] = 0b00)
              2. 12.4.4.4.3.1.2 EQEP Position Counter Reset on Maximum Position (EQEP_QDEC_QEP_CTL[29-28] PCRM=0b01)
              3. 12.4.4.4.3.1.3 Position Counter Reset on the First Index Event (EQEP_QDEC_QEP_CTL[29-28] PCRM = 0b10)
              4. 12.4.4.4.3.1.4 Position Counter Reset on Unit Time out Event (EQEP_QDEC_QEP_CTL[29-28] PCRM = 0b11)
            2. 12.4.4.4.3.2 EQEP Position Counter Latch
              1. 12.4.4.4.3.2.1 Index Event Latch
              2. 12.4.4.4.3.2.2 EQEP Strobe Event Latch
            3. 12.4.4.4.3.3 EQEP Position Counter Initialization
            4. 12.4.4.4.3.4 EQEP Position-Compare Unit
          4. 12.4.4.4.4 EQEP Edge Capture Unit
          5. 12.4.4.4.5 EQEP Watchdog
          6. 12.4.4.4.6 Unit Timer Base
          7. 12.4.4.4.7 EQEP Interrupt Structure
          8. 12.4.4.4.8 Summary of EQEP Functional Registers
        5. 12.4.4.5 EQEP Registers
      5. 12.4.5 Fast Serial Interface (FSI)
        1. 12.4.5.1 FSI Overview
          1. 12.4.5.1.1 FSI Features
          2. 12.4.5.1.2 FSI Not Supported Featurs
        2. 12.4.5.2 FSI Environment
          1. 12.4.5.2.1 Signal Description
        3. 12.4.5.3 FSI Integration
          1. 12.4.5.3.1 FSI Interrupts
            1. 12.4.5.3.1.1 Transmitter Interrupts
            2. 12.4.5.3.1.2 Receiver Interrupts
            3. 12.4.5.3.1.3 Configuring Interrupts
            4. 12.4.5.3.1.4 Handling Interrupts
        4. 12.4.5.4 FSI Functional Description
          1. 12.4.5.4.1 FSI Functional Description
          2. 12.4.5.4.2 FSI Transmitter Module (FSI_TX)
            1. 12.4.5.4.2.1 Initialization
            2. 12.4.5.4.2.2 FSI_TX Clocking
            3. 12.4.5.4.2.3 Transmitting Frames
              1. 12.4.5.4.2.3.1 Software Triggered Frames
              2. 12.4.5.4.2.3.2 Ping Frame Generation
                1. 12.4.5.4.2.3.2.1 Automatic Ping Frames
                2. 12.4.5.4.2.3.2.2 Software Triggered Ping Frame
            4. 12.4.5.4.2.4 Transmit Buffer Management
            5. 12.4.5.4.2.5 CRC Submodule
            6. 12.4.5.4.2.6 Conditions in Which the Transmitter Must Undergo a Soft Reset
            7. 12.4.5.4.2.7 Reset
          3. 12.4.5.4.3 FSI Receiver Module (FSI_RX)
            1. 12.4.5.4.3.1  Initialization
            2. 12.4.5.4.3.2  FSI_RX Clocking
            3. 12.4.5.4.3.3  Receiving Frames
            4. 12.4.5.4.3.4  Ping Frame Watchdog
            5. 12.4.5.4.3.5  Frame Watchdog
            6. 12.4.5.4.3.6  Delay Line Control
            7. 12.4.5.4.3.7  Buffer Management
            8. 12.4.5.4.3.8  CRC Submodule
            9. 12.4.5.4.3.9  Using the Zero Bits of the Receiver Tag Registers
            10. 12.4.5.4.3.10 Conditions in Which the Receiver Must Undergo a Soft Reset
            11. 12.4.5.4.3.11 FSI_RX Reset
          4. 12.4.5.4.4 Frame Format
            1. 12.4.5.4.4.1 FSI Frame Phases
            2. 12.4.5.4.4.2 Frame Types
              1. 12.4.5.4.4.2.1 Ping Frames
              2. 12.4.5.4.4.2.2 Error Frames
              3. 12.4.5.4.4.2.3 Data Frames
            3. 12.4.5.4.4.3 Multi-Lane Transmission
          5. 12.4.5.4.5 Flush Sequence
          6. 12.4.5.4.6 Internal Loopback
          7. 12.4.5.4.7 CRC Generation
          8. 12.4.5.4.8 ECC Module
          9. 12.4.5.4.9 FSI-SPI Compatibility Mode
            1. 12.4.5.4.9.1 Available SPI Modes
              1. 12.4.5.4.9.1.1 FSITX as SPI Controller, Transmit Only
                1. 12.4.5.4.9.1.1.1 Initialization
                2. 12.4.5.4.9.1.1.2 Operation
              2. 12.4.5.4.9.1.2 FSIRX as SPI Peripheral, Receive Only
                1. 12.4.5.4.9.1.2.1 Initialization
                2. 12.4.5.4.9.1.2.2 Operation
              3. 12.4.5.4.9.1.3 FSITX and FSIRX Emulating a Full Duplex SPI Controller
                1. 12.4.5.4.9.1.3.1 Initialization
                2. 12.4.5.4.9.1.3.2 Operation
        5. 12.4.5.5 FSI Programing Guide
          1. 12.4.5.5.1 Establishing the Communication Link
            1. 12.4.5.5.1.1 Establishing the Communication Link from the Main Device
            2. 12.4.5.5.1.2 Establishing the Communication Link from the Remote Device
          2. 12.4.5.5.2 Register Protection
          3. 12.4.5.5.3 Emulation Mode
        6. 12.4.5.6 FSI Registers
          1. 12.4.5.6.1 FSITX Registers
          2. 12.4.5.6.2 FSIRX Registers
    5. 12.5 Timer Modules
      1. 12.5.1 Global Timebase Counter (GTC)
        1. 12.5.1.1 Global Timebase Counter (GTC)
          1. 12.5.1.1.1 GTC Overview
            1. 12.5.1.1.1.1 GTC Features
            2. 12.5.1.1.1.2 GTC Not Supported Features
          2. 12.5.1.1.2 GTC Integration
        2. 12.5.1.2 GTC Functional Description
          1. 12.5.1.2.1 GTC Block Diagram
          2. 12.5.1.2.2 GTC Counter
          3. 12.5.1.2.3 GTC Register Partitioning
        3. 12.5.1.3 GTC Registers
          1. 12.5.1.3.1  GTC_CFG0_GTC_PID Registers
          2. 12.5.1.3.2  GTC_CFG0_GTC_GTC_PID Registers
          3. 12.5.1.3.3  GTC_CFG0_GTC_PUSHEVT Registers
          4. 12.5.1.3.4  GTC_CFG1_GTC_CNTCR Registers
          5. 12.5.1.3.5  GTC_CFG1_GTC_CNTSR Registers
          6. 12.5.1.3.6  GTC_CFG1_GTC_CNTCV_LO Registers
          7. 12.5.1.3.7  GTC_CFG1_GTC_CNTCV_HI Registers
          8. 12.5.1.3.8  GTC_CFG1_GTC_CNTFID0 Registers
          9. 12.5.1.3.9  GTC_CFG1_GTC_CNTFID1 Registers
          10. 12.5.1.3.10 GTC_CFG2_GTC_CNTCVS_LO Registers
          11. 12.5.1.3.11 GTC_CFG2_GTC_CNTCVS_HI Registers
          12. 12.5.1.3.12 GTC_CFG3_GTC_CNTTIDR Registers
          13. 12.5.1.3.13 Access Table
      2. 12.5.2 RTI-Windowed Watchdog Timer (WWDT)
        1. 12.5.2.1 RTI Overview
          1. 12.5.2.1.1 RTI Features
          2. 12.5.2.1.2 RTI Not Supported Features
        2. 12.5.2.2 RTI Integration
          1. 12.5.2.2.1 RTI Integration in MCU Domain
          2. 12.5.2.2.2 RTI Integration in MAIN Domain
        3. 12.5.2.3 RTI Functional Description
          1. 12.5.2.3.1 RTI Digital Windowed Watchdog
            1. 12.5.2.3.1.1 RTI Debug Mode Behavior
            2. 12.5.2.3.1.2 RTI Low Power Mode Operation
          2. 12.5.2.3.2 RTI Digital Watchdog
          3. 12.5.2.3.3 RTI Counter Operation
        4. 12.5.2.4 RTI Registers
      3. 12.5.3 Timers
        1. 12.5.3.1 Timers Overview
          1. 12.5.3.1.1 Timers Features
          2. 12.5.3.1.2 Timers Not Supported Features
        2. 12.5.3.2 Timers Environment
          1. 12.5.3.2.1 Timer External System Interface
        3. 12.5.3.3 Timers Integration
          1. 12.5.3.3.1 Timers Integration in MCU Domain
          2. 12.5.3.3.2 Timers Integration in MAIN Domain
        4. 12.5.3.4 Timers Functional Description
          1. 12.5.3.4.1  Timer Block Diagram
          2. 12.5.3.4.2  Timer Power Management
            1. 12.5.3.4.2.1 Wake-Up Capability
          3. 12.5.3.4.3  Timer Software Reset
          4. 12.5.3.4.4  Timer Interrupts
          5. 12.5.3.4.5  Timer Mode Functionality
            1. 12.5.3.4.5.1 1-ms Tick Generation
          6. 12.5.3.4.6  Timer Capture Mode Functionality
          7. 12.5.3.4.7  Timer Compare Mode Functionality
          8. 12.5.3.4.8  Timer Prescaler Functionality
          9. 12.5.3.4.9  Timer Pulse-Width Modulation
          10. 12.5.3.4.10 Timer Counting Rate
          11. 12.5.3.4.11 Timer Under Emulation
          12. 12.5.3.4.12 Accessing Timer Registers
            1. 12.5.3.4.12.1 Writing to Timer Registers
              1. 12.5.3.4.12.1.1 Write Posting Synchronization Mode
              2. 12.5.3.4.12.1.2 Write Nonposting Synchronization Mode
            2. 12.5.3.4.12.2 Reading From Timer Counter Registers
              1. 12.5.3.4.12.2.1 Read Posted
              2. 12.5.3.4.12.2.2 Read Non-Posted
          13. 12.5.3.4.13 Timer Posted Mode Selection
        5. 12.5.3.5 Timers Low-Level Programming Models
          1. 12.5.3.5.1 Timer Global Initialization
            1. 12.5.3.5.1.1 Main Sequence – Timer Module Global Initialization
          2. 12.5.3.5.2 Timer Operational Mode Configuration
            1. 12.5.3.5.2.1 Timer Mode
              1. 12.5.3.5.2.1.1 Main Sequence – Timer Mode Configuration
            2. 12.5.3.5.2.2 Timer Compare Mode
              1. 12.5.3.5.2.2.1 Main Sequence – Timer Compare Mode Configuration
            3. 12.5.3.5.2.3 Timer Capture Mode
              1. 12.5.3.5.2.3.1 Main Sequence – Timer Capture Mode Configuration
              2. 12.5.3.5.2.3.2 Subsequence – Initialize Capture Mode
              3. 12.5.3.5.2.3.3 Subsequence – Detect Event
            4. 12.5.3.5.2.4 Timer PWM Mode
              1. 12.5.3.5.2.4.1 Main Sequence – Timer PWM Mode Configuration
        6. 12.5.3.6 Timers Registers
    6. 12.6 Internal Diagnostics Modules
      1. 12.6.1 Dual Clock Comparator (DCC)
        1. 12.6.1.1 DCC Overview
          1. 12.6.1.1.1 DCC Features
          2. 12.6.1.1.2 DCC Not Supported Features
        2. 12.6.1.2 DCC Integration
          1. 12.6.1.2.1 DCC Integration in MCU Domain
            1. 12.6.1.2.1.1 MCU DCC Input Source Clock Mapping
          2. 12.6.1.2.2 DCC Integration in MAIN Domain
            1. 12.6.1.2.2.1 DCC Input Source Clock Mapping
        3. 12.6.1.3 DCC Functional Description
          1. 12.6.1.3.1 DCC Counter Operation
          2. 12.6.1.3.2 DCC Low Power Mode Operation
          3. 12.6.1.3.3 DCC Suspend Mode Behavior
          4. 12.6.1.3.4 DCC Single-Shot Mode
          5. 12.6.1.3.5 DCC Continuous mode
            1. 12.6.1.3.5.1 DCC Continue on Error
            2. 12.6.1.3.5.2 DCC Error Count
          6. 12.6.1.3.6 DCC Control and count hand-off across clock domains
          7. 12.6.1.3.7 DCC Error Trajectory record
            1. 12.6.1.3.7.1 DCC FIFO capturing for Errors
            2. 12.6.1.3.7.2 DCC FIFO in continuous capture mode
            3. 12.6.1.3.7.3 DCC FIFO Details
            4. 12.6.1.3.7.4 DCC FIFO Debug mode behavior
          8. 12.6.1.3.8 DCC Count read registers
        4. 12.6.1.4 DCC Registers
      2. 12.6.2 Error Signaling Module (ESM)
        1. 12.6.2.1 ESM Overview
          1. 12.6.2.1.1 ESM Features
        2. 12.6.2.2 ESM Environment
        3. 12.6.2.3 ESM Integration
          1. 12.6.2.3.1 ESM Integration in MCU Domain
          2. 12.6.2.3.2 ESM Integration in MAIN Domain
        4. 12.6.2.4 ESM Functional Description
          1. 12.6.2.4.1 ESM Interrupt Requests
            1. 12.6.2.4.1.1 ESM Configuration Error Interrupt
            2. 12.6.2.4.1.2 ESM Low Priority Error Interrupt
              1. 12.6.2.4.1.2.1 ESM Low Priority Error Level Event
              2. 12.6.2.4.1.2.2 ESM Low Priority Error Pulse Event
            3. 12.6.2.4.1.3 ESM High Priority Error Interrupt
              1. 12.6.2.4.1.3.1 ESM High Priority Error Level Event
              2. 12.6.2.4.1.3.2 ESM High Priority Error Pulse Event
          2. 12.6.2.4.2 ESM Error Event Inputs
          3. 12.6.2.4.3 ESM Error Pin Output
          4. 12.6.2.4.4 PWM Mode
          5. 12.6.2.4.5 ESM Minimum Time Interval
          6. 12.6.2.4.6 ESM Protection for Registers
          7. 12.6.2.4.7 ESM Clock Stop
        5. 12.6.2.5 ESM Registers
      3. 12.6.3 Memory Cyclic Redundancy Check (MCRC) Controller
        1. 12.6.3.1 MCRC Overview
          1. 12.6.3.1.1 MCRC Features
          2. 12.6.3.1.2 MCRC Not Supported Features
        2. 12.6.3.2 MCRC Integration
        3. 12.6.3.3 MCRC Functional Description
          1. 12.6.3.3.1  MCRC Block Diagram
          2. 12.6.3.3.2  MCRC General Operation
          3. 12.6.3.3.3  MCRC Modes of Operation
            1. 12.6.3.3.3.1 AUTO Mode
            2. 12.6.3.3.3.2 Semi-CPU Mode
            3. 12.6.3.3.3.3 Full-CPU Mode
          4. 12.6.3.3.4  PSA Signature Register
          5. 12.6.3.3.5  PSA Sector Signature Register
          6. 12.6.3.3.6  CRC Value Register
          7. 12.6.3.3.7  Raw Data Register
          8. 12.6.3.3.8  Example DMA Controller Setup
            1. 12.6.3.3.8.1 AUTO Mode Using Hardware Timer Trigger
            2. 12.6.3.3.8.2 AUTO Mode Using Software Trigger
            3. 12.6.3.3.8.3 Semi-CPU Mode Using Hardware Timer Trigger
          9. 12.6.3.3.9  Pattern Count Register
          10. 12.6.3.3.10 Sector Count Register/Current Sector Register
          11. 12.6.3.3.11 Interrupts
            1. 12.6.3.3.11.1 Overrun Interrupt
            2. 12.6.3.3.11.2 Timeout Interrupt
            3. 12.6.3.3.11.3 Underrun Interrupt
            4. 12.6.3.3.11.4 Compression Complete Interrupt
            5. 12.6.3.3.11.5 Interrupt Offset Register
            6. 12.6.3.3.11.6 Error Handling
          12. 12.6.3.3.12 Power Down Mode
          13. 12.6.3.3.13 Emulation
        4. 12.6.3.4 MCRC Programming Examples
          1. 12.6.3.4.1 Example: Auto Mode Using Time Based Event Triggering
            1. 12.6.3.4.1.1 DMA Setup
            2. 12.6.3.4.1.2 Timer Setup
            3. 12.6.3.4.1.3 CRC Setup
          2. 12.6.3.4.2 Example: Auto Mode Without Using Time Based Triggering
            1. 12.6.3.4.2.1 DMA Setup
            2. 12.6.3.4.2.2 CRC Setup
          3. 12.6.3.4.3 Example: Semi-CPU Mode
            1. 12.6.3.4.3.1 DMA Setup
            2. 12.6.3.4.3.2 Timer Setup
            3. 12.6.3.4.3.3 CRC Setup
          4. 12.6.3.4.4 Example: Full-CPU Mode
            1. 12.6.3.4.4.1 CRC Setup
        5. 12.6.3.5 MCRC Registers
      4. 12.6.4 ECC Aggregator
        1. 12.6.4.1 ECC Aggregator Overview
          1. 12.6.4.1.1 ECC Aggregator Features
        2. 12.6.4.2 ECC Aggregator Integration
        3. 12.6.4.3 ECC Aggregator Functional Description
          1. 12.6.4.3.1 ECC Aggregator Block Diagram
          2. 12.6.4.3.2 ECC Aggregator Register Groups
          3. 12.6.4.3.3 Read Access to the ECC Control and Status Registers
          4. 12.6.4.3.4 Serial Write Operation
          5. 12.6.4.3.5 Interrupts
          6. 12.6.4.3.6 Inject Only Mode
        4. 12.6.4.4 ECC Aggregators Interconnect
        5. 12.6.4.5 ECC Aggregator Registers
  15. 13On-Chip Debug
    1. 13.1 On-Chip Debug Overview
    2. 13.2 On-Chip Debug Features
    3.     5688
    4. 13.3 On-Chip Debug Functional Description
      1. 13.3.1  On-Chip Debug Block Diagram
      2. 13.3.2  Device Interfaces
        1. 13.3.2.1 JTAG Interface
        2. 13.3.2.2 Trigger and Debug Boot Mode Interface
        3. 13.3.2.3 Trace Port Interface
      3. 13.3.3  Debug and Boundary Scan Access and Control
      4. 13.3.4  Debug Boot Modes and Boundary Scan Compliance
      5. 13.3.5  Power, Reset, Clock Management
      6. 13.3.6  Debug Cross Triggering
      7. 13.3.7  R5FSS0/R5FSS1 Debug
      8. 13.3.8  DMSC Debug
      9. 13.3.9  A53SS0 Debug
      10. 13.3.10 PRU_ICSSG0/PRU_ICSSG1 Debug
      11. 13.3.11 SoC Debug and Trace
        1. 13.3.11.1 Software messaging trace
        2. 13.3.11.2 Debug-Aware Peripherals
        3. 13.3.11.3 Traffic Monitoring With Bus Probes
        4. 13.3.11.4 Global timestamping for trace
      12. 13.3.12 Trace Traffic
        1. 13.3.12.1 Trace Sources
        2. 13.3.12.2 Trace Infrasctructure
        3. 13.3.12.3 Trace Sinks
      13. 13.3.13 Application Support
  16. 14Revision History

CTRL_MMR0 Registers

CTRLMMR_USB_DEVICE_ID1

CTRLMMR_PCI_DEVICE_ID0

.

CTRLMMR_USB_DEVICE_ID1

CTRLMMR_PCI_DEVICE_ID0

.

Table 5-48 lists the memory-mapped registers for the CTRL_MMR0. All register offset addresses not listed in Table 5-48 should be considered as reserved locations and the register contents should not be modified.

Table 5-47 CTRL_MMR0 Instances
Instance Base Address
CTRL_MMR0 4300 0000h
Table 5-48 CTRL_MMR0 Registers
Proxy0 Offset Proxy1 Offset Acronym Register Name CTRL_MMR0 Proxy0 Physical Address CTRL_MMR0 Proxy1 Physical Address
0h 2000h CTRLMMR_PID Peripheral Identification Register 4300 0000h 4300 2000h
8h 2008h CTRLMMR_MMR_CFG1 Configuration register 1 4300 0008h 4300 2008h
14h 2014h CTRLMMR_JTAGID JTAG / DEVICE ID Register 4300 0014h 4300 2014h
18h 2018h CTRLMMR_JTAG_USER_ID JTAG User Code ID Register 4300 0018h 4300 2018h
30h 2030h CTRLMMR_MAIN_DEVSTAT MAIN domain Device Status Register 4300 0030h 4300 2030h
34h 2034h CTRLMMR_MAIN_BOOTCFG MAIN domain Boot Configuration Register 4300 0034h 4300 2034h
60h 2060h CTRLMMR_DEVICE_FEATURE0 Device Feature Register 0 4300 0060h 4300 2060h
68h 2068h CTRLMMR_DEVICE_FEATURE2 Device Feature Register 2 4300 0068h 4300 2068h
78h 2078h CTRLMMR_DEVICE_FEATURE6 Device Feature Register 6 4300 0078h 4300 2078h
200h 2200h CTRLMMR_MAC_ID0 MAC Address Lo register 4300 0200h 4300 2200h
204h 2204h CTRLMMR_MAC_ID1 MAC Address Hi Register 4300 0204h 4300 2204h
210h 2210h CTRLMMR_PCI_DEVICE_ID0 PCI Device ID Register0 4300 0210h 4300 2210h
214h 2214h CTRLMMR_PCI_DEVICE_ID1 PCI Device ID Register1 4300 0214h 4300 2214h
220h 2220h CTRLMMR_USB_DEVICE_ID0 USB Device ID Register0 4300 0220h 4300 2220h
224h 2224h CTRLMMR_USB_DEVICE_ID1 USB Device ID Register1 4300 0224h 4300 2224h
230h 2230h CTRLMMR_GP_SW0 General Purpose Software Fuse Value 0 4300 0230h 4300 2230h
234h 2234h CTRLMMR_GP_SW1 General Purpose Software Fuse Value 1 4300 0234h 4300 2234h
238h 2238h CTRLMMR_GP_SW2 General Purpose Software Fuse Value 2 4300 0238h 4300 2238h
23Ch 223Ch CTRLMMR_GP_SW3 General Purpose Software Fuse Value 3 4300 023Ch 4300 223Ch
270h 2270h CTRLMMR_CBA_ERR_STAT Bus Error Status 4300 0270h 4300 2270h
1008h 3008h CTRLMMR_LOCK0_KICK0 Partition 0 Lock Key 0 Register 4300 1008h 4300 3008h
100Ch 300Ch CTRLMMR_LOCK0_KICK1 Partition 0 Lock Key 1 Register 4300 100Ch 4300 300Ch
1010h 3010h CTRLMMR_INTR_RAW_STAT Interrupt Raw Status Register 4300 1010h 4300 3010h
1014h 3014h CTRLMMR_INTR_STAT_CLR Interrupt Status and Clear Register 4300 1014h 4300 3014h
1018h 3018h CTRLMMR_INTR_EN_SET Interrupt Enable Set Register 4300 1018h 4300 3018h
101Ch 301Ch CTRLMMR_INTR_EN_CLR Interrupt Enable Clear Register 4300 101Ch 4300 301Ch
1020h 3020h CTRLMMR_EOI End of Interrupt Register 4300 1020h 4300 3020h
1024h 3024h CTRLMMR_FAULT_ADDR Fault Address Register 4300 1024h 4300 3024h
1028h 3028h CTRLMMR_FAULT_TYPE Fault Type Register 4300 1028h 4300 3028h
102Ch 302Ch CTRLMMR_FAULT_ATTR Fault Attribute Register 4300 102Ch 4300 302Ch
1030h 3030h CTRLMMR_FAULT_CLR Fault Clear Register 4300 1030h 4300 3030h
1100h 3100h CTRLMMR_P0_CLAIM0 Partition 0 Claim Register 0 4300 1100h 4300 3100h
1110h 3110h CTRLMMR_P0_CLAIM4 Partition 0 Claim Register 4 4300 1110h 4300 3110h
4008h 6008h CTRLMMR_USB0_PHY_CTRL USB0 Phy Control Register 4300 4008h 4300 6008h
4044h 6044h CTRLMMR_ENET1_CTRL Ethernet1 Control Register 4300 4044h 4300 6044h
4048h 6048h CTRLMMR_ENET2_CTRL Ethernet2 Control Register 4300 4048h 4300 6048h
4070h 6070h CTRLMMR_PCIE0_CTRL PCEI0 Control Register 4300 4070h 4300 6070h
4080h 6080h CTRLMMR_SERDES0_LN0_CTRL SERDES0 Lane0 Control Register 4300 4080h 4300 6080h
40C0h 60C0h CTRLMMR_ADC0_TRIM ADC0 Trim Register 4300 40C0h 4300 60C0h
40E0h 60E0h CTRLMMR_SERDES0_CTRL SERDES0 Control Register 4300 40E0h 4300 60E0h
4100h 6100h CTRLMMR_ICSSG0_CTRL0 ICSS_G0 Control Register 0 4300 4100h 4300 6100h
4104h 6104h CTRLMMR_ICSSG0_CTRL1 ICSS_G0 Control Register 1 4300 4104h 4300 6104h
4110h 6110h CTRLMMR_ICSSG1_CTRL0 ICSS_G1 Control Register 0 4300 4110h 4300 6110h
4114h 6114h CTRLMMR_ICSSG1_CTRL1 ICSS_G1 Control Register 1 4300 4114h 4300 6114h
4130h 6130h CTRLMMR_EPWM_TB_CLKEN EPWM Time Base Clock Enable Register 4300 4130h 4300 6130h
4134h 6134h CTRLMMR_EPWM_TB_CLKEN_SET EPWM Time Base Clock Enable Set Register 4300 4134h 4300 6134h
4138h 6138h CTRLMMR_EPWM_TB_CLKEN_CLR EPWM Time Base Clock Enable Clear Register 4300 4138h 4300 6138h
4140h 6140h CTRLMMR_EPWM0_CTRL PWM0 Control Register 4300 4140h 4300 6140h
4144h 6144h CTRLMMR_EPWM1_CTRL PWM1 Control Register 4300 4144h 4300 6144h
4148h 6148h CTRLMMR_EPWM2_CTRL PWM2 Control Register 4300 4148h 4300 6148h
414Ch 614Ch CTRLMMR_EPWM3_CTRL PWM3 Control Register 4300 414Ch 4300 614Ch
4150h 6150h CTRLMMR_EPWM4_CTRL PWM4 Control Register 4300 4150h 4300 6150h
4154h 6154h CTRLMMR_EPWM5_CTRL PWM5 Control Register 4300 4154h 4300 6154h
4158h 6158h CTRLMMR_EPWM6_CTRL PWM6 Control Register 4300 4158h 4300 6158h
415Ch 615Ch CTRLMMR_EPWM7_CTRL PWM7 Control Register 4300 415Ch 4300 615Ch
4160h 6160h CTRLMMR_EPWM8_CTRL PWM8 Control Register 4300 4160h 4300 6160h
4170h 6170h CTRLMMR_SOCA_SEL PWM SOCA Select Register 4300 4170h 4300 6170h
4174h 6174h CTRLMMR_SOCB_SEL PWM SOCB Select Register 4300 4174h 4300 6174h
4180h 6180h CTRLMMR_EQEP0_CTRL EQEP SOCA Select Register 4300 4180h 4300 6180h
4184h 6184h CTRLMMR_EQEP1_CTRL EQEP SOCA Select Register 4300 4184h 4300 6184h
4188h 6188h CTRLMMR_EQEP2_CTRL EQEP SOCA Select Register 4300 4188h 4300 6188h
41A0h 61A0h CTRLMMR_EQEP_STAT EQEP Status Register 4300 41A0h 4300 61A0h
41B4h 61B4h CTRLMMR_SDIO1_CTRL SDIO1 Control Register 4300 41B4h 4300 61B4h
4204h 6204h CTRLMMR_TIMER1_CTRL TIMER1 Control Register 4300 4204h 4300 6204h
420Ch 620Ch CTRLMMR_TIMER3_CTRL TIMER3 Control Register 4300 420Ch 4300 620Ch
4214h 6214h CTRLMMR_TIMER5_CTRL TIMER5 Control Register 4300 4214h 4300 6214h
421Ch 621Ch CTRLMMR_TIMER7_CTRL TIMER7 Control Register 4300 421Ch 4300 621Ch
4224h 6224h CTRLMMR_TIMER9_CTRL TIMER9 Control Register 4300 4224h 4300 6224h
422Ch 622Ch CTRLMMR_TIMER11_CTRL TIMER11 Control Register 4300 422Ch 4300 622Ch
42E0h 62E0h CTRLMMR_I2C0_CTRL I2C0 Control Register 4300 42E0h 4300 62E0h
4700h 6700h CTRLMMR_FSS_CTRL Flash Subsystem Control Register 4300 4700h 4300 6700h
4710h 6710h CTRLMMR_ADC0_CTRL ADC0 Control Register 4300 4710h 4300 6710h
4750h 6750h CTRLMMR_DCC_STAT DCC Status Register 4300 4750h 4300 6750h
5008h 7008h CTRLMMR_LOCK1_KICK0 Partition 1 Lock Key 0 Register 4300 5008h 4300 7008h
500Ch 700Ch CTRLMMR_LOCK1_KICK1 Partition 1 Lock Key 1 Register 4300 500Ch 4300 700Ch
5100h 7100h CTRLMMR_P1_CLAIM0 Partition 1 Claim Register 0 4300 5100h 4300 7100h
5104h 7104h CTRLMMR_P1_CLAIM1 Partition 1 Claim Register 1 4300 5104h 4300 7104h
5108h 7108h CTRLMMR_P1_CLAIM2 Partition 1 Claim Register 2 4300 5108h 4300 7108h
510Ch 710Ch CTRLMMR_P1_CLAIM3 Partition 1 Claim Register 3 4300 510Ch 4300 710Ch
5110h 7110h CTRLMMR_P1_CLAIM4 Partition 1 Claim Register 4 4300 5110h 4300 7110h
5114h 7114h CTRLMMR_P1_CLAIM5 Partition 1 Claim Register 5 4300 5114h 4300 7114h
5130h 7130h CTRLMMR_P1_CLAIM12 Partition 1 Claim Register 12 4300 5130h 4300 7130h
5134h 7134h CTRLMMR_P1_CLAIM13 Partition 1 Claim Register 13 4300 5134h 4300 7134h
5138h 7138h CTRLMMR_P1_CLAIM14 Partition 1 Claim Register 14 4300 5138h 4300 7138h
8000h A000h CTRLMMR_OBSCLK0_CTRL Observe Clock 0 Output Control Register 4300 8000h 4300 A000h
8010h A010h CTRLMMR_CLKOUT_CTRL CLKOUT Control Register 4300 8010h 4300 A010h
8030h A030h CTRLMMR_GTC_CLKSEL GTC Clock Select Register 4300 8030h 4300 A030h
803Ch A03Ch CTRLMMR_EFUSE_CLKSEL Main eFuse Controller Clock Select Register 4300 803Ch 4300 A03Ch
8040h A040h CTRLMMR_ICSSG0_CLKSEL ICSS_G0 Clock Select Register 4300 8040h 4300 A040h
8044h A044h CTRLMMR_ICSSG1_CLKSEL ICSS_G1 Clock Select Register 4300 8044h 4300 A044h
8060h A060h CTRLMMR_MAIN_PLL0_CLKSEL MAIN PLL0 Source Clock Select Register 4300 8060h 4300 A060h
8064h A064h CTRLMMR_MAIN_PLL1_CLKSEL MAIN PLL1 Source Clock Select Register 4300 8064h 4300 A064h
8068h A068h CTRLMMR_MAIN_PLL2_CLKSEL MAIN PLL2 Source Clock Select Register 4300 8068h 4300 A068h
8080h A080h CTRLMMR_MAIN_PLL8_CLKSEL MAIN PLL8 Source Clock Select Register 4300 8080h 4300 A080h
8090h A090h CTRLMMR_MAIN_PLL12_CLKSEL MAIN PLL12 Source Clock Select Register 4300 8090h 4300 A090h
8098h A098h CTRLMMR_MAIN_PLL14_CLKSEL MAIN PLL14 Source Clock Select Register 4300 8098h 4300 A098h
8120h A120h CTRLMMR_PCIE0_CLKSEL PCIE0 Clock Select Register 4300 8120h 4300 A120h
8140h A140h CTRLMMR_CPSW_CLKSEL CPSW Clock Select Register 4300 8140h 4300 A140h
8150h A150h CTRLMMR_CPTS_CLKSEL CPTS Clock Select Register 4300 8150h 4300 A150h
8160h A160h CTRLMMR_EMMC0_CLKSEL eMMC0 Clock Select Register 4300 8160h 4300 A160h
8168h A168h CTRLMMR_EMMC1_CLKSEL eMMC1 Clock Select Register 4300 8168h 4300 A168h
8180h A180h CTRLMMR_GPMC_CLKSEL GPMC Clock Select Register 4300 8180h 4300 A180h
8190h A190h CTRLMMR_USB0_CLKSEL USB0 Clock Select Register 4300 8190h 4300 A190h
81B0h A1B0h CTRLMMR_TIMER0_CLKSEL Timer0 Clock Select Register 4300 81B0h 4300 A1B0h
81B4h A1B4h CTRLMMR_TIMER1_CLKSEL Timer1 Clock Select Register 4300 81B4h 4300 A1B4h
81B8h A1B8h CTRLMMR_TIMER2_CLKSEL Timer2 Clock Select Register 4300 81B8h 4300 A1B8h
81BCh A1BCh CTRLMMR_TIMER3_CLKSEL Timer3 Clock Select Register 4300 81BCh 4300 A1BCh
81C0h A1C0h CTRLMMR_TIMER4_CLKSEL Timer4 Clock Select Register 4300 81C0h 4300 A1C0h
81C4h A1C4h CTRLMMR_TIMER5_CLKSEL Timer5 Clock Select Register 4300 81C4h 4300 A1C4h
81C8h A1C8h CTRLMMR_TIMER6_CLKSEL Timer6 Clock Select Register 4300 81C8h 4300 A1C8h
81CCh A1CCh CTRLMMR_TIMER7_CLKSEL Timer7 Clock Select Register 4300 81CCh 4300 A1CCh
81D0h A1D0h CTRLMMR_TIMER8_CLKSEL Timer8 Clock Select Register 4300 81D0h 4300 A1D0h
81D4h A1D4h CTRLMMR_TIMER9_CLKSEL Timer9 Clock Select Register 4300 81D4h 4300 A1D4h
81D8h A1D8h CTRLMMR_TIMER10_CLKSEL Timer10 Clock Select Register 4300 81D8h 4300 A1D8h
81DCh A1DCh CTRLMMR_TIMER11_CLKSEL Timer11 Clock Select Register 4300 81DCh 4300 A1DCh
8200h A200h CTRLMMR_SPI0_CLKSEL SPI0 Clock Select Register 4300 8200h 4300 A200h
8204h A204h CTRLMMR_SPI1_CLKSEL SPI1 Clock Select Register 4300 8204h 4300 A204h
8208h A208h CTRLMMR_SPI2_CLKSEL SPI2 Clock Select Register 4300 8208h 4300 A208h
820Ch A20Ch CTRLMMR_SPI3_CLKSEL SPI3 Clock Select Register 4300 820Ch 4300 A20Ch
8210h A210h CTRLMMR_SPI4_CLKSEL SPI4 Clock Select Register 4300 8210h 4300 A210h
8240h A240h CTRLMMR_USART0_CLK_CTRL USART0 Functional Clock Control 4300 8240h 4300 A240h
8244h A244h CTRLMMR_USART1_CLK_CTRL USART1 Functional Clock Control 4300 8244h 4300 A244h
8248h A248h CTRLMMR_USART2_CLK_CTRL USART2 Functional Clock Control 4300 8248h 4300 A248h
824Ch A24Ch CTRLMMR_USART3_CLK_CTRL USART3 Functional Clock Control 4300 824Ch 4300 A24Ch
8250h A250h CTRLMMR_USART4_CLK_CTRL USART4 Functional Clock Control 4300 8250h 4300 A250h
8254h A254h CTRLMMR_USART5_CLK_CTRL USART5 Functional Clock Control 4300 8254h 4300 A254h
8258h A258h CTRLMMR_USART6_CLK_CTRL USART6 Functional Clock Control 4300 8258h 4300 A258h
8280h A280h CTRLMMR_USART0_CLKSEL USART0 Functional Clock Control 4300 8280h 4300 A280h
8284h A284h CTRLMMR_USART1_CLKSEL USART1 Functional Clock Control 4300 8284h 4300 A284h
8288h A288h CTRLMMR_USART2_CLKSEL USART2 Functional Clock Control 4300 8288h 4300 A288h
828Ch A28Ch CTRLMMR_USART3_CLKSEL USART3 Functional Clock Control 4300 828Ch 4300 A28Ch
8290h A290h CTRLMMR_USART4_CLKSEL USART4 Functional Clock Control 4300 8290h 4300 A290h
8294h A294h CTRLMMR_USART5_CLKSEL USART5 Functional Clock Control 4300 8294h 4300 A294h
8298h A298h CTRLMMR_USART6_CLKSEL USART6 Functional Clock Control 4300 8298h 4300 A298h
8380h A380h CTRLMMR_WWD0_CLKSEL WWD0 Clock Select Register 4300 8380h 4300 A380h
8384h A384h CTRLMMR_WWD1_CLKSEL WWD1 Clock Select Register 4300 8384h 4300 A384h
83A0h A3A0h CTRLMMR_WWD8_CLKSEL WWD8 Clock Select Register 4300 83A0h 4300 A3A0h
83A4h A3A4h CTRLMMR_WWD9_CLKSEL WWD9 Clock Select Register 4300 83A4h 4300 A3A4h
83A8h A3A8h CTRLMMR_WWD10_CLKSEL WWD10 Clock Select Register 4300 83A8h 4300 A3A8h
83ACh A3ACh CTRLMMR_WWD11_CLKSEL WWD11 Clock Select Register 4300 83ACh 4300 A3ACh
8400h A400h CTRLMMR_SERDES0_CLKSEL SERDES 0 Clock Select Register 4300 8400h 4300 A400h
8480h A480h CTRLMMR_MCAN0_CLKSEL MCAN0 Clock Select Register 4300 8480h 4300 A480h
8484h A484h CTRLMMR_MCAN1_CLKSEL MCAN1 Clock Select Register 4300 8484h 4300 A484h
8500h A500h CTRLMMR_OSPI0_CLKSEL OSPI Clock Select Register 4300 8500h 4300 A500h
8510h A510h CTRLMMR_ADC0_CLKSEL ADC0 Clock Select Register 4300 8510h 4300 A510h
9008h B008h CTRLMMR_LOCK2_KICK0 Partition 2 Lock Key 0 Register 4300 9008h 4300 B008h
900Ch B00Ch CTRLMMR_LOCK2_KICK1 Partition 2 Lock Key 1 Register 4300 900Ch 4300 B00Ch
9100h B100h CTRLMMR_P2_CLAIM0 Partition 2 Claim Register 0 4300 9100h 4300 B100h
9104h B104h CTRLMMR_P2_CLAIM1 Partition 2 Claim Register 1 4300 9104h 4300 B104h
9108h B108h CTRLMMR_P2_CLAIM2 Partition 2 Claim Register 2 4300 9108h 4300 B108h
910Ch B10Ch CTRLMMR_P2_CLAIM3 Partition 2 Claim Register 3 4300 910Ch 4300 B10Ch
9110h B110h CTRLMMR_P2_CLAIM4 Partition 2 Claim Register 4 4300 9110h 4300 B110h
9114h B114h CTRLMMR_P2_CLAIM5 Partition 2 Claim Register 5 4300 9114h 4300 B114h
9118h B118h CTRLMMR_P2_CLAIM6 Partition 2 Claim Register 6 4300 9118h 4300 B118h
911Ch B11Ch CTRLMMR_P2_CLAIM7 Partition 2 Claim Register 7 4300 911Ch 4300 B11Ch
9120h B120h CTRLMMR_P2_CLAIM8 Partition 2 Claim Register 8 4300 9120h 4300 B120h
9124h B124h CTRLMMR_P2_CLAIM9 Partition 2 Claim Register 9 4300 9124h 4300 B124h
9128h B128h CTRLMMR_P2_CLAIM10 Partition 2 Claim Register 10 4300 9128h 4300 B128h
C320h E320h CTRLMMR_FUSE_CRC_STAT MAIN eFUse CRC Status Register 4300 C320h 4300 E320h
C400h E400h CTRLMMR_PBIST_EN PBIST Enable Register 4300 C400h 4300 E400h
D008h F008h CTRLMMR_LOCK3_KICK0 Partition 3 Lock Key 0 Register 4300 D008h 4300 F008h
D00Ch F00Ch CTRLMMR_LOCK3_KICK1 Partition 3 Lock Key 1 Register 4300 D00Ch 4300 F00Ch
D118h F118h CTRLMMR_P3_CLAIM6 Partition 3 Claim Register 6 4300 D118h 4300 F118h
14000h 16000h CTRLMMR_CHNG_DDR4_FSP_REQ Change LPDDR4 FSP Request Register 4301 4000h 4301 6000h
14004h 16004h CTRLMMR_CHNG_DDR4_FSP_ACK Change LPDDR4 FSP Acknowledge Register 4301 4004h 4301 6004h
14080h 16080h CTRLMMR_DDR4_FSP_CLKCHNG_REQ LPDDR4 FSP Clock Change Request Register 4301 4080h 4301 6080h
140C0h 160C0h CTRLMMR_DDR4_FSP_CLKCHNG_ACK LPDDR4 FSP Clock Change Acknowledge Register 4301 40C0h 4301 60C0h
15008h 17008h CTRLMMR_LOCK5_KICK0 Partition 5 Lock Key 0 Register 4301 5008h 4301 7008h
1500Ch 1700Ch CTRLMMR_LOCK5_KICK1 Partition 5 Lock Key 1 Register 4301 500Ch 4301 700Ch
15100h 17100h CTRLMMR_P5_CLAIM0 Partition 5 Claim Register 0 4301 5100h 4301 7100h
15104h 17104h CTRLMMR_P5_CLAIM1 Partition 5 Claim Register 1 4301 5104h 4301 7104h
18170h 1A170h CTRLMMR_RST_CTRL Reset Control Register 4301 8170h 4301 A170h
18174h 1A174h CTRLMMR_RST_STAT Reset Status Register 4301 8174h 4301 A174h
18178h 1A178h CTRLMMR_RST_SRC Reset Source Register 4301 8178h 4301 A178h
1817Ch 1A17Ch CTRLMMR_RST_MAGIC_WORD Magic Word 4301 817Ch 4301 A17Ch
19008h 1B008h CTRLMMR_LOCK6_KICK0 Partition 6 Lock Key 0 Register 4301 9008h 4301 B008h
1900Ch 1B00Ch CTRLMMR_LOCK6_KICK1 Partition 6 Lock Key 1 Register 4301 900Ch 4301 B00Ch
19108h 1B108h CTRLMMR_P6_CLAIM2 Partition 6 Claim Register 2 4301 9108h 4301 B108h

1.1.5.1 CTRLMMR_PID Register (Proxy0 Offset = 0h; Proxy1 Offset = 2000h) [reset = 61800000h]

CTRLMMR_PID is shown in Figure 5-17 and described in Table 5-50.

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Peripheral release details.

Table 5-49 CTRLMMR_PID Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0000h 4300 2000h
Figure 5-17 CTRLMMR_PID Register
31 30 29 28 27 26 25 24
SCHEME BU FUNC
R-1h R-2h R-180h
23 22 21 20 19 18 17 16
FUNC
R-180h
15 14 13 12 11 10 9 8
R_RTL X_MAJOR
R-0h R-0h
7 6 5 4 3 2 1 0
CUSTOM Y_MINOR
R-0h R-0h
LEGEND: R = Read Only; -n = value after reset
Table 5-50 CTRLMMR_PID Register Field Descriptions
Bit Field Type Reset Description
31-30 SCHEME R 1h

CTRLMMR_PID follows new scheme

29-28 BU R 2h

Business unit - Processors

27-16 FUNC R 180h

Module functional identifier - CTRL MMR

15-11 R_RTL R 0h

RTL revision number

10-8 X_MAJOR R 0h

Major revision number

7-6 CUSTOM R 0h

Custom revision number

5-0 Y_MINOR R 0h

Minor revision number

1.1.5.2 CTRLMMR_MMR_CFG1 Register (Proxy0 Offset = 8h; Proxy1 Offset = 2008h) [reset = 800000BFh]

CTRLMMR_MMR_CFG1 is shown in Figure 5-18 and described in Table 5-52.

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Indicates the MMR configuration.

Table 5-51 CTRLMMR_MMR_CFG1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0008h 4300 2008h
Figure 5-18 CTRLMMR_MMR_CFG1 Register
31 30 29 28 27 26 25 24
PROXY_EN RESERVED
R-1h R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
PARTITIONS
R-BFh
LEGEND: R = Read Only; -n = value after reset
Table 5-52 CTRLMMR_MMR_CFG1 Register Field Descriptions
Bit Field Type Reset Description
31 PROXY_EN R 1h

Proxy addressing enabled

30-8 RESERVED R 0h

Reserved

7-0 PARTITIONS R BFh

Indicates present partitions

1.1.5.3 CTRLMMR_JTAGID Register (Proxy0 Offset = 14h; Proxy1 Offset = 2014h) [reset = BB3802Fh]

CTRLMMR_JTAGID is shown in Figure 5-19 and described in Table 5-54.

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The CTRLMMR_JTAGID register must be readable by the configuration bus so that this can be accessed via the JTAG and CPU. In Boundary Scan mode, this ID should also be readable with only TCLK present. This means without a valid CPU clock running and also implies that Fusefarm scan is not necessary. The partno and variant field inputs should be set in the top metal mask so that this may be changed if a future PG is necessary. All other fields may be hard coded.

Table 5-53 CTRLMMR_JTAGID Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0014h 4300 2014h
Figure 5-19 CTRLMMR_JTAGID Register
31 30 29 28 27 26 25 24
VARIANT PARTNO
R-0h R-BB38h
23 22 21 20 19 18 17 16
PARTNO
R-BB38h
15 14 13 12 11 10 9 8
PARTNO MFG
R-BB38h R-17h
7 6 5 4 3 2 1 0
MFG LSB
R-17h R-1h
LEGEND: R = Read Only; -n = value after reset
Table 5-54 CTRLMMR_JTAGID Register Field Descriptions
Bit Field Type Reset Description
31-28 VARIANT R 0h

Used to indicate new PGs

27-12 PARTNO R BB38h

Part number for boundary scan

11-1 MFG R 17h

Indicates manufacturer

0 LSB R 1h

Always 1

1.1.5.4 CTRLMMR_JTAG_USER_ID Register (Proxy0 Offset = 18h; Proxy1 Offset = 2018h) [reset = BB3802Fh]

CTRLMMR_JTAG_USER_ID is shown in Figure 5-20 and described in Table 5-56.

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Table 5-55 CTRLMMR_JTAG_USER_ID Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0018h 4300 2018h
Figure 5-20 CTRLMMR_JTAG_USER_ID Register
31 30 29 28 27 26 25 24
DEVICE_ID
R
23 22 21 20 19 18 17 16
DEVICE_ID
R
15 14 13 12 11 10 9 8
DEVICE_ID SECURITY SAFETY SPEED
R R R R
7 6 5 4 3 2 1 0
SPEED TEMP PKG
R R R
LEGEND: R = Read Only; -n = value after reset
Table 5-56 CTRLMMR_JTAG_USER_ID Register Field Descriptions
Bit Field Type Reset Description
31-13 DEVICE_ID R

Base Part Number

See device comparison table in device specific datasheet for details.

12 SECURITY R

0h = Non-Secure

1h = Secure

11 SAFETY R

0h = Non-Functional Safety

1h = Functional Safety

10-6 SPEED R

Device Speed Grade

1 (1h) = A Speed Designator

2 (2h) = B Speed Designator

...

25 (19h) = Y Speed Designator

26 (1Ah) = Z Speed Designator

5-3 TEMP R

Temperature Grade

3h = 0°C to 90°C

4h = -40°C to 105°C

5h = -40°C to 125°C

Others = Reserved

2-0 PKG R

Device Package Type

4h = ALV

5h = ALX

1.1.5.5 CTRLMMR_MAIN_DEVSTAT Register (Proxy0 Offset = 30h; Proxy1 Offset = 2030h) [reset = X]

CTRLMMR_MAIN_DEVSTAT is shown in Figure 5-21 and described in Table 5-58.

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Indicates SoC bootstrap selection. The default value of this register is determined by the SoC bootstrap pins.

Table 5-57 CTRLMMR_MAIN_DEVSTAT Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0030h 4300 2030h
Figure 5-21 CTRLMMR_MAIN_DEVSTAT Register
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 BOOTMODE
R-0h R/W-X
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-58 CTRLMMR_MAIN_DEVSTAT Register Field Descriptions
Bit Field Type Reset Description
31-16 RESERVED R 0h

Reserved

15-0 BOOTMODE R/W X

Specifies the device Primary and Backup boot media.

1.1.5.6 CTRLMMR_MAIN_BOOTCFG Register (Proxy0 Offset = 34h; Proxy1 Offset = 2034h) [reset = X]

CTRLMMR_MAIN_BOOTCFG is shown in Figure 5-22 and described in Table 5-60.

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Indicates SoC bootstrap selection latched at power-on reset. The default value of this register is determined by the SoC bootstrap pins.

Table 5-59 CTRLMMR_MAIN_BOOTCFG Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0034h 4300 2034h
Figure 5-22 CTRLMMR_MAIN_BOOTCFG Register
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 BOOTMODE
R-0h R-X
LEGEND: R = Read Only; -n = value after reset
Table 5-60 CTRLMMR_MAIN_BOOTCFG Register Field Descriptions
Bit Field Type Reset Description
31-16 RESERVED R 0h

Reserved

15-0 BOOTMODE R X

Specifies the device Primary and Backup boot media as latched at PORz

1.1.5.7 CTRLMMR_DEVICE_FEATURE0 Register (Proxy0 Offset = 60h; Proxy1 Offset = 2060h) [reset = X]

CTRLMMR_DEVICE_FEATURE0 is shown in Figure 5-23 and described in Table 5-62.

Return to Summary Table.

Indicates enabled MAIN domain processing elements on the device.

Table 5-61 CTRLMMR_DEVICE_FEATURE0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0060h 4300 2060h
Figure 5-23 CTRLMMR_DEVICE_FEATURE0 Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED R5FSS1_CORE1 R5FSS1_CORE0 R5FSS0_CORE1 R5FSS0_CORE0
R-0h R-X R-X R-X R-X
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED MPU_CLUSTER0_CORE1 MPU_CLUSTER0_CORE0
R-0h R-X R-X
LEGEND: R = Read Only; -n = value after reset
Table 5-62 CTRLMMR_DEVICE_FEATURE0 Register Field Descriptions
Bit Field Type Reset Description
31-20 RESERVED R 0h

Reserved

19 R5FSS1_CORE1 R X

Dual/Single CPU Support R5FSS1
1 = Both Dual and Single CPU operation is
supported
0 = Only Single CPU operation is supported

18 R5FSS1_CORE0 R X

unused

17 R5FSS0_CORE1 R X

Dual/Single CPU Support R5FSS0
1 = Both Dual and Single CPU operation is
supported
0 = Only Single CPU operation is supported

16 R5FSS0_CORE0 R X

unused

15-2 RESERVED R 0h

Reserved

1 MPU_CLUSTER0_CORE1 R X

MPU Cluster0 Core 1 is enabled when set

0 MPU_CLUSTER0_CORE0 R X

MPU Cluster0 Core 0 is enabled when set

1.1.5.8 CTRLMMR_DEVICE_FEATURE2 Register (Proxy0 Offset = 68h; Proxy1 Offset = 2068h) [reset = X]

CTRLMMR_DEVICE_FEATURE2 is shown in Figure 5-24 and described in Table 5-64.

Return to Summary Table.

Indicates enabled MCU domain interface elements on the device.

Table 5-63 CTRLMMR_DEVICE_FEATURE2 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0068h 4300 2068h
Figure 5-24 CTRLMMR_DEVICE_FEATURE2 Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED CRYPTO_PKA_EN CRYPTO_ENCR_EN CRYPTO_SHA_EN
R-0h R-X R-X R-X
7 6 5 4 3 2 1 0
AES_AUTH_EN RESERVED MCAN_FD_MODE
R-X R-0h R-X
LEGEND: R = Read Only; -n = value after reset
Table 5-64 CTRLMMR_DEVICE_FEATURE2 Register Field Descriptions
Bit Field Type Reset Description
31-11 RESERVED R 0h

Reserved

10 CRYPTO_PKA_EN R X

SA2_UL Crypto Module PKA enabled

9 CRYPTO_ENCR_EN R X

SA2_UL Crypto Module AES/3DES/DBRG enabled

8 CRYPTO_SHA_EN R X

SA2_UL Crypto Module SHA/MD5 enabled

7 AES_AUTH_EN R X

AES authentication is enabled in FlashSS and DMSC when set

6-1 RESERVED R 0h

Reserved

0 MCAN_FD_MODE R X

FD mode is supported on MCAN[1:0] when set

1.1.5.9 CTRLMMR_DEVICE_FEATURE6 Register (Proxy0 Offset = 78h; Proxy1 Offset = 2078h) [reset = X]

CTRLMMR_DEVICE_FEATURE6 is shown in Figure 5-25 and described in Table 5-66.

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Indicates enabled MAIN domain interface elements on the device.

Table 5-65 CTRLMMR_DEVICE_FEATURE6 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0078h 4300 2078h
Figure 5-25 CTRLMMR_DEVICE_FEATURE6 Register
31 30 29 28 27 26 25 24
RESERVED MAIN_RESERVED_2 MAIN_RESERVED_1 MAIN_RESERVED_0
R-0h R-X R-X R-X
23 22 21 20 19 18 17 16
RESERVED SPARE1 SPARE0
R-0h R-X R-X
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED SA2_UL RESERVED
R-0h R-X R-0h
LEGEND: R = Read Only; -n = value after reset
Table 5-66 CTRLMMR_DEVICE_FEATURE6 Register Field Descriptions
Bit Field Type Reset Description
31-27 RESERVED R 0h

Reserved

26 MAIN_RESERVED_2 R X

MAIN domain Reserved 2 LPSC is enabled when set

25 MAIN_RESERVED_1 R X

MAIN domain Reserved 1 LPSC is enabled when set

24 MAIN_RESERVED_0 R X

MAIN domain Reserved 0 LPSC is enabled when set

23-18 RESERVED R 0h

Reserved

17 SPARE1 R X

Spare1 LPSC is enabled when set

16 SPARE0 R X

Spare0 LPSC is enabled when set

15-6 RESERVED R 0h

Reserved

5 SA2_UL R X

MAIN domain security accelerator is enabled when set

4-0 RESERVED R 0h

Reserved

1.1.5.10 CTRLMMR_MAC_ID0 Register (Proxy0 Offset = 200h; Proxy1 Offset = 2200h) [reset = X]

CTRLMMR_MAC_ID0 is shown in Figure 5-26 and described in Table 5-68.

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Ethernet MAC address lower 32-bits.

Table 5-67 CTRLMMR_MAC_ID0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0200h 4300 2200h
Figure 5-26 CTRLMMR_MAC_ID0 Register
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
MACID_LO
R/W-X
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-68 CTRLMMR_MAC_ID0 Register Field Descriptions
Bit Field Type Reset Description
31-0 MACID_LO R/W X

32 lsbs of MAC address

1.1.5.11 CTRLMMR_MAC_ID1 Register (Proxy0 Offset = 204h; Proxy1 Offset = 2204h) [reset = X]

CTRLMMR_MAC_ID1 is shown in Figure 5-27 and described in Table 5-70.

Return to Summary Table.

Ethernet MAC address upper 16-bits.

Table 5-69 CTRLMMR_MAC_ID1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0204h 4300 2204h
Figure 5-27 CTRLMMR_MAC_ID1 Register
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 MACID_HI
R-0h R/W-X
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-70 CTRLMMR_MAC_ID1 Register Field Descriptions
Bit Field Type Reset Description
31-16 RESERVED R 0h

Reserved

15-0 MACID_HI R/W X

16 msbs of MAC address

1.1.5.12 CTRLMMR_PCI_DEVICE_ID0 Register (Proxy0 Offset = 210h; Proxy1 Offset = 2210h) [reset = B010104Ch]

CTRLMMR_PCI_DEVICE_ID0 is shown in Figure 5-28 and described in Table 5-72.

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PCIe device ID and vendor ID register 0.

Table 5-71 CTRLMMR_PCI_DEVICE_ID0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0210h 4300 2210h
Figure 5-28 CTRLMMR_PCI_DEVICE_ID0 Register
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
ID0
R/W-B010104Ch
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-72 CTRLMMR_PCI_DEVICE_ID0 Register Field Descriptions
Bit Field Type Reset Description
31-0 ID0 R/W B010104Ch

ROM can optionally update this register with a 32 bit value from Customer OTP

1.1.5.13 CTRLMMR_PCI_DEVICE_ID1 Register (Proxy0 Offset = 214h; Proxy1 Offset = 2214h) [reset = B010104Ch]

CTRLMMR_PCI_DEVICE_ID1 is shown in Figure 5-29 and described in Table 5-74.

Return to Summary Table.

PCIe device ID and vendor ID register 1.

Table 5-73 CTRLMMR_PCI_DEVICE_ID1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0214h 4300 2214h
Figure 5-29 CTRLMMR_PCI_DEVICE_ID1 Register
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
ID1
R/W-B010104Ch
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-74 CTRLMMR_PCI_DEVICE_ID1 Register Field Descriptions
Bit Field Type Reset Description
31-0 ID1 R/W B010104Ch

ROM can optionally update this register with a 32 bit value from Customer OTP

1.1.5.14 CTRLMMR_USB_DEVICE_ID0 Register (Proxy0 Offset = 220h; Proxy1 Offset = 2220h) [reset = 61650451h]

CTRLMMR_USB_DEVICE_ID0 is shown in Figure 5-30 and described in Table 5-76.

Return to Summary Table.

USB device and vendor ID register 0.

Table 5-75 CTRLMMR_USB_DEVICE_ID0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0220h 4300 2220h
Figure 5-30 CTRLMMR_USB_DEVICE_ID0 Register
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
ID0
R/W-61650451h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-76 CTRLMMR_USB_DEVICE_ID0 Register Field Descriptions
Bit Field Type Reset Description
31-0 ID0 R/W 61650451h

ROM can optionally update this register with a 32 bit value from Customer OTP

1.1.5.15 CTRLMMR_USB_DEVICE_ID1 Register (Proxy0 Offset = 224h; Proxy1 Offset = 2224h) [reset = 61650451h]

CTRLMMR_USB_DEVICE_ID1 is shown in Figure 5-31 and described in Table 5-78.

Return to Summary Table.

USB device and vendor ID register 1.

Table 5-77 CTRLMMR_USB_DEVICE_ID1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0224h 4300 2224h
Figure 5-31 CTRLMMR_USB_DEVICE_ID1 Register
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
ID1
R/W-61650451h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-78 CTRLMMR_USB_DEVICE_ID1 Register Field Descriptions
Bit Field Type Reset Description
31-0 ID1 R/W 61650451h

ROM can optionally update this register with a 32 bit value from Customer OTP

1.1.5.16 CTRLMMR_GP_SW0 Register (Proxy0 Offset = 230h; Proxy1 Offset = 2230h) [reset = X]

CTRLMMR_GP_SW0 is shown in Figure 5-32 and described in Table 5-80.

Return to Summary Table.

Allocated for customer use - Ex. Storage of CTRLMMR_PID/VID, Model #, Etc.

Table 5-79 CTRLMMR_GP_SW0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0230h 4300 2230h
Figure 5-32 CTRLMMR_GP_SW0 Register
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
VAL
R-X
LEGEND: R = Read Only; -n = value after reset
Table 5-80 CTRLMMR_GP_SW0 Register Field Descriptions
Bit Field Type Reset Description
31-0 VAL R X

general purpose value

1.1.5.17 CTRLMMR_GP_SW1 Register (Proxy0 Offset = 234h; Proxy1 Offset = 2234h) [reset = X]

CTRLMMR_GP_SW1 is shown in Figure 5-33 and described in Table 5-82.

Return to Summary Table.

Allocated for customer use - Ex. Storage of CTRLMMR_PID/VID, Model #, Etc.

Table 5-81 CTRLMMR_GP_SW1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0234h 4300 2234h
Figure 5-33 CTRLMMR_GP_SW1 Register
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
VAL
R-X
LEGEND: R = Read Only; -n = value after reset
Table 5-82 CTRLMMR_GP_SW1 Register Field Descriptions
Bit Field Type Reset Description
31-0 VAL R X

general purpose value

1.1.5.18 CTRLMMR_GP_SW2 Register (Proxy0 Offset = 238h; Proxy1 Offset = 2238h) [reset = X]

CTRLMMR_GP_SW2 is shown in Figure 5-34 and described in Table 5-84.

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Allocated for customer use - Ex. Storage of CTRLMMR_PID/VID, Model #, Etc.

Table 5-83 CTRLMMR_GP_SW2 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0238h 4300 2238h
Figure 5-34 CTRLMMR_GP_SW2 Register
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
VAL
R-X
LEGEND: R = Read Only; -n = value after reset
Table 5-84 CTRLMMR_GP_SW2 Register Field Descriptions
Bit Field Type Reset Description
31-0 VAL R X

general purpose value

1.1.5.19 CTRLMMR_GP_SW3 Register (Proxy0 Offset = 23Ch; Proxy1 Offset = 223Ch) [reset = X]

CTRLMMR_GP_SW3 is shown in Figure 5-35 and described in Table 5-86.

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Allocated for customer use - Ex. Storage of CTRLMMR_PID/VID, Model #, Etc.

Table 5-85 CTRLMMR_GP_SW3 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 023Ch 4300 223Ch
Figure 5-35 CTRLMMR_GP_SW3 Register
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 VAL
R-0h R-X
LEGEND: R = Read Only; -n = value after reset
Table 5-86 CTRLMMR_GP_SW3 Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3-0 VAL R X

general purpose value

1.1.5.20 CTRLMMR_CBA_ERR_STAT Register (Proxy0 Offset = 270h; Proxy1 Offset = 2270h) [reset = X]

CTRLMMR_CBA_ERR_STAT is shown in Figure 5-36 and described in Table 5-88.

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Indicates addressing errors on the bus segments.

Table 5-87 CTRLMMR_CBA_ERR_STAT Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 0270h 4300 2270h
Figure 5-36 CTRLMMR_CBA_ERR_STAT Register
31 30 29 28 27 26 25 24
DBG_CBA_ERR RESERVED
R-X R-0h
23 22 21 20 19 18 17 16
RESERVED MCU_CBA_ERR
R-0h R-X
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED MAIN_INFRA_CBA_ERR MAIN_CBA_ERR
R-0h R-X R-X
LEGEND: R = Read Only; -n = value after reset
Table 5-88 CTRLMMR_CBA_ERR_STAT Register Field Descriptions
Bit Field Type Reset Description
31 DBG_CBA_ERR R X
30-17 RESERVED R 0h

Reserved

16 MCU_CBA_ERR R X
15-2 RESERVED R 0h

Reserved

1 MAIN_INFRA_CBA_ERR R X
0 MAIN_CBA_ERR R X

1.1.5.21 CTRLMMR_LOCK0_KICK0 Register (Proxy0 Offset = 1008h; Proxy1 Offset = 3008h) [reset = 0h]

CTRLMMR_LOCK0_KICK0 is shown in Figure 5-37 and described in Table 5-90.

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Lower 32-bits of Partition0 write lock key. This register must be written with the designated key value followed by a write to CTRLMMR_LOCK0_KICK1 with its key value before write-protected Partition 0 registers can be written.

Table 5-89 CTRLMMR_LOCK0_KICK0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 1008h 4300 3008h
Figure 5-37 CTRLMMR_LOCK0_KICK0 Register
31 30 29 28 27 26 25 24
KEY
R/W-0h
23 22 21 20 19 18 17 16
KEY
R/W-0h
15 14 13 12 11 10 9 8
KEY
R/W-0h
7 6 5 4 3 2 1 0
KEY UNLOCKED
R/W-0h R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-90 CTRLMMR_LOCK0_KICK0 Register Field Descriptions
Bit Field Type Reset Description
31-1 KEY R/W 0h

Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition0 registers

0 UNLOCKED R 0h

Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing.

1.1.5.22 CTRLMMR_LOCK0_KICK1 Register (Proxy0 Offset = 100Ch; Proxy1 Offset = 300Ch) [reset = 0h]

CTRLMMR_LOCK0_KICK1 is shown in Figure 5-38 and described in Table 5-92.

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Upper 32-bits of Partition 0 write lock key. This register must be written with the designated key value after a write to CTRLMMR_LOCK0_KICK0 with its key value before write-protected Partition 0 registers can be written.

Table 5-91 CTRLMMR_LOCK0_KICK1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 100Ch 4300 300Ch
Figure 5-38 CTRLMMR_LOCK0_KICK1 Register
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
KEY
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-92 CTRLMMR_LOCK0_KICK1 Register Field Descriptions
Bit Field Type Reset Description
31-0 KEY R/W 0h

Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition0 registers

1.1.5.23 CTRLMMR_INTR_RAW_STAT Register (Proxy0 Offset = 1010h; Proxy1 Offset = 3010h) [reset = 0h]

CTRLMMR_INTR_RAW_STAT is shown in Figure 5-39 and described in Table 5-94.

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Shows the interrupt status (before enabling) and allows setting of the interrupt status (for test).

Table 5-93 CTRLMMR_INTR_RAW_STAT Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 1010h 4300 3010h
Figure 5-39 CTRLMMR_INTR_RAW_STAT Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED PROXY_ERR LOCK_ERR ADDR_ERR PROT_ERR
R-0h W1TS-0h W1TS-0h W1TS-0h W1TS-0h
LEGEND: R = Read Only; W1TS = Write 1 to Set Bit; -n = value after reset
Table 5-94 CTRLMMR_INTR_RAW_STAT Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3 PROXY_ERR W1TS 0h

Proxy violation occurred (attempt to write a Proxy1 claimed register through its Proxy0 address)
Write 1 to set the status bit (for test)
Writing 0 has no effect.

2 LOCK_ERR W1TS 0h

Lock violation occurred (attempt to write a write-locked register with partition locked)
Write 1 to set the status bit (for test)
Writing 0 has no effect.

1 ADDR_ERR W1TS 0h

Address violation occurred (attempt to read or write an invalid register address)
Write 1 to set the status bit (for test)
Writing 0 has no effect.

0 PROT_ERR W1TS 0h

Reserved (Protection) Error Condition. Not applicable or checked on this device, but still can be stimulated by a software write to this bit.
Write 1 to set the status bit (for test)
Writing 0 has no effect.

1.1.5.24 CTRLMMR_INTR_STAT_CLR Register (Proxy0 Offset = 1014h; Proxy1 Offset = 3014h) [reset = 0h]

CTRLMMR_INTR_STAT_CLR is shown in Figure 5-40 and described in Table 5-96.

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Shows the enabled interrupt status and allows the interrupt to be cleared.

Table 5-95 CTRLMMR_INTR_STAT_CLR Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 1014h 4300 3014h
Figure 5-40 CTRLMMR_INTR_STAT_CLR Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED EN_PROXY_ERR EN_LOCK_ERR EN_ADDR_ERR EN_PROT_ERR
R-0h W1TC-0h W1TC-0h W1TC-0h W1TC-0h
LEGEND: R = Read Only; W1TC = Write 1 to Clear Bit; -n = value after reset
Table 5-96 CTRLMMR_INTR_STAT_CLR Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3 EN_PROXY_ERR W1TC 0h

Enabled proxy interrupt event status
Write 1 to clear the interrupt event
Writing 0 has no effect.

2 EN_LOCK_ERR W1TC 0h

Enabled lock interrupt event status
Write 1 to clear the interrupt event
Writing 0 has no effect.

1 EN_ADDR_ERR W1TC 0h

Enabled address interrupt event status
Write 1 to clear the interrupt event
Writing 0 has no effect.

0 EN_PROT_ERR W1TC 0h

Enabled Reserved (protection) interrupt event status
Write 1 to clear the interrupt event
Writing 0 has no effect.

1.1.5.25 CTRLMMR_INTR_EN_SET Register (Proxy0 Offset = 1018h; Proxy1 Offset = 3018h) [reset = 0h]

CTRLMMR_INTR_EN_SET is shown in Figure 5-41 and described in Table 5-98.

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Allows interrupt enables to be set.

Table 5-97 CTRLMMR_INTR_EN_SET Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 1018h 4300 3018h
Figure 5-41 CTRLMMR_INTR_EN_SET Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED PROXY_ERR_EN_SET LOCK_ERR_EN_SET ADDR_ERR_EN_SET PROT_ERR_EN_SET
R-0h W1TS-0h W1TS-0h W1TS-0h W1TS-0h
LEGEND: R = Read Only; W1TS = Write 1 to Set Bit; -n = value after reset
Table 5-98 CTRLMMR_INTR_EN_SET Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3 PROXY_ERR_EN_SET W1TS 0h

Proxy interrupt enable
Write 1 to enable proxy interrupt events
Writing 0 has no effect.

2 LOCK_ERR_EN_SET W1TS 0h

Lock interrupt enable
Write 1 to enable lock interrupt events
Writing 0 has no effect.

1 ADDR_ERR_EN_SET W1TS 0h

Address interrupt enable
Write 1 to enable address interrupt events
Writing 0 has no effect.

0 PROT_ERR_EN_SET W1TS 0h

Reserved (Protection) interrupt enable
Write 1 to enable protection interrupt events
Writing 0 has no effect.

1.1.5.26 CTRLMMR_INTR_EN_CLR Register (Proxy0 Offset = 101Ch; Proxy1 Offset = 301Ch) [reset = 0h]

CTRLMMR_INTR_EN_CLR is shown in Figure 5-42 and described in Table 5-100.

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Allows interrupt enables to be cleared.

Table 5-99 CTRLMMR_INTR_EN_CLR Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 101Ch 4300 301Ch
Figure 5-42 CTRLMMR_INTR_EN_CLR Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED PROXY_ERR_EN_CLR LOCK_ERR_EN_CLR ADDR_ERR_EN_CLR PROT_ERR_EN_CLR
R-0h W1TC-0h W1TC-0h W1TC-0h W1TC-0h
LEGEND: R = Read Only; W1TC = Write 1 to Clear Bit; -n = value after reset
Table 5-100 CTRLMMR_INTR_EN_CLR Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3 PROXY_ERR_EN_CLR W1TC 0h

Proxy interrupt disable
Write 1 to disable proxy interrupt events
Writing 0 has no effect.

2 LOCK_ERR_EN_CLR W1TC 0h

Lock interrupt disable
Write 1 to disable lock interrupt events
Writing 0 has no effect.

1 ADDR_ERR_EN_CLR W1TC 0h

Address interrupt disable
Write 1 to disable address interrupt events
Writing 0 has no effect.

0 PROT_ERR_EN_CLR W1TC 0h

Reserved (Protection) interrupt disable
Write 1 to disable protection interrupt events
Writing 0 has no effect.

1.1.5.27 CTRLMMR_EOI Register (Proxy0 Offset = 1020h; Proxy1 Offset = 3020h) [reset = 0h]

CTRLMMR_EOI is shown in Figure 5-43 and described in Table 5-102.

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CTRLMMR_EOI Vector value This register should be written with interrupt distribution value required by the device architecture to indicate service completion of the MMR interrupt.

Table 5-101 CTRLMMR_EOI Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 1020h 4300 3020h
Figure 5-43 CTRLMMR_EOI Register
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 VECTOR
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-102 CTRLMMR_EOI Register Field Descriptions
Bit Field Type Reset Description
31-8 RESERVED R 0h

Reserved

7-0 VECTOR R/W 0h

CTRLMMR_EOI vector value

1.1.5.28 CTRLMMR_FAULT_ADDR Register (Proxy0 Offset = 1024h; Proxy1 Offset = 3024h) [reset = 0h]

CTRLMMR_FAULT_ADDR is shown in Figure 5-44 and described in Table 5-104.

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Indicates the address of the first transfer that caused a fault to occur.

Table 5-103 CTRLMMR_FAULT_ADDR Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 1024h 4300 3024h
Figure 5-44 CTRLMMR_FAULT_ADDR Register
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
ADDRESS
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 5-104 CTRLMMR_FAULT_ADDR Register Field Descriptions
Bit Field Type Reset Description
31-0 ADDRESS R 0h

Address of the faulted access

1.1.5.29 CTRLMMR_FAULT_TYPE Register (Proxy0 Offset = 1028h; Proxy1 Offset = 3028h) [reset = 0h]

CTRLMMR_FAULT_TYPE is shown in Figure 5-45 and described in Table 5-106.

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Indicates the access type of the first transfer that caused a fault to occur.

Table 5-105 CTRLMMR_FAULT_TYPE Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 1028h 4300 3028h
Figure 5-45 CTRLMMR_FAULT_TYPE Register
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 TYPE
R-0h R-0h
LEGEND: R = Read Only; -n = value after reset
Table 5-106 CTRLMMR_FAULT_TYPE Register Field Descriptions
Bit Field Type Reset Description
31-6 RESERVED R 0h

Reserved

5-0 TYPE R 0h

Type of access which faulted

0h - No fault

1h - User execute access

2h - User write access

4h - User read access

8h - Supervisor execute access

10h - Supervisor write access

20h - Supervisor read access

1.1.5.30 CTRLMMR_FAULT_ATTR Register (Proxy0 Offset = 102Ch; Proxy1 Offset = 302Ch) [reset = 0h]

CTRLMMR_FAULT_ATTR is shown in Figure 5-46 and described in Table 5-108.

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Indicates the attributes of the first transfer that caused a fault to occur.

Table 5-107 CTRLMMR_FAULT_ATTR Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 102Ch 4300 302Ch
Figure 5-46 CTRLMMR_FAULT_ATTR Register
31 30 29 28 27 26 25 24
XID
R-0h
23 22 21 20 19 18 17 16
XID ROUTEID
R-0h R-0h
15 14 13 12 11 10 9 8
ROUTEID
R-0h
7 6 5 4 3 2 1 0
PRIVID
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 5-108 CTRLMMR_FAULT_ATTR Register Field Descriptions
Bit Field Type Reset Description
31-20 XID R 0h

Transaction ID

19-8 ROUTEID R 0h

Route ID

7-0 PRIVID R 0h

Privilege ID

1.1.5.31 CTRLMMR_FAULT_CLR Register (Proxy0 Offset = 1030h; Proxy1 Offset = 3030h) [reset = 0h]

CTRLMMR_FAULT_CLR is shown in Figure 5-47 and described in Table 5-110.

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Allows software to clear the current fault Clearing the current fault allows the CTRLMMR_FAULT_ADDR, CTRLMMR_FAULT_TYPE, and CTRLMMR_FAULT_ATTR registers to latch the attributes of the next fault that occurs. This does not affect the fault interrupt event itself. The interrupt must be cleared using the appropriate INTR_STATUS_CLR register bits.

Table 5-109 CTRLMMR_FAULT_CLR Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 1030h 4300 3030h
Figure 5-47 CTRLMMR_FAULT_CLR Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLEAR
R-0h W1TC-0h
LEGEND: R = Read Only; W1TC = Write 1 to Clear Bit; -n = value after reset
Table 5-110 CTRLMMR_FAULT_CLR Register Field Descriptions
Bit Field Type Reset Description
31-1 RESERVED R 0h

Reserved

0 CLEAR W1TC 0h

Fault clear
Write 1 to clear the current fault
Writing 0 has no effect

1.1.5.32 CTRLMMR_P0_CLAIM0 Register (Proxy0 Offset = 1100h; Proxy1 Offset = 3100h) [reset = 0h]

CTRLMMR_P0_CLAIM0 is shown in Figure 5-48 and described in Table 5-112.

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Claim bits for Partition 0 Registers.

Table 5-111 CTRLMMR_P0_CLAIM0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 1100h 4300 3100h
Figure 5-48 CTRLMMR_P0_CLAIM0 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-112 CTRLMMR_P0_CLAIM0 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x0 + (0 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0x2000 + (0 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.33 CTRLMMR_P0_CLAIM4 Register (Proxy0 Offset = 1110h; Proxy1 Offset = 3110h) [reset = 0h]

CTRLMMR_P0_CLAIM4 is shown in Figure 5-49 and described in Table 5-114.

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Claim bits for Partition 0 Registers.

Table 5-113 CTRLMMR_P0_CLAIM4 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 1110h 4300 3110h
Figure 5-49 CTRLMMR_P0_CLAIM4 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-114 CTRLMMR_P0_CLAIM4 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x0 + (4 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0x2000 + (4 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.34 CTRLMMR_USB0_PHY_CTRL Register (Proxy0 Offset = 4008h; Proxy1 Offset = 6008h) [reset = 80000004h]

CTRLMMR_USB0_PHY_CTRL is shown in Figure 5-50 and described in Table 5-116.

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Configures the USB0 Phy operation.

Table 5-115 CTRLMMR_USB0_PHY_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4008h 4300 6008h
Figure 5-50 CTRLMMR_USB0_PHY_CTRL Register
31 30 29 28 27 26 25 24
RESERVED RESERVED
R-0h R-0h
23 22 21 20 19 18 17 16
RESERVED LOOPBACK_MODE
R-0h R/W-0h
15 14 13 12 11 10 9 8
PLL_STANDALONE RESERVED PLL_CLKOUT_ON RESERVED PLL_CLKOUT_SEL
R/W-0h R-0h R/W-0h R-0h R/W-0h
7 6 5 4 3 2 1 0
RESERVED PLL_REF_SEL
R-0h R/W-4h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-116 CTRLMMR_USB0_PHY_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-18 RESERVED R 0h

Reserved

17-16 LOOPBACK_MODE R/W 0h

Enables USB0 PHY loopback operation

0h - Loopback is off

1h - LS loopback mode

2h - FS loopback mode

3h - HS loopback mode

15 PLL_STANDALONE R/W 0h

Enables USB0 PHY as a standalone PLL
0h - PHY PLL not used as standalone
1h - UTMI interface is in suspend mode and PLL clock is output

14-12 RESERVED R 0h

Reserved

11 PLL_CLKOUT_ON R/W 0h

Controls USB0 PLL clock output
0h - Output clock is disabled
1h - Output clock in enabled

10 RESERVED R 0h

Reserved

9-8 PLL_CLKOUT_SEL R/W 0h

Selects the frequency of the USB0 PLL output clock

0h - 480 MHz

1h - 240 MHz

2h - 120 MHz

3h - 60 MHz

7-4 RESERVED R 0h

Reserved

3-0 PLL_REF_SEL R/W 4h

Indicates the frequency of the REF_CLOCK input used by the USB PLL. This value should match the frequency value of the HFOSC0 or oscillator as selected by the CTRLMMR_USB0_CLKSEL register

0h - 9.6 MHz

1h - 10 MHz

2h - 12 MHz

3h - 18.2 MHZ

4h - 20 MHz

5h - 24 MHz

6h - 25 MHz

7h - 26 MHz

8h - 38.4 MHz

9h - 40 MHz

Ah - 48 MHz

Bh - 50 MHz

Ch - 52 MHz

1.1.5.35 CTRLMMR_ENET1_CTRL Register (Proxy0 Offset = 4044h; Proxy1 Offset = 6044h) [reset = 2h]

CTRLMMR_ENET1_CTRL is shown in Figure 5-51 and described in Table 5-118.

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Controls Ethernet Port1 operation.

Table 5-117 CTRLMMR_ENET1_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4044h 4300 6044h
Figure 5-51 CTRLMMR_ENET1_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED RESERVED RESERVED PORT_MODE_SEL
R-0h R/W-0h R-0h R/W-2h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-118 CTRLMMR_ENET1_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-5 RESERVED R 0h

Reserved

4 RESERVED R/W 0h

Reserved

3 RESERVED R 0h

Reserved

2-0 PORT_MODE_SEL R/W 2h

Selects Ethernet switch Port1 interface

0h - GMII/MII (not supported)

1h - RMII

2h - RGMII

3h - SGMII (not supported)

4h - QSGMII (not supported)

5h - XFI (not supported)

6h - QSGMII_SUB (not supported)

7h - Reserved

1.1.5.36 CTRLMMR_ENET2_CTRL Register (Proxy0 Offset = 4048h; Proxy1 Offset = 6048h) [reset = 2h]

CTRLMMR_ENET2_CTRL is shown in Figure 5-52 and described in Table 5-120.

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Controls Ethernet Port2 operation.

Table 5-119 CTRLMMR_ENET2_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4048h 4300 6048h
Figure 5-52 CTRLMMR_ENET2_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED RESERVED RESERVED PORT_MODE_SEL
R-0h R/W-0h R-0h R/W-2h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-120 CTRLMMR_ENET2_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-5 RESERVED R 0h

Reserved

4 RESERVED R/W 0h

Reserved

3 RESERVED R 0h

Reserved

2-0 PORT_MODE_SEL R/W 2h

Selects Ethernet switch Port2 interface

0h - GMII/MII (not supported)

1h - RMII

2h - RGMII

3h - SGMII (not supported)

4h - QSGMII (not supported)

5h - XFI (not supported)

6h - QSGMII_SUB (not supported)

7h - Reserved

1.1.5.37 CTRLMMR_PCIE0_CTRL Register (Proxy0 Offset = 4070h; Proxy1 Offset = 6070h) [reset = 1h]

CTRLMMR_PCIE0_CTRL is shown in Figure 5-53 and described in Table 5-122.

Return to Summary Table.

Controls PCIe0 operation.

Table 5-121 CTRLMMR_PCIE0_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4070h 4300 6070h
Figure 5-53 CTRLMMR_PCIE0_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
MODE_SEL RESERVED GENERATION_SEL
R/W-0h R-0h R/W-1h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-122 CTRLMMR_PCIE0_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-8 RESERVED R 0h

Reserved

7 MODE_SEL R/W 0h

Selects the operating mode
0h - Endpoint
1h - Root Complex

6-2 RESERVED R 0h

Reserved

1-0 GENERATION_SEL R/W 1h

Configures the PCIe generation support in the PCIe capabilities linked-list

1h - Gen2 - Controller advertises Gen1 & Gen2 capability and link operates at either speed

2h - Reserved

3h - Reserved

1.1.5.38 CTRLMMR_SERDES0_LN0_CTRL Register (Proxy0 Offset = 4080h; Proxy1 Offset = 6080h) [reset = 0h]

CTRLMMR_SERDES0_LN0_CTRL is shown in Figure 5-54 and described in Table 5-124.

Return to Summary Table.

Controls 10G SERDES0 lane0 selection.

Table 5-123 CTRLMMR_SERDES0_LN0_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4080h 4300 6080h
Figure 5-54 CTRLMMR_SERDES0_LN0_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED LANE_FUNC_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-124 CTRLMMR_SERDES0_LN0_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-2 RESERVED R 0h

Reserved

1-0 LANE_FUNC_SEL R/W 0h

Selects the SERDES0 lane0 function

0h - IP2 - PCIe0 Lane0

1h - IP2 - USBSS0

1.1.5.39 CTRLMMR_ADC0_TRIM Register (Proxy0 Offset = 40C0h; Proxy1 Offset = 60C0h) [reset = X]

CTRLMMR_ADC0_TRIM is shown in Figure 5-55 and described in Table 5-126.

Return to Summary Table.

Trim for Non-Linearities.

Table 5-125 CTRLMMR_ADC0_TRIM Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 40C0h 4300 60C0h
Figure 5-55 CTRLMMR_ADC0_TRIM Register
31 30 29 28 27 26 25 24
RESERVED TRIM5
R-0h R/W-X
23 22 21 20 19 18 17 16
TRIM4 TRIM3 TRIM2
R/W-X R/W-X R/W-X
15 14 13 12 11 10 9 8
TRIM2 TRIM1 ENABLE_CALB
R/W-X R/W-X R/W-X
7 6 5 4 3 2 1 0
ENABLE_CALB ENABLE_CAL
R/W-X R/W-X
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-126 CTRLMMR_ADC0_TRIM Register Field Descriptions
Bit Field Type Reset Description
31-27 RESERVED R 0h

Reserved

26-24 TRIM5 R/W X

Trims Nonlinearities from ADC

23-21 TRIM4 R/W X

Trims Nonlinearities from ADC

20-18 TRIM3 R/W X

Trims Nonlinearities from ADC

17-14 TRIM2 R/W X

Trims Nonlinearities from ADC

13-10 TRIM1 R/W X

Trims Nonlinearities from ADC

9-5 ENABLE_CALB R/W X

Trims Nonlinearities from ADC

4-0 ENABLE_CAL R/W X

Trims Nonlinearities from ADC

1.1.5.40 CTRLMMR_SERDES0_CTRL Register (Proxy0 Offset = 40E0h; Proxy1 Offset = 60E0h) [reset = 0h]

CTRLMMR_SERDES0_CTRL is shown in Figure 5-56 and described in Table 5-128.

Return to Summary Table.

Controls SERDES0 operation.

Table 5-127 CTRLMMR_SERDES0_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 40E0h 4300 60E0h
Figure 5-56 CTRLMMR_SERDES0_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED REF_SEL RESERVED RET_EN
R-0h R/W-0h R-0h R/W-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-128 CTRLMMR_SERDES0_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-13 RESERVED R 0h

Reserved

12 REF_SEL R/W 0h

REFCLK output select

11-9 RESERVED R 0h

Reserved

8 RET_EN R/W 0h

Retention enable

7-0 RESERVED R 0h

Reserved

1.1.5.41 CTRLMMR_ICSSG0_CTRL0 Register (Proxy0 Offset = 4100h; Proxy1 Offset = 6100h) [reset = 0h]

CTRLMMR_ICSSG0_CTRL0 is shown in Figure 5-57 and described in Table 5-130.

Return to Summary Table.

Controls ICSS_G0 operation.

Table 5-129 CTRLMMR_ICSSG0_CTRL0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4100h 4300 6100h
Figure 5-57 CTRLMMR_ICSSG0_CTRL0 Register
31 30 29 28 27 26 25 24
RESERVED RGMII0_ID_MODE
R-0h R/W-0h
23 22 21 20 19 18 17 16
RESERVED GPM_BIDI
R-0h R/W-0h
15 14 13 12 11 10 9 8
GPM_BIDI
R/W-0h
7 6 5 4 3 2 1 0
GPM_BIDI
R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-130 CTRLMMR_ICSSG0_CTRL0 Register Field Descriptions
Bit Field Type Reset Description
31-25 RESERVED R 0h

Reserved

24 RGMII0_ID_MODE R/W 0h

Controls the ICSS_G0 RGMII0 port internal transmit delay
0h - Internal transmit delay is enabled
1h - Internal transmit delay is not enabled. TX clock rising edge is aligned with TX data

23-20 RESERVED R 0h

Reserved

19-0 GPM_BIDI R/W 0h

Controls operation of the ICSS_G0 PRU0_GPO pins. Each bit n controls the corresponding PRG0_PRU0GPOn I/O
0h - In GPO mode, pin n functions as GPM output only
1h - In GPO mode, pin n functions as GPM output or GPN input. Direction is controlled by the ICSS-G0 _pr1_edio0_data_out_en[n] output.

1.1.5.42 CTRLMMR_ICSSG0_CTRL1 Register (Proxy0 Offset = 4104h; Proxy1 Offset = 6104h) [reset = 0h]

CTRLMMR_ICSSG0_CTRL1 is shown in Figure 5-58 and described in Table 5-132.

Return to Summary Table.

Controls ICSS_G0 operation.

Table 5-131 CTRLMMR_ICSSG0_CTRL1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4104h 4300 6104h
Figure 5-58 CTRLMMR_ICSSG0_CTRL1 Register
31 30 29 28 27 26 25 24
RESERVED RGMII1_ID_MODE
R-0h R/W-0h
23 22 21 20 19 18 17 16
RESERVED GPM_BIDI
R-0h R/W-0h
15 14 13 12 11 10 9 8
GPM_BIDI
R/W-0h
7 6 5 4 3 2 1 0
GPM_BIDI
R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-132 CTRLMMR_ICSSG0_CTRL1 Register Field Descriptions
Bit Field Type Reset Description
31-25 RESERVED R 0h

Reserved

24 RGMII1_ID_MODE R/W 0h

Controls the ICSS_G0 RGMII1 port internal transmit delay
0h - Internal transmit delay is enabled
1h - Internal transmit delay is not enabled. TX clock rising edge is aligned with TX data

23-20 RESERVED R 0h

Reserved

19-0 GPM_BIDI R/W 0h

Controls operation of the ICSS_G0 PRU1_GPO pins. Each bit n controls the corresponding PRG0_PRU1GPOn I/O
0h - In GPO mode, pin n functions as GPM output only
1h - In GPO mode, pin n functions as GPM output or GPN input. Direction is controlled by the ICSS-G0 _pr1_edio1_data_out_en[n] output.

1.1.5.43 CTRLMMR_ICSSG1_CTRL0 Register (Proxy0 Offset = 4110h; Proxy1 Offset = 6110h) [reset = 0h]

CTRLMMR_ICSSG1_CTRL0 is shown in Figure 5-59 and described in Table 5-134.

Return to Summary Table.

Controls ICSS_G1 operation.

Table 5-133 CTRLMMR_ICSSG1_CTRL0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4110h 4300 6110h
Figure 5-59 CTRLMMR_ICSSG1_CTRL0 Register
31 30 29 28 27 26 25 24
RESERVED RGMII0_ID_MODE
R-0h R/W-0h
23 22 21 20 19 18 17 16
RESERVED GPM_BIDI
R-0h R/W-0h
15 14 13 12 11 10 9 8
GPM_BIDI
R/W-0h
7 6 5 4 3 2 1 0
GPM_BIDI
R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-134 CTRLMMR_ICSSG1_CTRL0 Register Field Descriptions
Bit Field Type Reset Description
31-25 RESERVED R 0h

Reserved

24 RGMII0_ID_MODE R/W 0h

Controls the ICSS_G1 RGMII0 port internal transmit delay
0h - Internal transmit delay is enabled
1h - Internal transmit delay is not enabled. TX clock rising edge is aligned with TX data

23-20 RESERVED R 0h

Reserved

19-0 GPM_BIDI R/W 0h

Controls operation of the ICSS_G1 PRU0_GPO pins. Each bit n controls the corresponding PRG1_PRU0GPOn I/O
0h - In GPO mode, pin n functions as GPM output only
1h - In GPO mode, pin n functions as GPM output or GPN input. Direction is controlled by the ICSS-G1 _pr1_edio0_data_out_en[n] output.

1.1.5.44 CTRLMMR_ICSSG1_CTRL1 Register (Proxy0 Offset = 4114h; Proxy1 Offset = 6114h) [reset = 0h]

CTRLMMR_ICSSG1_CTRL1 is shown in Figure 5-60 and described in Table 5-136.

Return to Summary Table.

Controls ICSS_G1 operation.

Table 5-135 CTRLMMR_ICSSG1_CTRL1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4114h 4300 6114h
Figure 5-60 CTRLMMR_ICSSG1_CTRL1 Register
31 30 29 28 27 26 25 24
RESERVED RGMII1_ID_MODE
R-0h R/W-0h
23 22 21 20 19 18 17 16
RESERVED GPM_BIDI
R-0h R/W-0h
15 14 13 12 11 10 9 8
GPM_BIDI
R/W-0h
7 6 5 4 3 2 1 0
GPM_BIDI
R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-136 CTRLMMR_ICSSG1_CTRL1 Register Field Descriptions
Bit Field Type Reset Description
31-25 RESERVED R 0h

Reserved

24 RGMII1_ID_MODE R/W 0h

Controls the ICSS_G1 RGMII1 port internal transmit delay
0h - Internal transmit delay is enabled
1h - Internal transmit delay is not enabled. TX clock rising edge is aligned with TX data

23-20 RESERVED R 0h

Reserved

19-0 GPM_BIDI R/W 0h

Controls operation of the ICSS_G1 PRU1_GPO pins. Each bit n controls the corresponding PRG1_PRU1GPOn I/O
0h - In GPO mode, pin n functions as GPM output only
1h - In GPO mode, pin n functions as GPM output or GPN input. Direction is controlled by the ICSS-G1 _pr1_edio1_data_out_en[n] output.

1.1.5.45 CTRLMMR_EPWM_TB_CLKEN Register (Proxy0 Offset = 4130h; Proxy1 Offset = 6130h) [reset = 0h]

CTRLMMR_EPWM_TB_CLKEN is shown in Figure 5-61 and described in Table 5-138.

Return to Summary Table.

Controls Timebase Counter of EPWM Modules.

Table 5-137 CTRLMMR_EPWM_TB_CLKEN Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4130h 4300 6130h
Figure 5-61 CTRLMMR_EPWM_TB_CLKEN Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED EPWM8_TB_CLKEN
R-0h R/W-0h
7 6 5 4 3 2 1 0
EPWM7_TB_CLKEN EPWM6_TB_CLKEN EPWM5_TB_CLKEN EPWM4_TB_CLKEN EPWM3_TB_CLKEN EPWM2_TB_CLKEN EPWM1_TB_CLKEN EPWM0_TB_CLKEN
R/W-0h R/W-0h R/W-0h R/W-0h R/W-0h R/W-0h R/W-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-138 CTRLMMR_EPWM_TB_CLKEN Register Field Descriptions
Bit Field Type Reset Description
31-9 RESERVED R 0h

Reserved

8 EPWM8_TB_CLKEN R/W 0h

Enables Timebase Clock of EPWM8 When Set

7 EPWM7_TB_CLKEN R/W 0h

Enables Timebase Clock of EPWM7 When Set

6 EPWM6_TB_CLKEN R/W 0h

Enables Timebase Clock of EPWM6 When Set

5 EPWM5_TB_CLKEN R/W 0h

Enables Timebase Clock of EPWM5 When Set

4 EPWM4_TB_CLKEN R/W 0h

Enables Timebase Clock of EPWM4 When Set

3 EPWM3_TB_CLKEN R/W 0h

Enables Timebase Clock of EPWM3 When Set

2 EPWM2_TB_CLKEN R/W 0h

Enables Timebase Clock of EPWM2 When Set

1 EPWM1_TB_CLKEN R/W 0h

Enables Timebase Clock of EPWM1 When Set

0 EPWM0_TB_CLKEN R/W 0h

Enables Timebase Clock of EPWM0 When Set

1.1.5.46 CTRLMMR_EPWM_TB_CLKEN_SET Register (Proxy0 Offset = 4134h; Proxy1 Offset = 6134h) [reset = 0h]

CTRLMMR_EPWM_TB_CLKEN_SET is shown in Figure 5-62 and described in Table 5-140.

Return to Summary Table.

Controls Timebase Counter of EPWM Modules.

Table 5-139 CTRLMMR_EPWM_TB_CLKEN_SET Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4134h 4300 6134h
Figure 5-62 CTRLMMR_EPWM_TB_CLKEN_SET Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED EPWM8_TB_CLKEN
R-0h W1TS-0h
7 6 5 4 3 2 1 0
EPWM7_TB_CLKEN EPWM6_TB_CLKEN EPWM5_TB_CLKEN EPWM4_TB_CLKEN EPWM3_TB_CLKEN EPWM2_TB_CLKEN EPWM1_TB_CLKEN EPWM0_TB_CLKEN
W1TS-0h W1TS-0h W1TS-0h W1TS-0h W1TS-0h W1TS-0h W1TS-0h W1TS-0h
LEGEND: R = Read Only; W1TS = Write 1 to Set Bit; -n = value after reset
Table 5-140 CTRLMMR_EPWM_TB_CLKEN_SET Register Field Descriptions
Bit Field Type Reset Description
31-9 RESERVED R 0h

Reserved

8 EPWM8_TB_CLKEN W1TS 0h

Writing One Enables Timebase Clock of EPWM8

7 EPWM7_TB_CLKEN W1TS 0h

Writing One Enables Timebase Clock of EPWM7

6 EPWM6_TB_CLKEN W1TS 0h

Writing One Enables Timebase Clock of EPWM6

5 EPWM5_TB_CLKEN W1TS 0h

Writing One Enables Timebase Clock of EPWM5

4 EPWM4_TB_CLKEN W1TS 0h

Writing One Enables Timebase Clock of EPWM4

3 EPWM3_TB_CLKEN W1TS 0h

Writing One Enables Timebase Clock of EPWM3

2 EPWM2_TB_CLKEN W1TS 0h

Writing One Enables Timebase Clock of EPWM2

1 EPWM1_TB_CLKEN W1TS 0h

Writing One Enables Timebase Clock of EPWM1

0 EPWM0_TB_CLKEN W1TS 0h

Writing One Enables Timebase Clock of EPWM0

1.1.5.47 CTRLMMR_EPWM_TB_CLKEN_CLR Register (Proxy0 Offset = 4138h; Proxy1 Offset = 6138h) [reset = 0h]

CTRLMMR_EPWM_TB_CLKEN_CLR is shown in Figure 5-63 and described in Table 5-142.

Return to Summary Table.

Controls Timebase Counter of EPWM Modules.

Table 5-141 CTRLMMR_EPWM_TB_CLKEN_CLR Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4138h 4300 6138h
Figure 5-63 CTRLMMR_EPWM_TB_CLKEN_CLR Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED EPWM8_TB_CLKEN
R-0h W1TC-0h
7 6 5 4 3 2 1 0
EPWM7_TB_CLKEN EPWM6_TB_CLKEN EPWM5_TB_CLKEN EPWM4_TB_CLKEN EPWM3_TB_CLKEN EPWM2_TB_CLKEN EPWM1_TB_CLKEN EPWM0_TB_CLKEN
W1TC-0h W1TC-0h W1TC-0h W1TC-0h W1TC-0h W1TC-0h W1TC-0h W1TC-0h
LEGEND: R = Read Only; W1TC = Write 1 to Clear Bit; -n = value after reset
Table 5-142 CTRLMMR_EPWM_TB_CLKEN_CLR Register Field Descriptions
Bit Field Type Reset Description
31-9 RESERVED R 0h

Reserved

8 EPWM8_TB_CLKEN W1TC 0h

Writing One Disables Timebase Clock of EPWM8

7 EPWM7_TB_CLKEN W1TC 0h

Writing One Disables Timebase Clock of EPWM7

6 EPWM6_TB_CLKEN W1TC 0h

Writing One Disables Timebase Clock of EPWM6

5 EPWM5_TB_CLKEN W1TC 0h

Writing One Disables Timebase Clock of EPWM5

4 EPWM4_TB_CLKEN W1TC 0h

Writing One Disables Timebase Clock of EPWM4

3 EPWM3_TB_CLKEN W1TC 0h

Writing One Disables Timebase Clock of EPWM3

2 EPWM2_TB_CLKEN W1TC 0h

Writing One Disables Timebase Clock of EPWM2

1 EPWM1_TB_CLKEN W1TC 0h

Writing One Disables Timebase Clock of EPWM1

0 EPWM0_TB_CLKEN W1TC 0h

Writing One Disables Timebase Clock of EPWM0

1.1.5.48 CTRLMMR_EPWM0_CTRL Register (Proxy0 Offset = 4140h; Proxy1 Offset = 6140h) [reset = 0h]

CTRLMMR_EPWM0_CTRL is shown in Figure 5-64 and described in Table 5-144.

Return to Summary Table.

Controls EPWM0 Operation.

Table 5-143 CTRLMMR_EPWM0_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4140h 4300 6140h
Figure 5-64 CTRLMMR_EPWM0_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED SYNCIN_SEL
R-0h R/W-0h
7 6 5 4 3 2 1 0
RESERVED EALLOW RESERVED
R-0h R/W-0h R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-144 CTRLMMR_EPWM0_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-11 RESERVED R 0h

Reserved

10-8 SYNCIN_SEL R/W 0h

Selects the source of the EPWM0 synchronization input

0h - EPWM0_SYNCIN Pin

1h - None

2h - Time Sync Router 38

3h - Compare Event Router 40

4h - ICSSG0 Host Interrupt 6

5h - ICSSG1 Host Interrupt 6

6h - None

7h - None

7-5 RESERVED R 0h

Reserved

4 EALLOW R/W 0h

Enable write access to EPWM tripzone registers
0h - Disabled
1h - Enabled

3-0 RESERVED R 0h

Reserved

1.1.5.49 CTRLMMR_EPWM1_CTRL Register (Proxy0 Offset = 4144h; Proxy1 Offset = 6144h) [reset = 0h]

CTRLMMR_EPWM1_CTRL is shown in Figure 5-65 and described in Table 5-146.

Return to Summary Table.

Controls EPWM1 Operation.

Table 5-145 CTRLMMR_EPWM1_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4144h 4300 6144h
Figure 5-65 CTRLMMR_EPWM1_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED EALLOW RESERVED
R-0h R/W-0h R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-146 CTRLMMR_EPWM1_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-5 RESERVED R 0h

Reserved

4 EALLOW R/W 0h

Enable write access to EPWM tripzone registers
0h - Disabled
1h - Enabled

3-0 RESERVED R 0h

Reserved

1.1.5.50 CTRLMMR_EPWM2_CTRL Register (Proxy0 Offset = 4148h; Proxy1 Offset = 6148h) [reset = 0h]

CTRLMMR_EPWM2_CTRL is shown in Figure 5-66 and described in Table 5-148.

Return to Summary Table.

Controls EPWM2 Operation.

Table 5-147 CTRLMMR_EPWM2_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4148h 4300 6148h
Figure 5-66 CTRLMMR_EPWM2_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED EALLOW RESERVED
R-0h R/W-0h R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-148 CTRLMMR_EPWM2_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-5 RESERVED R 0h

Reserved

4 EALLOW R/W 0h

Enable write access to EPWM tripzone registers
0h - Disabled
1h - Enabled

3-0 RESERVED R 0h

Reserved

1.1.5.51 CTRLMMR_EPWM3_CTRL Register (Proxy0 Offset = 414Ch; Proxy1 Offset = 614Ch) [reset = 0h]

CTRLMMR_EPWM3_CTRL is shown in Figure 5-67 and described in Table 5-150.

Return to Summary Table.

Controls EPWM3 Operation.

Table 5-149 CTRLMMR_EPWM3_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 414Ch 4300 614Ch
Figure 5-67 CTRLMMR_EPWM3_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED SYNCIN_SEL
R-0h R/W-0h
7 6 5 4 3 2 1 0
RESERVED EALLOW RESERVED
R-0h R/W-0h R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-150 CTRLMMR_EPWM3_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-11 RESERVED R 0h

Reserved

10-8 SYNCIN_SEL R/W 0h

Selects the source of the EPWM3 synchronization input

0h - EPWM3_SYNCIN Pin

1h - EPWM2 syncout signal, daisy chained

2h - Time Sync Router 39

3h - Compare Event Router 41

4h - ICSSG0 Host Interrupt 7

5h - ICSSG1 Host Interrupt 7

6h - None

7h - None

7-5 RESERVED R 0h

Reserved

4 EALLOW R/W 0h

Enable write access to EPWM tripzone registers
0h - Disabled
1h - Enabled

3-0 RESERVED R 0h

Reserved

1.1.5.52 CTRLMMR_EPWM4_CTRL Register (Proxy0 Offset = 4150h; Proxy1 Offset = 6150h) [reset = 0h]

CTRLMMR_EPWM4_CTRL is shown in Figure 5-68 and described in Table 5-152.

Return to Summary Table.

Controls EPWM4 Operation.

Table 5-151 CTRLMMR_EPWM4_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4150h 4300 6150h
Figure 5-68 CTRLMMR_EPWM4_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED EALLOW RESERVED
R-0h R/W-0h R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-152 CTRLMMR_EPWM4_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-5 RESERVED R 0h

Reserved

4 EALLOW R/W 0h

Enable write access to EPWM tripzone registers
0h - Disabled
1h - Enabled

3-0 RESERVED R 0h

Reserved

1.1.5.53 CTRLMMR_EPWM5_CTRL Register (Proxy0 Offset = 4154h; Proxy1 Offset = 6154h) [reset = 0h]

CTRLMMR_EPWM5_CTRL is shown in Figure 5-69 and described in Table 5-154.

Return to Summary Table.

Controls EPWM5 Operation.

Table 5-153 CTRLMMR_EPWM5_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4154h 4300 6154h
Figure 5-69 CTRLMMR_EPWM5_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED EALLOW RESERVED
R-0h R/W-0h R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-154 CTRLMMR_EPWM5_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-5 RESERVED R 0h

Reserved

4 EALLOW R/W 0h

Enable write access to EPWM tripzone registers
0h - Disabled
1h - Enabled

3-0 RESERVED R 0h

Reserved

1.1.5.54 CTRLMMR_EPWM6_CTRL Register (Proxy0 Offset = 4158h; Proxy1 Offset = 6158h) [reset = 0h]

CTRLMMR_EPWM6_CTRL is shown in Figure 5-70 and described in Table 5-156.

Return to Summary Table.

Controls EPWM6 Operation.

Table 5-155 CTRLMMR_EPWM6_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4158h 4300 6158h
Figure 5-70 CTRLMMR_EPWM6_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED SYNCIN_SEL
R-0h R/W-0h
7 6 5 4 3 2 1 0
RESERVED EALLOW RESERVED
R-0h R/W-0h R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-156 CTRLMMR_EPWM6_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-11 RESERVED R 0h

Reserved

10-8 SYNCIN_SEL R/W 0h

Selects the source of the EPWM6 synchronization input

0h - EPWM6_SYNCIN Pin

1h - EPWM5 syncout signal, daisy chained

2h - Time Sync Router 40

3h - Compare Event Router 42

4h - ICSSG0 Host Interrupt 7

5h - ICSSG1 Host Interrupt 7

6h - None

7h - None

7-5 RESERVED R 0h

Reserved

4 EALLOW R/W 0h

Enable write access to EPWM tripzone registers
0h - Disabled
1h - Enabled

3-0 RESERVED R 0h

Reserved

1.1.5.55 CTRLMMR_EPWM7_CTRL Register (Proxy0 Offset = 415Ch; Proxy1 Offset = 615Ch) [reset = 0h]

CTRLMMR_EPWM7_CTRL is shown in Figure 5-71 and described in Table 5-158.

Return to Summary Table.

Controls EPWM7 Operation.

Table 5-157 CTRLMMR_EPWM7_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 415Ch 4300 615Ch
Figure 5-71 CTRLMMR_EPWM7_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED EALLOW RESERVED
R-0h R/W-0h R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-158 CTRLMMR_EPWM7_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-5 RESERVED R 0h

Reserved

4 EALLOW R/W 0h

Enable write access to EPWM tripzone registers
0h - Disabled
1h - Enabled

3-0 RESERVED R 0h

Reserved

1.1.5.56 CTRLMMR_EPWM8_CTRL Register (Proxy0 Offset = 4160h; Proxy1 Offset = 6160h) [reset = 0h]

CTRLMMR_EPWM8_CTRL is shown in Figure 5-72 and described in Table 5-160.

Return to Summary Table.

Controls EPWM8 Operation.

Table 5-159 CTRLMMR_EPWM8_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4160h 4300 6160h
Figure 5-72 CTRLMMR_EPWM8_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED EALLOW RESERVED
R-0h R/W-0h R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-160 CTRLMMR_EPWM8_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-5 RESERVED R 0h

Reserved

4 EALLOW R/W 0h

Enable write access to EPWM tripzone registers
0h - Disabled
1h - Enabled

3-0 RESERVED R 0h

Reserved

1.1.5.57 CTRLMMR_SOCA_SEL Register (Proxy0 Offset = 4170h; Proxy1 Offset = 6170h) [reset = 0h]

CTRLMMR_SOCA_SEL is shown in Figure 5-73 and described in Table 5-162.

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Selects Start of Conversion A output signal source.. Each EPWM provides a SOCA event that can be used to trigger ADCs (External or Internal). All EPWM SOCA events are ORed together allowing any of the EPWM modules to generate the event (if enabled within the EPWM). This event is then muxed with an ICSSx host interrupt allowing either an ICSSx or EPWM to source the SOCA event pin.

Table 5-161 CTRLMMR_SOCA_SEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4170h 4300 6170h
Figure 5-73 CTRLMMR_SOCA_SEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED SOCA_SEL_SOCA_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-162 CTRLMMR_SOCA_SEL Register Field Descriptions
Bit Field Type Reset Description
31-2 RESERVED R 0h

Reserved

1-0 SOCA_SEL_SOCA_SEL R/W 0h

Selects the SOC A output source

0h - OR of all EPWM SOCA outputs

1h - ICSSG0 Host Interrupt 1

2h - ICSSG1 Host Interrupt 1

3h - None

1.1.5.58 CTRLMMR_SOCB_SEL Register (Proxy0 Offset = 4174h; Proxy1 Offset = 6174h) [reset = 0h]

CTRLMMR_SOCB_SEL is shown in Figure 5-74 and described in Table 5-164.

Return to Summary Table.

Selects Start of Conversion B output signal source.. Each EPWM provides a SOCB event that can be used to trigger ADCs (External or Internal). All EPWM SOCb events are ORed together allowing any of the EPWM modules to generate the event (if enabled within the EPWM). This event is then muxed with an ICSSx host interrupt allowing either an ICSSx or EPWM to source the SOCB event pin.

Table 5-163 CTRLMMR_SOCB_SEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4174h 4300 6174h
Figure 5-74 CTRLMMR_SOCB_SEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED SOCB_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-164 CTRLMMR_SOCB_SEL Register Field Descriptions
Bit Field Type Reset Description
31-2 RESERVED R 0h

Reserved

1-0 SOCB_SEL R/W 0h

Selects the SOC B output source

0h - OR of all EPWM SOCB ouputs

1h - ICSSG0 Host Interrupt 2

2h - ICSSG1 Host Interrupt 2

3h - None

1.1.5.59 CTRLMMR_EQEP0_CTRL Register (Proxy0 Offset = 4180h; Proxy1 Offset = 6180h) [reset = 0h]

CTRLMMR_EQEP0_CTRL is shown in Figure 5-75 and described in Table 5-166.

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Selects Start of Conversion A input signal for EQEP0. This can be used to create a strobe (EQEP0_S) from one of the on chip sources selected by the EQEP0 SOCA mux.

Table 5-165 CTRLMMR_EQEP0_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4180h 4300 6180h
Figure 5-75 CTRLMMR_EQEP0_CTRL Register
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 SOCA_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-166 CTRLMMR_EQEP0_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-5 RESERVED R 0h

Reserved

4-0 SOCA_SEL R/W 0h

Selects the source of SOCA input for EQEP0

0h - ADC_EXT_TRIGGER0 Pin

1h - ADC_EXT_TRIGGER1 Pin

2h - EPWM SOCA_OUT

3h - EPWM SOCB_OUT

4h - MCU_TIMER0 PWM

5h - MCU_TIMER1 PWM

6h - MCU_TIMER2 PWM

7h - MCU_TIMER3 PWM

8h - TIMER0 PWM

9h - TIMER1 PWM

Ah - TIMER2 PWM

Bh - TIMER3 PWM

Ch - TIMER4 PWM

Dh - TIMER5 PWM

Eh - TIMER6 PWM

Fh - TIMER7 PWM

10h - TIMER8 PWM

11h - TIMER9 PWM

12h - TIMER10 PWM

13h - TIMER11 PWM

14h - ICSSG0 PR1 IEP0

15h - ICSSG0 PR1 IEP1

16h - ICSSG1 PR1 IEP0

17h - ICSSG1 PR1 IEP1

18h - ICSSG0 PR1 HOST INTR PEND4

19h - ICSSG0 PR1 HOST INTR PEND5

1Ah - ICSSG1 PR1 HOST INTR PEND4

1Bh - ICSSG1 PR1 HOST INTR PEND5

1.1.5.60 CTRLMMR_EQEP1_CTRL Register (Proxy0 Offset = 4184h; Proxy1 Offset = 6184h) [reset = 0h]

CTRLMMR_EQEP1_CTRL is shown in Figure 5-76 and described in Table 5-168.

Return to Summary Table.

Selects Start of Conversion A input signal for EQEP1. This can be used to create a strobe (EQEP1_S) from one of the on chip sources selected by the EQEP1 SOCA mux.

Table 5-167 CTRLMMR_EQEP1_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4184h 4300 6184h
Figure 5-76 CTRLMMR_EQEP1_CTRL Register
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 SOCA_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-168 CTRLMMR_EQEP1_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-5 RESERVED R 0h

Reserved

4-0 SOCA_SEL R/W 0h

Selects the source of SOCA input for EQEP1

0h - ADC_EXT_TRIGGER0 Pin

1h - ADC_EXT_TRIGGER1 Pin

2h - EPWM SOCA_OUT

3h - EPWM SOCB_OUT

4h - MCU_TIMER0 PWM

5h - MCU_TIMER1 PWM

6h - MCU_TIMER2 PWM

7h - MCU_TIMER3 PWM

8h - TIMER0 PWM

9h - TIMER1 PWM

Ah - TIMER2 PWM

Bh - TIMER3 PWM

Ch - TIMER4 PWM

Dh - TIMER5 PWM

Eh - TIMER6 PWM

Fh - TIMER7 PWM

10h - TIMER8 PWM

11h - TIMER9 PWM

12h - TIMER10 PWM

13h - TIMER11 PWM

14h - ICSSG0 PR1 IEP0

15h - ICSSG0 PR1 IEP1

16h - ICSSG1 PR1 IEP0

17h - ICSSG1 PR1 IEP1

18h - ICSSG0 PR1 HOST INTR PEND4

19h - ICSSG0 PR1 HOST INTR PEND5

1Ah - ICSSG1 PR1 HOST INTR PEND4

1Bh - ICSSG1 PR1 HOST INTR PEND5

1.1.5.61 CTRLMMR_EQEP2_CTRL Register (Proxy0 Offset = 4188h; Proxy1 Offset = 6188h) [reset = 0h]

CTRLMMR_EQEP2_CTRL is shown in Figure 5-77 and described in Table 5-170.

Return to Summary Table.

Selects Start of Conversion A input signal for EQEP2. This can be used to create a strobe (EQEP2_S) from one of the on chip sources selected by the EQEP2 SOCA mux.

Table 5-169 CTRLMMR_EQEP2_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4188h 4300 6188h
Figure 5-77 CTRLMMR_EQEP2_CTRL Register
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 SOCA_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-170 CTRLMMR_EQEP2_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-5 RESERVED R 0h

Reserved

4-0 SOCA_SEL R/W 0h

Selects the source of SOCA input for EQEP2

0h - ADC_EXT_TRIGGER0 Pin

1h - ADC_EXT_TRIGGER1 Pin

2h - EPWM SOCA_OUT

3h - EPWM SOCB_OUT

4h - MCU_TIMER0 PWM

5h - MCU_TIMER1 PWM

6h - MCU_TIMER2 PWM

7h - MCU_TIMER3 PWM

8h - TIMER0 PWM

9h - TIMER1 PWM

Ah - TIMER2 PWM

Bh - TIMER3 PWM

Ch - TIMER4 PWM

Dh - TIMER5 PWM

Eh - TIMER6 PWM

Fh - TIMER7 PWM

10h - TIMER8 PWM

11h - TIMER9 PWM

12h - TIMER10 PWM

13h - TIMER11 PWM

14h - ICSSG0 PR1 IEP0

15h - ICSSG0 PR1 IEP1

16h - ICSSG1 PR1 IEP0

17h - ICSSG1 PR1 IEP1

18h - ICSSG0 PR1 HOST INTR PEND4

19h - ICSSG0 PR1 HOST INTR PEND5

1Ah - ICSSG1 PR1 HOST INTR PEND4

1Bh - ICSSG1 PR1 HOST INTR PEND5

1.1.5.62 CTRLMMR_EQEP_STAT Register (Proxy0 Offset = 41A0h; Proxy1 Offset = 61A0h) [reset = X]

CTRLMMR_EQEP_STAT is shown in Figure 5-78 and described in Table 5-172.

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Displays status of EQEP modules.

Table 5-171 CTRLMMR_EQEP_STAT Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 41A0h 4300 61A0h
Figure 5-78 CTRLMMR_EQEP_STAT Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED PHASE_ERR2 PHASE_ERR1 PHASE_ERR0
R-0h R-X R-X R-X
LEGEND: R = Read Only; -n = value after reset
Table 5-172 CTRLMMR_EQEP_STAT Register Field Descriptions
Bit Field Type Reset Description
31-3 RESERVED R 0h

Reserved

2 PHASE_ERR2 R X

EQEP2 Phase error status
0h - No error
1h - Phase error occurred

1 PHASE_ERR1 R X

EQEP1 Phase error status
0h - No error
1h - Phase error occurred

0 PHASE_ERR0 R X

EQEP0 Phase error status
0h - No error
1h - Phase error occurred

1.1.5.63 CTRLMMR_SDIO1_CTRL Register (Proxy0 Offset = 41B4h; Proxy1 Offset = 61B4h) [reset = X]

CTRLMMR_SDIO1_CTRL is shown in Figure 5-79 and described in Table 5-174.

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Controls drive strength of MMC1 SDIO mode pins.

Table 5-173 CTRLMMR_SDIO1_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 41B4h 4300 61B4h
Figure 5-79 CTRLMMR_SDIO1_CTRL Register
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 DRV_STR
R-0h R/W-X
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-174 CTRLMMR_SDIO1_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-5 RESERVED R 0h

Reserved

4-0 DRV_STR R/W X

Selects the SDIO drive strength

1.1.5.64 CTRLMMR_TIMER1_CTRL Register (Proxy0 Offset = 4204h; Proxy1 Offset = 6204h) [reset = 0h]

CTRLMMR_TIMER1_CTRL is shown in Figure 5-80 and described in Table 5-176.

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Controls TIMER1 operation.

Table 5-175 CTRLMMR_TIMER1_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4204h 4300 6204h
Figure 5-80 CTRLMMR_TIMER1_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED CASCADE_EN
R-0h R/W-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-176 CTRLMMR_TIMER1_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-9 RESERVED R 0h

Reserved

8 CASCADE_EN R/W 0h

Enables cascading of TIMER1 to TIMER0

7-0 RESERVED R 0h

Reserved

1.1.5.65 CTRLMMR_TIMER3_CTRL Register (Proxy0 Offset = 420Ch; Proxy1 Offset = 620Ch) [reset = 0h]

CTRLMMR_TIMER3_CTRL is shown in Figure 5-81 and described in Table 5-178.

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Controls TIMER3 operation.

Table 5-177 CTRLMMR_TIMER3_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 420Ch 4300 620Ch
Figure 5-81 CTRLMMR_TIMER3_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED CASCADE_EN
R-0h R/W-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-178 CTRLMMR_TIMER3_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-9 RESERVED R 0h

Reserved

8 CASCADE_EN R/W 0h

Enables cascading of TIMER3 to TIMER2

7-0 RESERVED R 0h

Reserved

1.1.5.66 CTRLMMR_TIMER5_CTRL Register (Proxy0 Offset = 4214h; Proxy1 Offset = 6214h) [reset = 0h]

CTRLMMR_TIMER5_CTRL is shown in Figure 5-82 and described in Table 5-180.

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Controls TIMER5 operation.

Table 5-179 CTRLMMR_TIMER5_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4214h 4300 6214h
Figure 5-82 CTRLMMR_TIMER5_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED CASCADE_EN
R-0h R/W-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-180 CTRLMMR_TIMER5_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-9 RESERVED R 0h

Reserved

8 CASCADE_EN R/W 0h

Enables cascading of TIMER5 to TIMER4

7-0 RESERVED R 0h

Reserved

1.1.5.67 CTRLMMR_TIMER7_CTRL Register (Proxy0 Offset = 421Ch; Proxy1 Offset = 621Ch) [reset = 0h]

CTRLMMR_TIMER7_CTRL is shown in Figure 5-83 and described in Table 5-182.

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Controls TIMER7 operation.

Table 5-181 CTRLMMR_TIMER7_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 421Ch 4300 621Ch
Figure 5-83 CTRLMMR_TIMER7_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED CASCADE_EN
R-0h R/W-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-182 CTRLMMR_TIMER7_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-9 RESERVED R 0h

Reserved

8 CASCADE_EN R/W 0h

Enables cascading of TIMER7 to TIMER6

7-0 RESERVED R 0h

Reserved

1.1.5.68 CTRLMMR_TIMER9_CTRL Register (Proxy0 Offset = 4224h; Proxy1 Offset = 6224h) [reset = 0h]

CTRLMMR_TIMER9_CTRL is shown in Figure 5-84 and described in Table 5-184.

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Controls TIMER9 operation.

Table 5-183 CTRLMMR_TIMER9_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4224h 4300 6224h
Figure 5-84 CTRLMMR_TIMER9_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED CASCADE_EN
R-0h R/W-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-184 CTRLMMR_TIMER9_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-9 RESERVED R 0h

Reserved

8 CASCADE_EN R/W 0h

Enables cascading of TIMER9 to TIMER8

7-0 RESERVED R 0h

Reserved

1.1.5.69 CTRLMMR_TIMER11_CTRL Register (Proxy0 Offset = 422Ch; Proxy1 Offset = 622Ch) [reset = 0h]

CTRLMMR_TIMER11_CTRL is shown in Figure 5-85 and described in Table 5-186.

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Controls TIMER11 operation.

Table 5-185 CTRLMMR_TIMER11_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 422Ch 4300 622Ch
Figure 5-85 CTRLMMR_TIMER11_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED CASCADE_EN
R-0h R/W-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-186 CTRLMMR_TIMER11_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-9 RESERVED R 0h

Reserved

8 CASCADE_EN R/W 0h

Enables cascading of TIMER11 to TIMER10

7-0 RESERVED R 0h

Reserved

1.1.5.70 CTRLMMR_I2C0_CTRL Register (Proxy0 Offset = 42E0h; Proxy1 Offset = 62E0h) [reset = 0h]

CTRLMMR_I2C0_CTRL is shown in Figure 5-86 and described in Table 5-188.

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Controls I2C0 operation for open drain I/Os.

Table 5-187 CTRLMMR_I2C0_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 42E0h 4300 62E0h
Figure 5-86 CTRLMMR_I2C0_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED HS_MCS_EN
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-188 CTRLMMR_I2C0_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-1 RESERVED R 0h

Reserved

0 HS_MCS_EN R/W 0h

HS Mode master current source enable.
When set, enables the current-source pull-up on the SCL output. Only one master on the I2C bus should enable SCL current sourcing.

1.1.5.71 CTRLMMR_FSS_CTRL Register (Proxy0 Offset = 4700h; Proxy1 Offset = 6700h) [reset = 0h]

CTRLMMR_FSS_CTRL is shown in Figure 5-87 and described in Table 5-190.

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Controls Flash boot region size and placement.

Table 5-189 CTRLMMR_FSS_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4700h 4300 6700h
Figure 5-87 CTRLMMR_FSS_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED S0_BOOT_SIZE
R-0h R/W-0h
7 6 5 4 3 2 1 0
RESERVED S0_BOOT_SEG
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-190 CTRLMMR_FSS_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-9 RESERVED R 0h

Reserved

8 S0_BOOT_SIZE R/W 0h

Selects the size of the boot block to be used for the S0 (OSPI0) flash interface
0h - S0 boot size is 64 MB
1h - S0 boot size is 128 MB

7-6 RESERVED R 0h

Reserved

5-0 S0_BOOT_SEG R/W 0h

Selects the boot block to be used for the S0 (OSPI0) flash interface. If the s0_boot_size is 128 MB then only bits [4:0] of this field are used. Care must be taken to account for the address translation as to not fall off or wrap the address of the flash. (e.g. if both ECC and authentication are enabled for 64 MB boot, the highest valid block number is is 49, as sector 50 is only .2M Bytes in size.)
6'h00 - Use block 0
6'h01 - Use block 1
:
6'h3F - Use block 63

1.1.5.72 CTRLMMR_ADC0_CTRL Register (Proxy0 Offset = 4710h; Proxy1 Offset = 6710h) [reset = 0h]

CTRLMMR_ADC0_CTRL is shown in Figure 5-88 and described in Table 5-192.

Return to Summary Table.

Controls operation of ADC0.

Table 5-191 CTRLMMR_ADC0_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4710h 4300 6710h
Figure 5-88 CTRLMMR_ADC0_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED GPI_MODE_EN
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED TRIG_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-192 CTRLMMR_ADC0_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 GPI_MODE_EN R/W 0h

Enables ADC0 data pins to be used as general purpose inputs when set. This signal is tied to the en_dig_test input of MCU_ADC0

15-5 RESERVED R 0h

Reserved

4-0 TRIG_SEL R/W 0h

Selects the source of the ADC hardware event trigger

0h - ADC_EXT_TRIGGER0 Pin

1h - ADC_EXT_TRIGGER1 Pin

2h - EPWM SOCA_OUT

3h - EPWM SOCB_OUT

4h - MCU_TIMER0 PWM

5h - MCU_TIMER1 PWM

6h - MCU_TIMER2 PWM

7h - MCU_TIMER3 PWM

8h - TIMER0 PWM

9h - TIMER1 PWM

Ah - TIMER2 PWM

Bh - TIMER3 PWM

Ch - TIMER4 PWM

Dh - TIMER5 PWM

Eh - TIMER6 PWM

Fh - TIMER7 PWM

10h - TIMER8 PWM

11h - TIMER9 PWM

12h - TIMER10 PWM

13h - TIMER11 PWM

14h - ICSSG0 PR1 IEP0

15h - ICSSG0 PR1 IEP1

16h - ICSSG1 PR1 IEP0

17h - ICSSG1 PR1 IEP1

18h - ICSSG0 PR1 HOST INTR PEND4

19h - ICSSG0 PR1 HOST INTR PEND5

1Ah - ICSSG1 PR1 HOST INTR PEND4

1Bh - ICSSG1 PR1 HOST INTR PEND5

1.1.5.73 CTRLMMR_DCC_STAT Register (Proxy0 Offset = 4750h; Proxy1 Offset = 6750h) [reset = X]

CTRLMMR_DCC_STAT is shown in Figure 5-89 and described in Table 5-194.

Return to Summary Table.

Interrupt Status of Individual DCC Ips.

Table 5-193 CTRLMMR_DCC_STAT Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 4750h 4300 6750h
Figure 5-89 CTRLMMR_DCC_STAT Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED MCU_DCC0_INTR_DONE
R-0h R-X
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED DCC5_INTR_DONE DCC4_INTR_DONE DCC3_INTR_DONE DCC2_INTR_DONE DCC1_INTR_DONE DCC0_INTR_DONE
R-0h R-X R-X R-X R-X R-X R-X
LEGEND: R = Read Only; -n = value after reset
Table 5-194 CTRLMMR_DCC_STAT Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 MCU_DCC0_INTR_DONE R X

MCU_DCC0 Done Interrupt Status
0 = No Interrupt Pending
1 = Interrupt Pending

15-6 RESERVED R 0h

Reserved

5 DCC5_INTR_DONE R X

DCC5 Done Interrupt Status
0 = No Interrupt Pending
1 = Interrupt Pending

4 DCC4_INTR_DONE R X

DCC4 Done Interrupt Status
0 = No Interrupt Pending
1 = Interrupt Pending

3 DCC3_INTR_DONE R X

DCC3 Done Interrupt Status
0 = No Interrupt Pending
1 = Interrupt Pending

2 DCC2_INTR_DONE R X

DCC2 Done Interrupt Status
0 = No Interrupt Pending
1 = Interrupt Pending

1 DCC1_INTR_DONE R X

DCC1 Done Interrupt Status
0 = No Interrupt Pending
1 = Interrupt Pending

0 DCC0_INTR_DONE R X

DCC0 Done Interrupt Status
0 = No Interrupt Pending
1 = Interrupt Pending

1.1.5.74 CTRLMMR_LOCK1_KICK0 Register (Proxy0 Offset = 5008h; Proxy1 Offset = 7008h) [reset = 0h]

CTRLMMR_LOCK1_KICK0 is shown in Figure 5-90 and described in Table 5-196.

Return to Summary Table.

Lower 32-bits of Partition1 write lock key. This register must be written with the designated key value followed by a write to CTRLMMR_LOCK1_KICK1 with its key value before write-protected Partition 1 registers can be written.

Table 5-195 CTRLMMR_LOCK1_KICK0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 5008h 4300 7008h
Figure 5-90 CTRLMMR_LOCK1_KICK0 Register
31 30 29 28 27 26 25 24
KEY
R/W-0h
23 22 21 20 19 18 17 16
KEY
R/W-0h
15 14 13 12 11 10 9 8
KEY
R/W-0h
7 6 5 4 3 2 1 0
KEY UNLOCKED
R/W-0h R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-196 CTRLMMR_LOCK1_KICK0 Register Field Descriptions
Bit Field Type Reset Description
31-1 KEY R/W 0h

Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition1 registers

0 UNLOCKED R 0h

Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing.

1.1.5.75 CTRLMMR_LOCK1_KICK1 Register (Proxy0 Offset = 500Ch; Proxy1 Offset = 700Ch) [reset = 0h]

CTRLMMR_LOCK1_KICK1 is shown in Figure 5-91 and described in Table 5-198.

Return to Summary Table.

Upper 32-bits of Partition 1 write lock key. This register must be written with the designated key value after a write to CTRLMMR_LOCK1_KICK0 with its key value before write-protected Partition 1 registers can be written.

Table 5-197 CTRLMMR_LOCK1_KICK1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 500Ch 4300 700Ch
Figure 5-91 CTRLMMR_LOCK1_KICK1 Register
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
KEY
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-198 CTRLMMR_LOCK1_KICK1 Register Field Descriptions
Bit Field Type Reset Description
31-0 KEY R/W 0h

Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition1 registers

1.1.5.76 CTRLMMR_P1_CLAIM0 Register (Proxy0 Offset = 5100h; Proxy1 Offset = 7100h) [reset = 0h]

CTRLMMR_P1_CLAIM0 is shown in Figure 5-92 and described in Table 5-200.

Return to Summary Table.

Claim bits for Partition1 Registers.

Table 5-199 CTRLMMR_P1_CLAIM0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 5100h 4300 7100h
Figure 5-92 CTRLMMR_P1_CLAIM0 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-200 CTRLMMR_P1_CLAIM0 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x4000 + (0 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0x6000 + (0 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.77 CTRLMMR_P1_CLAIM1 Register (Proxy0 Offset = 5104h; Proxy1 Offset = 7104h) [reset = 0h]

CTRLMMR_P1_CLAIM1 is shown in Figure 5-93 and described in Table 5-202.

Return to Summary Table.

Claim bits for Partition1 Registers.

Table 5-201 CTRLMMR_P1_CLAIM1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 5104h 4300 7104h
Figure 5-93 CTRLMMR_P1_CLAIM1 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-202 CTRLMMR_P1_CLAIM1 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x4000 + (1 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0x6000 + (1 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.78 CTRLMMR_P1_CLAIM2 Register (Proxy0 Offset = 5108h; Proxy1 Offset = 7108h) [reset = 0h]

CTRLMMR_P1_CLAIM2 is shown in Figure 5-94 and described in Table 5-204.

Return to Summary Table.

Claim bits for Partition1 Registers.

Table 5-203 CTRLMMR_P1_CLAIM2 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 5108h 4300 7108h
Figure 5-94 CTRLMMR_P1_CLAIM2 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-204 CTRLMMR_P1_CLAIM2 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x4000 + (2 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0x6000 + (2 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.79 CTRLMMR_P1_CLAIM3 Register (Proxy0 Offset = 510Ch; Proxy1 Offset = 710Ch) [reset = 0h]

CTRLMMR_P1_CLAIM3 is shown in Figure 5-95 and described in Table 5-206.

Return to Summary Table.

Claim bits for Partition1 Registers.

Table 5-205 CTRLMMR_P1_CLAIM3 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 510Ch 4300 710Ch
Figure 5-95 CTRLMMR_P1_CLAIM3 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-206 CTRLMMR_P1_CLAIM3 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x4000 + (3 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0x6000 + (3 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.80 CTRLMMR_P1_CLAIM4 Register (Proxy0 Offset = 5110h; Proxy1 Offset = 7110h) [reset = 0h]

CTRLMMR_P1_CLAIM4 is shown in Figure 5-96 and described in Table 5-208.

Return to Summary Table.

Claim bits for Partition1 Registers.

Table 5-207 CTRLMMR_P1_CLAIM4 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 5110h 4300 7110h
Figure 5-96 CTRLMMR_P1_CLAIM4 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-208 CTRLMMR_P1_CLAIM4 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x4000 + (4 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0x6000 + (4 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.81 CTRLMMR_P1_CLAIM5 Register (Proxy0 Offset = 5114h; Proxy1 Offset = 7114h) [reset = 0h]

CTRLMMR_P1_CLAIM5 is shown in Figure 5-97 and described in Table 5-210.

Return to Summary Table.

Claim bits for Partition1 Registers.

Table 5-209 CTRLMMR_P1_CLAIM5 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 5114h 4300 7114h
Figure 5-97 CTRLMMR_P1_CLAIM5 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-210 CTRLMMR_P1_CLAIM5 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x4000 + (5 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0x6000 + (5 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.82 CTRLMMR_P1_CLAIM12 Register (Proxy0 Offset = 5130h; Proxy1 Offset = 7130h) [reset = 0h]

CTRLMMR_P1_CLAIM12 is shown in Figure 5-98 and described in Table 5-212.

Return to Summary Table.

Claim bits for Partition1 Registers.

Table 5-211 CTRLMMR_P1_CLAIM12 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 5130h 4300 7130h
Figure 5-98 CTRLMMR_P1_CLAIM12 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-212 CTRLMMR_P1_CLAIM12 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x4000 + (12 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0x6000 + (12 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.83 CTRLMMR_P1_CLAIM13 Register (Proxy0 Offset = 5134h; Proxy1 Offset = 7134h) [reset = 0h]

CTRLMMR_P1_CLAIM13 is shown in Figure 5-99 and described in Table 5-214.

Return to Summary Table.

Claim bits for Partition1 Registers.

Table 5-213 CTRLMMR_P1_CLAIM13 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 5134h 4300 7134h
Figure 5-99 CTRLMMR_P1_CLAIM13 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-214 CTRLMMR_P1_CLAIM13 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x4000 + (13 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0x6000 + (13 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.84 CTRLMMR_P1_CLAIM14 Register (Proxy0 Offset = 5138h; Proxy1 Offset = 7138h) [reset = 0h]

CTRLMMR_P1_CLAIM14 is shown in Figure 5-100 and described in Table 5-216.

Return to Summary Table.

Claim bits for Partition1 Registers.

Table 5-215 CTRLMMR_P1_CLAIM14 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 5138h 4300 7138h
Figure 5-100 CTRLMMR_P1_CLAIM14 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-216 CTRLMMR_P1_CLAIM14 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x4000 + (14 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0x6000 + (14 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.85 CTRLMMR_OBSCLK0_CTRL Register (Proxy0 Offset = 8000h; Proxy1 Offset = A000h) [reset = Dh]

CTRLMMR_OBSCLK0_CTRL is shown in Figure 5-101 and described in Table 5-218.

Return to Summary Table.

This register controls which internal clock is made observable on the OBSCLK[2:0] output pins.

Table 5-217 CTRLMMR_OBSCLK0_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8000h 4300 A000h
Figure 5-101 CTRLMMR_OBSCLK0_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED CLK_DIV_LD
R-0h R/W-0h
15 14 13 12 11 10 9 8
CLK_DIV
R/W-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-Dh
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-218 CTRLMMR_OBSCLK0_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 CLK_DIV_LD R/W 0h

Load the output divider value
Writing 1 to this bit will generate a load pulse to load the OBSCLK0 divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value is changed.

15-8 CLK_DIV R/W 0h

OBSCLK0 output divider
Divides the selected clock by clkdiv+1 for output to the OBSCLK[2:0] pins. Supports divide by 1 to 256 (default to 1). To load the new divider value the clk_div_ld bit must be cleared and then set to 1.

7-4 RESERVED R 0h

Reserved

3-0 CLK_SEL R/W Dh

OBSCLK0 clock source selection.
Selects the source of the clock to be divided by the OBSCLK0 divider and output on the OBSCLK0 pin.

0h - MAIN_PLL0_HSDIV0_CLKOUT

1h - MAIN_PLL1_HSDIV0_CLKOUT

2h - MAIN_PLL2_HSDIV0_CLKOUT

3h - MAIN_PLL8_HSDIV0_CLKOUT

4h - MAIN_PLL12_HSDIV0_CLKOUT

5h - CLK_12M_RC

6h - HFOSC0_CLKOUT_32K

7h - PLLCTRL_OBSCLK

8h - HFOSC0_CLKOUT

9h - CLK_32K

Ah - cpsw3g_cpts_genf0

Bh - cpsw3g_cpts_genf1

Ch - cpts_genf1

Dh - cpts_genf2

Eh - cpts_genf3

Fh - MAIN_PLL14_HSDIV0_CLKOUT

1.1.5.86 CTRLMMR_CLKOUT_CTRL Register (Proxy0 Offset = 8010h; Proxy1 Offset = A010h) [reset = 0h]

CTRLMMR_CLKOUT_CTRL is shown in Figure 5-102 and described in Table 5-220.

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Enables and selects clock source of CPSW CLKOUT pin.

Table 5-219 CTRLMMR_CLKOUT_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8010h 4300 A010h
Figure 5-102 CTRLMMR_CLKOUT_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_EN RESERVED CLK_SEL
R-0h R/W-0h R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-220 CTRLMMR_CLKOUT_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-5 RESERVED R 0h

Reserved

4 CLK_EN R/W 0h

When set, enables CLKOUT output

3-1 RESERVED R 0h

Reserved

0 CLK_SEL R/W 0h

Selects CLKOUT clock source
0h - RGMII_MHZ_50_CLK (50 MHz)
1h -RGMII_MHZ_50_CLK_DIV2 (25 MHz)

1.1.5.87 CTRLMMR_GTC_CLKSEL Register (Proxy0 Offset = 8030h; Proxy1 Offset = A030h) [reset = 0h]

CTRLMMR_GTC_CLKSEL is shown in Figure 5-103 and described in Table 5-222.

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Selects the timebase clock source for the Global Timebase Counter.

Table 5-221 CTRLMMR_GTC_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8030h 4300 A030h
Figure 5-103 CTRLMMR_GTC_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-222 CTRLMMR_GTC_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-3 RESERVED R 0h

Reserved

2-0 CLK_SEL R/W 0h

Selects the GTC timebase clock source

0h - MAIN_PLL2_HSDIV5_CLKOUT

1h - MAIN_PLL0_HSDIV6_CLKOUT

2h - CPSW3G_CPTS_RFT_CLK (Pin)

3h - CPTS_RFT_CLK (Pin)

4h - MCU_EXT_REFCLK0 (Pin)

5h - EXT_REFCLK1 (Pin)

6h - SERDES0_IP1_LN0_TXMCLK

7h - MAIN_SYSCLK0

1.1.5.88 CTRLMMR_EFUSE_CLKSEL Register (Proxy0 Offset = 803Ch; Proxy1 Offset = A03Ch) [reset = 0h]

CTRLMMR_EFUSE_CLKSEL is shown in Figure 5-104 and described in Table 5-224.

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Selects the functional clock source for the MAIN domain eFuse Controller.

Table 5-223 CTRLMMR_EFUSE_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 803Ch 4300 A03Ch
Figure 5-104 CTRLMMR_EFUSE_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-224 CTRLMMR_EFUSE_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-1 RESERVED R 0h

Reserved

0 CLK_SEL R/W 0h

Selects the clock source

0h - HFOSC0_CLKOUT

1h - MAIN_SYSCLK0/4

1.1.5.89 CTRLMMR_ICSSG0_CLKSEL Register (Proxy0 Offset = 8040h; Proxy1 Offset = A040h) [reset = 0h]

CTRLMMR_ICSSG0_CLKSEL is shown in Figure 5-105 and described in Table 5-226.

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Selects the functional clock source for ICSS_G0.

Table 5-225 CTRLMMR_ICSSG0_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8040h 4300 A040h
Figure 5-105 CTRLMMR_ICSSG0_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED IEP_CLKSEL
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CORE_CLKSEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-226 CTRLMMR_ICSSG0_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-19 RESERVED R 0h

Reserved

18-16 IEP_CLKSEL R/W 0h

Selects the ICSSG0 IEP clock source

0h - MAIN_PLL2_HSDIV5_CLKOUT

1h - MAIN_PLL0_HSDIV6_CLKOUT

2h - CPSW3G_CPTS_RFT_CLK

3h - CPTS_RFT_CLK

4h - MCU_EXT_REFCLK0

5h - EXT_REFCLK1

6h - SERDES0_IP1_LN0_TXMCLK

7h - MAIN_SYSCLK0

15-1 RESERVED R 0h

Reserved

0 CORE_CLKSEL R/W 0h

Selects the ICSSG0 functional clock source

0h - MAIN_PLL2_HSDIV0_CLKOUT

1h - MAIN_PLL0_HSDIV9_CLKOUT

1.1.5.90 CTRLMMR_ICSSG1_CLKSEL Register (Proxy0 Offset = 8044h; Proxy1 Offset = A044h) [reset = 0h]

CTRLMMR_ICSSG1_CLKSEL is shown in Figure 5-106 and described in Table 5-228.

Return to Summary Table.

Selects the functional clock source for ICSS_G1.

Table 5-227 CTRLMMR_ICSSG1_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8044h 4300 A044h
Figure 5-106 CTRLMMR_ICSSG1_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED IEP_CLKSEL
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CORE_CLKSEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-228 CTRLMMR_ICSSG1_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-19 RESERVED R 0h

Reserved

18-16 IEP_CLKSEL R/W 0h

Selects the ICSSG1 IEP clock source

0h - MAIN_PLL2_HSDIV5_CLKOUT

1h - MAIN_PLL0_HSDIV6_CLKOUT

2h - CPSW3G_CPTS_RFT_CLK

3h - CPTS_RFT_CLK

4h - MCU_EXT_REFCLK0

5h - EXT_REFCLK1

6h - SERDES0_IP1_LN0_TXMCLK

7h - MAIN_SYSCLK0

15-1 RESERVED R 0h

Reserved

0 CORE_CLKSEL R/W 0h

Selects the ICSSG1 functional clock source

0h - MAIN_PLL2_HSDIV0_CLKOUT

1h - MAIN_PLL0_HSDIV9_CLKOUT

1.1.5.91 CTRLMMR_MAIN_PLL0_CLKSEL Register (Proxy0 Offset = 8060h; Proxy1 Offset = A060h) [reset = 0h]

CTRLMMR_MAIN_PLL0_CLKSEL is shown in Figure 5-107 and described in Table 5-230.

Return to Summary Table.

Controls the clock source for MAIN voltage domain PLL0.

Table 5-229 CTRLMMR_MAIN_PLL0_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8060h 4300 A060h
Figure 5-107 CTRLMMR_MAIN_PLL0_CLKSEL Register
31 30 29 28 27 26 25 24
BYPASS_SW_OVRD RESERVED
R/W-0h R-0h
23 22 21 20 19 18 17 16
BYP_WARM_RST RESERVED
R/W-0h R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-230 CTRLMMR_MAIN_PLL0_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31 BYPASS_SW_OVRD R/W 0h

PLL Bypass warm reset software override
When set, enables software control of exit from bypass mode on a main_reset_z for MAIN PLL0. This bit must not be set until after the corresponding byp_warm_rst bit has been cleared or the PLL will immediately enter bypass mode.

30-24 RESERVED R 0h

Reserved

23 BYP_WARM_RST R/W 0h

PLL bypass mode after warm reset.
This bit is only valid when bypass_sw_ovrd is set to 1'b1 to enable bypass software override.
This bit is set (1'b0) when a MAIN warm reset occurs to keep MAIN PLL0 from being bypassed, supporting reset isolation of the CPSW.
1'b0 = Exit bypass mode (based on MAIN PLL0_CTRL_bypass_en bit value)
1'b1 = Maintain bypass mode.

22-0 RESERVED R 0h

Reserved

1.1.5.92 CTRLMMR_MAIN_PLL1_CLKSEL Register (Proxy0 Offset = 8064h; Proxy1 Offset = A064h) [reset = 0h]

CTRLMMR_MAIN_PLL1_CLKSEL is shown in Figure 5-108 and described in Table 5-232.

Return to Summary Table.

Controls the clock source for MAIN voltage domain PLL1.

Table 5-231 CTRLMMR_MAIN_PLL1_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8064h 4300 A064h
Figure 5-108 CTRLMMR_MAIN_PLL1_CLKSEL Register
31 30 29 28 27 26 25 24
BYPASS_SW_OVRD RESERVED
R/W-0h R-0h
23 22 21 20 19 18 17 16
BYP_WARM_RST RESERVED
R/W-0h R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-232 CTRLMMR_MAIN_PLL1_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31 BYPASS_SW_OVRD R/W 0h

PLL Bypass warm reset software override
This bit has no effect on PLL operation as MAIN PLL1 is reset isolated and exit from bypass mode (in the case of a Thermal reset) is always hardware controlled.

30-24 RESERVED R 0h

Reserved

23 BYP_WARM_RST R/W 0h

PLL bypass mode after warm reset.
This bit is cleared to 1'b0 when a MAIN warm reset occurs which will cause MAIN PLL1 to exit bypass mode after reset exit. Setting this bit will have no effect on PLL behaviot. Because MAIN PLL1 is warm reset insensitive, bypass mode will only be entered (and exited) in the case of a Thermal reset event.

22-0 RESERVED R 0h

Reserved

1.1.5.93 CTRLMMR_MAIN_PLL2_CLKSEL Register (Proxy0 Offset = 8068h; Proxy1 Offset = A068h) [reset = 0h]

CTRLMMR_MAIN_PLL2_CLKSEL is shown in Figure 5-109 and described in Table 5-234.

Return to Summary Table.

Controls the clock source for MAIN voltage domain PLL2.

Table 5-233 CTRLMMR_MAIN_PLL2_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8068h 4300 A068h
Figure 5-109 CTRLMMR_MAIN_PLL2_CLKSEL Register
31 30 29 28 27 26 25 24
BYPASS_SW_OVRD RESERVED
R/W-0h R-0h
23 22 21 20 19 18 17 16
BYP_WARM_RST RESERVED
R/W-0h R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-234 CTRLMMR_MAIN_PLL2_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31 BYPASS_SW_OVRD R/W 0h

PLL Bypass warm reset software override
This bit has no effect on PLL operation as MAIN PLL2 is reset isolated and exit from bypass mode (in the case of a Thermal reset) is always hardware controlled.

30-24 RESERVED R 0h

Reserved

23 BYP_WARM_RST R/W 0h

PLL bypass mode after warm reset.
This bit is cleared to 1'b0 when a MAIN warm reset occurs which will cause MAIN PLL2 to exit bypass mode after reset exit. Setting this bit will have no effect on PLL behaviot. Because MAIN PLL2 is warm reset insensitive, bypass mode will only be entered (and exited) in the case of a Thermal reset event.

22-0 RESERVED R 0h

Reserved

1.1.5.94 CTRLMMR_MAIN_PLL8_CLKSEL Register (Proxy0 Offset = 8080h; Proxy1 Offset = A080h) [reset = 800000h]

CTRLMMR_MAIN_PLL8_CLKSEL is shown in Figure 5-110 and described in Table 5-236.

Return to Summary Table.

Controls the clock source for MAIN voltage domain PLL8.

Table 5-235 CTRLMMR_MAIN_PLL8_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8080h 4300 A080h
Figure 5-110 CTRLMMR_MAIN_PLL8_CLKSEL Register
31 30 29 28 27 26 25 24
BYPASS_SW_OVRD RESERVED
R/W-0h R-0h
23 22 21 20 19 18 17 16
BYP_WARM_RST RESERVED
R/W-1h R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-236 CTRLMMR_MAIN_PLL8_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31 BYPASS_SW_OVRD R/W 0h

PLL Bypass warm reset software override
When set, enables software control of exit from bypass mode on a main_reset_z for MAIN PLL8. This bit must not be set until after the corresponding byp_warm_rst bit has been cleared or the PLL will immediately enter bypass mode.

30-24 RESERVED R 0h

Reserved

23 BYP_WARM_RST R/W 1h

PLL bypass mode after warm reset.
This bit is only valid when bypass_sw_ovrd is set to 1'b1 to enable bypass software override.
This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL8 in bypass mode after reset exit until cleared by software.
1'b0 = Exit bypass mode (based on MAIN PLL8_CTRL_bypass_en bit value)
1'b1 = Maintain bypass mode.

22-0 RESERVED R 0h

Reserved

1.1.5.95 CTRLMMR_MAIN_PLL12_CLKSEL Register (Proxy0 Offset = 8090h; Proxy1 Offset = A090h) [reset = 800000h]

CTRLMMR_MAIN_PLL12_CLKSEL is shown in Figure 5-111 and described in Table 5-238.

Return to Summary Table.

Controls the clock source for MAIN voltage domain PLL12.

Table 5-237 CTRLMMR_MAIN_PLL12_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8090h 4300 A090h
Figure 5-111 CTRLMMR_MAIN_PLL12_CLKSEL Register
31 30 29 28 27 26 25 24
BYPASS_SW_OVRD RESERVED
R/W-0h R-0h
23 22 21 20 19 18 17 16
BYP_WARM_RST RESERVED
R/W-1h R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-238 CTRLMMR_MAIN_PLL12_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31 BYPASS_SW_OVRD R/W 0h

PLL Bypass warm reset software override
When set, enables software control of exit from bypass mode on a main_reset_z for MAIN PLL12. This bit must not be set until after the corresponding byp_warm_rst bit has been cleared or the PLL will immediately enter bypass mode.

30-24 RESERVED R 0h

Reserved

23 BYP_WARM_RST R/W 1h

PLL bypass mode after warm reset.
This bit is only valid when bypass_sw_ovrd is set to 1'b1 to enable bypass software override.
This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL12 in bypass mode after reset exit until cleared by software.
1'b0 = Exit bypass mode (based on MAIN PLL12_CTRL_bypass_en bit value)
1'b1 = Maintain bypass mode.

22-0 RESERVED R 0h

Reserved

1.1.5.96 CTRLMMR_MAIN_PLL14_CLKSEL Register (Proxy0 Offset = 8098h; Proxy1 Offset = A098h) [reset = 800000h]

CTRLMMR_MAIN_PLL14_CLKSEL is shown in Figure 5-112 and described in Table 5-240.

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Controls the clock source for MAIN voltage domain PLL14.

Table 5-239 CTRLMMR_MAIN_PLL14_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8098h 4300 A098h
Figure 5-112 CTRLMMR_MAIN_PLL14_CLKSEL Register
31 30 29 28 27 26 25 24
BYPASS_SW_OVRD RESERVED
R/W-0h R-0h
23 22 21 20 19 18 17 16
BYP_WARM_RST RESERVED
R/W-1h R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-240 CTRLMMR_MAIN_PLL14_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31 BYPASS_SW_OVRD R/W 0h

PLL Bypass warm reset software override
When set, enables software control of exit from bypass mode on a main_reset_z for MAIN PLL14. This bit must not be set until after the corresponding byp_warm_rst bit has been cleared or the PLL will immediately enter bypass mode.

30-24 RESERVED R 0h

Reserved

23 BYP_WARM_RST R/W 1h

PLL bypass mode after warm reset.
This bit is only valid when bypass_sw_ovrd is set to 1'b1 to enable bypass software override.
This bit is set (1'b1) when a MAIN warm reset occurs and will keep MAIN PLL14 in bypass mode after reset exit until cleared by software.
1'b0 = Exit bypass mode (based on MAIN PLL14_CTRL_bypass_en bit value)
1'b1 = Maintain bypass mode.

22-0 RESERVED R 0h

Reserved

1.1.5.97 CTRLMMR_PCIE0_CLKSEL Register (Proxy0 Offset = 8120h; Proxy1 Offset = A120h) [reset = 0h]

CTRLMMR_PCIE0_CLKSEL is shown in Figure 5-113 and described in Table 5-242.

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Selects PCIe0 functional clock sources.

Table 5-241 CTRLMMR_PCIE0_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8120h 4300 A120h
Figure 5-113 CTRLMMR_PCIE0_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CPTS_CLKSEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-242 CTRLMMR_PCIE0_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-3 RESERVED R 0h

Reserved

2-0 CPTS_CLKSEL R/W 0h

Selects the clock source for the PCIE0 Common Platform Time Stamp module

0h - MAIN_PLL2_HSDIV5_CLKOUT

1h - MAIN_PLL0_HSDIV6_CLKOUT

2h - CPSW3G_CPTS_RFT_CLK (Pin)

3h - CPTS_RFT_CLK (Pin)

4h - MCU_EXT_REFCLK0 (Pin)

5h - EXT_REFCLK1 (Pin)

6h - SERDES0_IP1_LN0_TXMCLK

7h - MAIN_SYSCLK0

1.1.5.98 CTRLMMR_CPSW_CLKSEL Register (Proxy0 Offset = 8140h; Proxy1 Offset = A140h) [reset = 0h]

CTRLMMR_CPSW_CLKSEL is shown in Figure 5-114 and described in Table 5-244.

Return to Summary Table.

Selects the CP Switch clock sources.

Table 5-243 CTRLMMR_CPSW_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8140h 4300 A140h
Figure 5-114 CTRLMMR_CPSW_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CPTS_CLKSEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-244 CTRLMMR_CPSW_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3-0 CPTS_CLKSEL R/W 0h

Selects the clock source for the CPSW Ethernet switch Common Platform Time Stamp module

0h - MAIN_PLL2_HSDIV5_CLKOUT

1h - MAIN_PLL0_HSDIV6_CLKOUT

2h - CPSW3G_CPTS_RFT_CLK (Pin)

3h - CPTS_RFT_CLK (Pin)

4h - MCU_EXT_REFCLK0 (Pin)

5h - EXT_REFCLK1 (Pin)

6h - SERDES0_IP1_LN0_TXMCLK

7h - MAIN_SYSCLK0

1.1.5.99 CTRLMMR_CPTS_CLKSEL Register (Proxy0 Offset = 8150h; Proxy1 Offset = A150h) [reset = 0h]

CTRLMMR_CPTS_CLKSEL is shown in Figure 5-115 and described in Table 5-246.

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Selects the clock source for the Common Platform Time Sync Module.

Table 5-245 CTRLMMR_CPTS_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8150h 4300 A150h
Figure 5-115 CTRLMMR_CPTS_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CPTS_CLKSEL_CPTS_CLKSEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-246 CTRLMMR_CPTS_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-3 RESERVED R 0h

Reserved

2-0 CPTS_CLKSEL_CPTS_CLKSEL R/W 0h

Selects the clock source for the SoC Common Platform Time Stamp module

0h - MAIN_PLL2_HSDIV5_CLKOUT

1h - MAIN_PLL0_HSDIV6_CLKOUT

2h - CPSW3G_CPTS_RFT_CLK (Pin)

3h - CPTS_RFT_CLK (Pin)

4h - MCU_EXT_REFCLK0 (Pin)

5h - EXT_REFCLK1 (Pin)

6h - SERDES0_IP1_LN0_TXMCLK

7h - MAIN_SYSCLK0

1.1.5.100 CTRLMMR_EMMC0_CLKSEL Register (Proxy0 Offset = 8160h; Proxy1 Offset = A160h) [reset = 0h]

CTRLMMR_EMMC0_CLKSEL is shown in Figure 5-116 and described in Table 5-248.

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Selects the functional clock source for 8-bit eMMC0.

Table 5-247 CTRLMMR_EMMC0_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8160h 4300 A160h
Figure 5-116 CTRLMMR_EMMC0_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED EMMCSD0_REFCLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-248 CTRLMMR_EMMC0_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-1 RESERVED R 0h

Reserved

0 EMMCSD0_REFCLK_SEL R/W 0h

eMMC XIN_CLK selection
0h - MAIN_PLL0_HSDIV5_CLKOUT
1h - MAIN_PLL2_HSDIV2_CLKOUT

1.1.5.101 CTRLMMR_EMMC1_CLKSEL Register (Proxy0 Offset = 8168h; Proxy1 Offset = A168h) [reset = 1h]

CTRLMMR_EMMC1_CLKSEL is shown in Figure 5-117 and described in Table 5-250.

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Selects the functional clock source for 4-bit eMMC1.

Table 5-249 CTRLMMR_EMMC1_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8168h 4300 A168h
Figure 5-117 CTRLMMR_EMMC1_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED EMMCSD1_IO_CLKLB_SEL
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED EMMCSD1_REFCLK_SEL
R-0h R/W-1h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-250 CTRLMMR_EMMC1_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 EMMCSD1_IO_CLKLB_SEL R/W 0h

eMMC IO Clock Selection:
0h - Loopback from Unbonded Pad MMCSD1_CLKLB
1h - Loopback from IO Pin MMCSD1_CLK

15-1 RESERVED R 0h

Reserved

0 EMMCSD1_REFCLK_SEL R/W 1h

eMMC XIN_CLK selection
0h - MAIN_PLL0_HSDIV5_CLKOUT
1h - MAIN_PLL2_HSDIV2_CLKOUT

1.1.5.102 CTRLMMR_GPMC_CLKSEL Register (Proxy0 Offset = 8180h; Proxy1 Offset = A180h) [reset = 0h]

CTRLMMR_GPMC_CLKSEL is shown in Figure 5-118 and described in Table 5-252.

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Selects the bus and functional clock source for the GPMC module. This allows the GPMC to run asynchronously to the bus fabric in order to optimize parallel port performance.

Table 5-251 CTRLMMR_GPMC_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8180h 4300 A180h
Figure 5-118 CTRLMMR_GPMC_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-252 CTRLMMR_GPMC_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-1 RESERVED R 0h

Reserved

0 CLK_SEL R/W 0h

Selects the GPMC clock source
0h - MAIN_PLL0_HSDIV3_CLKOUT
1h - MAIN_PLL2_HSDIV3_CLKOUT

1.1.5.103 CTRLMMR_USB0_CLKSEL Register (Proxy0 Offset = 8190h; Proxy1 Offset = A190h) [reset = 0h]

CTRLMMR_USB0_CLKSEL is shown in Figure 5-119 and described in Table 5-254.

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Selects the functional clock sources for USB0.

Table 5-253 CTRLMMR_USB0_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8190h 4300 A190h
Figure 5-119 CTRLMMR_USB0_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED REFCLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-254 CTRLMMR_USB0_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-1 RESERVED R 0h

Reserved

0 REFCLK_SEL R/W 0h

Selects the clock source for the USB0 ref_clk.
0h - Use HFOSC0_CLKOUT
1h - Use MAIN_PLL2_HSDIV4_CLKOUT

1.1.5.104 CTRLMMR_TIMER0_CLKSEL Register (Proxy0 Offset = 81B0h; Proxy1 Offset = A1B0h) [reset = 0h]

CTRLMMR_TIMER0_CLKSEL is shown in Figure 5-120 and described in Table 5-256.

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Timer0 functional clock selection control.

Table 5-255 CTRLMMR_TIMER0_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 81B0h 4300 A1B0h
Figure 5-120 CTRLMMR_TIMER0_CLKSEL Register
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 CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-256 CTRLMMR_TIMER0_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3-0 CLK_SEL R/W 0h

Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK)

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - MAIN_PLL0_HSDIV7_CLKOUT

3h - CLK_12M_RC

4h - MCU_EXT_REFCLK0 (pin)

5h - EXT_REFCLK1 (pin)

6h - CPTS_RFT_CLK (pin)

7h - CPSW3G_CPTS_RFT_CLK

8h - MAIN_PLL1_HSDIV3_CLKOUT

9h - MAIN_PLL2_HSDIV6_CLKOUT

Ah - CPSW3G_CPTS_GENF0

Bh - CPSW3G_CPTS_GENF1

Ch - CPTS_GENF1

Dh - CPTS_GENF2

Eh - CPTS_GENF3

Fh - CPTS_GENF4

1.1.5.105 CTRLMMR_TIMER1_CLKSEL Register (Proxy0 Offset = 81B4h; Proxy1 Offset = A1B4h) [reset = 0h]

CTRLMMR_TIMER1_CLKSEL is shown in Figure 5-121 and described in Table 5-258.

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Timer1 functional clock selection control.

Table 5-257 CTRLMMR_TIMER1_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 81B4h 4300 A1B4h
Figure 5-121 CTRLMMR_TIMER1_CLKSEL Register
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 CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-258 CTRLMMR_TIMER1_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3-0 CLK_SEL R/W 0h

Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK)

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - MAIN_PLL0_HSDIV7_CLKOUT

3h - CLK_12M_RC

4h - MCU_EXT_REFCLK0 (pin)

5h - EXT_REFCLK1 (pin)

6h - CPTS_RFT_CLK (pin)

7h - CPSW3G_CPTS_RFT_CLK

8h - MAIN_PLL1_HSDIV3_CLKOUT

9h - MAIN_PLL2_HSDIV6_CLKOUT

Ah - CPSW3G_CPTS_GENF0

Bh - CPSW3G_CPTS_GENF1

Ch - CPTS_GENF1

Dh - CPTS_GENF2

Eh - CPTS_GENF3

Fh - CPTS_GENF4

1.1.5.106 CTRLMMR_TIMER2_CLKSEL Register (Proxy0 Offset = 81B8h; Proxy1 Offset = A1B8h) [reset = 0h]

CTRLMMR_TIMER2_CLKSEL is shown in Figure 5-122 and described in Table 5-260.

Return to Summary Table.

Timer2 functional clock selection control.

Table 5-259 CTRLMMR_TIMER2_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 81B8h 4300 A1B8h
Figure 5-122 CTRLMMR_TIMER2_CLKSEL Register
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 CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-260 CTRLMMR_TIMER2_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3-0 CLK_SEL R/W 0h

Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK)

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - MAIN_PLL0_HSDIV7_CLKOUT

3h - CLK_12M_RC

4h - MCU_EXT_REFCLK0 (pin)

5h - EXT_REFCLK1 (pin)

6h - CPTS_RFT_CLK (pin)

7h - CPSW3G_CPTS_RFT_CLK

8h - MAIN_PLL1_HSDIV3_CLKOUT

9h - MAIN_PLL2_HSDIV6_CLKOUT

Ah - CPSW3G_CPTS_GENF0

Bh - CPSW3G_CPTS_GENF1

Ch - CPTS_GENF1

Dh - CPTS_GENF2

Eh - CPTS_GENF3

Fh - CPTS_GENF4

1.1.5.107 CTRLMMR_TIMER3_CLKSEL Register (Proxy0 Offset = 81BCh; Proxy1 Offset = A1BCh) [reset = 0h]

CTRLMMR_TIMER3_CLKSEL is shown in Figure 5-123 and described in Table 5-262.

Return to Summary Table.

Timer3 functional clock selection control.

Table 5-261 CTRLMMR_TIMER3_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 81BCh 4300 A1BCh
Figure 5-123 CTRLMMR_TIMER3_CLKSEL Register
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 CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-262 CTRLMMR_TIMER3_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3-0 CLK_SEL R/W 0h

Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK)

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - MAIN_PLL0_HSDIV7_CLKOUT

3h - CLK_12M_RC

4h - MCU_EXT_REFCLK0 (pin)

5h - EXT_REFCLK1 (pin)

6h - CPTS_RFT_CLK (pin)

7h - CPSW3G_CPTS_RFT_CLK

8h - MAIN_PLL1_HSDIV3_CLKOUT

9h - MAIN_PLL2_HSDIV6_CLKOUT

Ah - CPSW3G_CPTS_GENF0

Bh - CPSW3G_CPTS_GENF1

Ch - CPTS_GENF1

Dh - CPTS_GENF2

Eh - CPTS_GENF3

Fh - CPTS_GENF4

1.1.5.108 CTRLMMR_TIMER4_CLKSEL Register (Proxy0 Offset = 81C0h; Proxy1 Offset = A1C0h) [reset = 0h]

CTRLMMR_TIMER4_CLKSEL is shown in Figure 5-124 and described in Table 5-264.

Return to Summary Table.

Timer4 functional clock selection control.

Table 5-263 CTRLMMR_TIMER4_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 81C0h 4300 A1C0h
Figure 5-124 CTRLMMR_TIMER4_CLKSEL Register
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 CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-264 CTRLMMR_TIMER4_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3-0 CLK_SEL R/W 0h

Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK)

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - MAIN_PLL0_HSDIV7_CLKOUT

3h - CLK_12M_RC

4h - MCU_EXT_REFCLK0 (pin)

5h - EXT_REFCLK1 (pin)

6h - CPTS_RFT_CLK (pin)

7h - CPSW3G_CPTS_RFT_CLK

8h - MAIN_PLL1_HSDIV3_CLKOUT

9h - MAIN_PLL2_HSDIV6_CLKOUT

Ah - CPSW3G_CPTS_GENF0

Bh - CPSW3G_CPTS_GENF1

Ch - CPTS_GENF1

Dh - CPTS_GENF2

Eh - CPTS_GENF3

Fh - CPTS_GENF4

1.1.5.109 CTRLMMR_TIMER5_CLKSEL Register (Proxy0 Offset = 81C4h; Proxy1 Offset = A1C4h) [reset = 0h]

CTRLMMR_TIMER5_CLKSEL is shown in Figure 5-125 and described in Table 5-266.

Return to Summary Table.

Timer5 functional clock selection control.

Table 5-265 CTRLMMR_TIMER5_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 81C4h 4300 A1C4h
Figure 5-125 CTRLMMR_TIMER5_CLKSEL Register
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 CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-266 CTRLMMR_TIMER5_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3-0 CLK_SEL R/W 0h

Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK)

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - MAIN_PLL0_HSDIV7_CLKOUT

3h - CLK_12M_RC

4h - MCU_EXT_REFCLK0 (pin)

5h - EXT_REFCLK1 (pin)

6h - CPTS_RFT_CLK (pin)

7h - CPSW3G_CPTS_RFT_CLK

8h - MAIN_PLL1_HSDIV3_CLKOUT

9h - MAIN_PLL2_HSDIV6_CLKOUT

Ah - CPSW3G_CPTS_GENF0

Bh - CPSW3G_CPTS_GENF1

Ch - CPTS_GENF1

Dh - CPTS_GENF2

Eh - CPTS_GENF3

Fh - CPTS_GENF4

1.1.5.110 CTRLMMR_TIMER6_CLKSEL Register (Proxy0 Offset = 81C8h; Proxy1 Offset = A1C8h) [reset = 0h]

CTRLMMR_TIMER6_CLKSEL is shown in Figure 5-126 and described in Table 5-268.

Return to Summary Table.

Timer6 functional clock selection control.

Table 5-267 CTRLMMR_TIMER6_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 81C8h 4300 A1C8h
Figure 5-126 CTRLMMR_TIMER6_CLKSEL Register
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 CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-268 CTRLMMR_TIMER6_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3-0 CLK_SEL R/W 0h

Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK)

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - MAIN_PLL0_HSDIV7_CLKOUT

3h - CLK_12M_RC

4h - MCU_EXT_REFCLK0 (pin)

5h - EXT_REFCLK1 (pin)

6h - CPTS_RFT_CLK (pin)

7h - CPSW3G_CPTS_RFT_CLK

8h - MAIN_PLL1_HSDIV3_CLKOUT

9h - MAIN_PLL2_HSDIV6_CLKOUT

Ah - CPSW3G_CPTS_GENF0

Bh - CPSW3G_CPTS_GENF1

Ch - CPTS_GENF1

Dh - CPTS_GENF2

Eh - CPTS_GENF3

Fh - CPTS_GENF4

1.1.5.111 CTRLMMR_TIMER7_CLKSEL Register (Proxy0 Offset = 81CCh; Proxy1 Offset = A1CCh) [reset = 0h]

CTRLMMR_TIMER7_CLKSEL is shown in Figure 5-127 and described in Table 5-270.

Return to Summary Table.

Timer7 functional clock selection control.

Table 5-269 CTRLMMR_TIMER7_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 81CCh 4300 A1CCh
Figure 5-127 CTRLMMR_TIMER7_CLKSEL Register
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 CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-270 CTRLMMR_TIMER7_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3-0 CLK_SEL R/W 0h

Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK)

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - MAIN_PLL0_HSDIV7_CLKOUT

3h - CLK_12M_RC

4h - MCU_EXT_REFCLK0 (pin)

5h - EXT_REFCLK1 (pin)

6h - CPTS_RFT_CLK (pin)

7h - CPSW3G_CPTS_RFT_CLK

8h - MAIN_PLL1_HSDIV3_CLKOUT

9h - MAIN_PLL2_HSDIV6_CLKOUT

Ah - CPSW3G_CPTS_GENF0

Bh - CPSW3G_CPTS_GENF1

Ch - CPTS_GENF1

Dh - CPTS_GENF2

Eh - CPTS_GENF3

Fh - CPTS_GENF4

1.1.5.112 CTRLMMR_TIMER8_CLKSEL Register (Proxy0 Offset = 81D0h; Proxy1 Offset = A1D0h) [reset = 0h]

CTRLMMR_TIMER8_CLKSEL is shown in Figure 5-128 and described in Table 5-272.

Return to Summary Table.

Timer8 functional clock selection control.

Table 5-271 CTRLMMR_TIMER8_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 81D0h 4300 A1D0h
Figure 5-128 CTRLMMR_TIMER8_CLKSEL Register
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 CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-272 CTRLMMR_TIMER8_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3-0 CLK_SEL R/W 0h

Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK)

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - MAIN_PLL0_HSDIV7_CLKOUT

3h - CLK_12M_RC

4h - MCU_EXT_REFCLK0 (pin)

5h - EXT_REFCLK1 (pin)

6h - CPTS_RFT_CLK (pin)

7h - CPSW3G_CPTS_RFT_CLK

8h - MAIN_PLL1_HSDIV3_CLKOUT

9h - MAIN_PLL2_HSDIV6_CLKOUT

Ah - CPSW3G_CPTS_GENF0

Bh - CPSW3G_CPTS_GENF1

Ch - CPTS_GENF1

Dh - CPTS_GENF2

Eh - CPTS_GENF3

Fh - CPTS_GENF4

1.1.5.113 CTRLMMR_TIMER9_CLKSEL Register (Proxy0 Offset = 81D4h; Proxy1 Offset = A1D4h) [reset = 0h]

CTRLMMR_TIMER9_CLKSEL is shown in Figure 5-129 and described in Table 5-274.

Return to Summary Table.

Timer9 functional clock selection control.

Table 5-273 CTRLMMR_TIMER9_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 81D4h 4300 A1D4h
Figure 5-129 CTRLMMR_TIMER9_CLKSEL Register
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 CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-274 CTRLMMR_TIMER9_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3-0 CLK_SEL R/W 0h

Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK)

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - MAIN_PLL0_HSDIV7_CLKOUT

3h - CLK_12M_RC

4h - MCU_EXT_REFCLK0 (pin)

5h - EXT_REFCLK1 (pin)

6h - CPTS_RFT_CLK (pin)

7h - CPSW3G_CPTS_RFT_CLK

8h - MAIN_PLL1_HSDIV3_CLKOUT

9h - MAIN_PLL2_HSDIV6_CLKOUT

Ah - CPSW3G_CPTS_GENF0

Bh - CPSW3G_CPTS_GENF1

Ch - CPTS_GENF1

Dh - CPTS_GENF2

Eh - CPTS_GENF3

Fh - CPTS_GENF4

1.1.5.114 CTRLMMR_TIMER10_CLKSEL Register (Proxy0 Offset = 81D8h; Proxy1 Offset = A1D8h) [reset = 0h]

CTRLMMR_TIMER10_CLKSEL is shown in Figure 5-130 and described in Table 5-276.

Return to Summary Table.

Timer10 functional clock selection control.

Table 5-275 CTRLMMR_TIMER10_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 81D8h 4300 A1D8h
Figure 5-130 CTRLMMR_TIMER10_CLKSEL Register
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 CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-276 CTRLMMR_TIMER10_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3-0 CLK_SEL R/W 0h

Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK)

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - MAIN_PLL0_HSDIV7_CLKOUT

3h - CLK_12M_RC

4h - MCU_EXT_REFCLK0 (pin)

5h - EXT_REFCLK1 (pin)

6h - CPTS_RFT_CLK (pin)

7h - CPSW3G_CPTS_RFT_CLK

8h - MAIN_PLL1_HSDIV3_CLKOUT

9h - MAIN_PLL2_HSDIV6_CLKOUT

Ah - CPSW3G_CPTS_GENF0

Bh - CPSW3G_CPTS_GENF1

Ch - CPTS_GENF1

Dh - CPTS_GENF2

Eh - CPTS_GENF3

Fh - CPTS_GENF4

1.1.5.115 CTRLMMR_TIMER11_CLKSEL Register (Proxy0 Offset = 81DCh; Proxy1 Offset = A1DCh) [reset = 0h]

CTRLMMR_TIMER11_CLKSEL is shown in Figure 5-131 and described in Table 5-278.

Return to Summary Table.

Timer11 functional clock selection control.

Table 5-277 CTRLMMR_TIMER11_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 81DCh 4300 A1DCh
Figure 5-131 CTRLMMR_TIMER11_CLKSEL Register
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 CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-278 CTRLMMR_TIMER11_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-4 RESERVED R 0h

Reserved

3-0 CLK_SEL R/W 0h

Timer functional clock input select mux control (Reserved values default to HFOSC0_CLK)

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - MAIN_PLL0_HSDIV7_CLKOUT

3h - CLK_12M_RC

4h - MCU_EXT_REFCLK0 (pin)

5h - EXT_REFCLK1 (pin)

6h - CPTS_RFT_CLK (pin)

7h - CPSW3G_CPTS_RFT_CLK

8h - MAIN_PLL1_HSDIV3_CLKOUT

9h - MAIN_PLL2_HSDIV6_CLKOUT

Ah - CPSW3G_CPTS_GENF0

Bh - CPSW3G_CPTS_GENF1

Ch - CPTS_GENF1

Dh - CPTS_GENF2

Eh - CPTS_GENF3

Fh - CPTS_GENF4

1.1.5.116 CTRLMMR_SPI0_CLKSEL Register (Proxy0 Offset = 8200h; Proxy1 Offset = A200h) [reset = 0h]

CTRLMMR_SPI0_CLKSEL is shown in Figure 5-132 and described in Table 5-280.

Return to Summary Table.

SPI0 clock control.

Table 5-279 CTRLMMR_SPI0_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8200h 4300 A200h
Figure 5-132 CTRLMMR_SPI0_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED MSTR_LB_CLKSEL
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-280 CTRLMMR_SPI0_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 MSTR_LB_CLKSEL R/W 0h

Master mode receive capture clock loopback selection
0h - Internal clock loopback
1h - Loopback from pad

15-0 RESERVED R 0h

Reserved

1.1.5.117 CTRLMMR_SPI1_CLKSEL Register (Proxy0 Offset = 8204h; Proxy1 Offset = A204h) [reset = 0h]

CTRLMMR_SPI1_CLKSEL is shown in Figure 5-133 and described in Table 5-282.

Return to Summary Table.

SPI1 clock control.

Table 5-281 CTRLMMR_SPI1_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8204h 4300 A204h
Figure 5-133 CTRLMMR_SPI1_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED MSTR_LB_CLKSEL
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-282 CTRLMMR_SPI1_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 MSTR_LB_CLKSEL R/W 0h

Master mode receive capture clock loopback selection
0h - Internal clock loopback
1h - Loopback from pad

15-0 RESERVED R 0h

Reserved

1.1.5.118 CTRLMMR_SPI2_CLKSEL Register (Proxy0 Offset = 8208h; Proxy1 Offset = A208h) [reset = 0h]

CTRLMMR_SPI2_CLKSEL is shown in Figure 5-134 and described in Table 5-284.

Return to Summary Table.

SPI2 clock control.

Table 5-283 CTRLMMR_SPI2_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8208h 4300 A208h
Figure 5-134 CTRLMMR_SPI2_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED MSTR_LB_CLKSEL
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-284 CTRLMMR_SPI2_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 MSTR_LB_CLKSEL R/W 0h

Master mode receive capture clock loopback selection
0h - Internal clock loopback
1h - Loopback from pad

15-0 RESERVED R 0h

Reserved

1.1.5.119 CTRLMMR_SPI3_CLKSEL Register (Proxy0 Offset = 820Ch; Proxy1 Offset = A20Ch) [reset = 0h]

CTRLMMR_SPI3_CLKSEL is shown in Figure 5-135 and described in Table 5-286.

Return to Summary Table.

SPI3 clock control.

Table 5-285 CTRLMMR_SPI3_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 820Ch 4300 A20Ch
Figure 5-135 CTRLMMR_SPI3_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED MSTR_LB_CLKSEL
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-286 CTRLMMR_SPI3_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 MSTR_LB_CLKSEL R/W 0h

Master mode receive capture clock loopback selection
0h - Internal clock loopback
1h - Loopback from pad

15-0 RESERVED R 0h

Reserved

1.1.5.120 CTRLMMR_SPI4_CLKSEL Register (Proxy0 Offset = 8210h; Proxy1 Offset = A210h) [reset = 0h]

CTRLMMR_SPI4_CLKSEL is shown in Figure 5-136 and described in Table 5-288.

Return to Summary Table.

SPI4 clock control.

Table 5-287 CTRLMMR_SPI4_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8210h 4300 A210h
Figure 5-136 CTRLMMR_SPI4_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED MSTR_LB_CLKSEL
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-288 CTRLMMR_SPI4_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 MSTR_LB_CLKSEL R/W 0h

Master mode receive capture clock loopback selection
0h - Internal clock loopback
1h - Loopback from pad

15-0 RESERVED R 0h

Reserved

1.1.5.121 CTRLMMR_USART0_CLK_CTRL Register (Proxy0 Offset = 8240h; Proxy1 Offset = A240h) [reset = 3h]

CTRLMMR_USART0_CLK_CTRL is shown in Figure 5-137 and described in Table 5-290.

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Selects the clock divider of the USART0 functional clock.

Table 5-289 CTRLMMR_USART0_CLK_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8240h 4300 A240h
Figure 5-137 CTRLMMR_USART0_CLK_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED CLK_DIV_LD
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_DIV
R-0h R/W-3h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-290 CTRLMMR_USART0_CLK_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 CLK_DIV_LD R/W 0h

Load the output divider value
Writing 1 to this bit will generate a load pulse to load the USART0 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value is changed.

15-2 RESERVED R 0h

Reserved

1-0 CLK_DIV R/W 3h

Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1.

0h - Divide by 1

1h - Divide by 2

2h - Divide by 3

3h - Divide by 4

1.1.5.122 CTRLMMR_USART1_CLK_CTRL Register (Proxy0 Offset = 8244h; Proxy1 Offset = A244h) [reset = 3h]

CTRLMMR_USART1_CLK_CTRL is shown in Figure 5-138 and described in Table 5-292.

Return to Summary Table.

Selects the clock divider of the USART1 functional clock.

Table 5-291 CTRLMMR_USART1_CLK_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8244h 4300 A244h
Figure 5-138 CTRLMMR_USART1_CLK_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED CLK_DIV_LD
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_DIV
R-0h R/W-3h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-292 CTRLMMR_USART1_CLK_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 CLK_DIV_LD R/W 0h

Load the output divider value
Writing 1 to this bit will generate a load pulse to load the USART1 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value is changed.

15-2 RESERVED R 0h

Reserved

1-0 CLK_DIV R/W 3h

Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1.

0h - Divide by 1

1h - Divide by 2

2h - Divide by 3

3h - Divide by 4

1.1.5.123 CTRLMMR_USART2_CLK_CTRL Register (Proxy0 Offset = 8248h; Proxy1 Offset = A248h) [reset = 3h]

CTRLMMR_USART2_CLK_CTRL is shown in Figure 5-139 and described in Table 5-294.

Return to Summary Table.

Selects the clock divider of the USART2 functional clock.

Table 5-293 CTRLMMR_USART2_CLK_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8248h 4300 A248h
Figure 5-139 CTRLMMR_USART2_CLK_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED CLK_DIV_LD
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_DIV
R-0h R/W-3h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-294 CTRLMMR_USART2_CLK_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 CLK_DIV_LD R/W 0h

Load the output divider value
Writing 1 to this bit will generate a load pulse to load the USART2 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value is changed.

15-2 RESERVED R 0h

Reserved

1-0 CLK_DIV R/W 3h

Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1.

0h - Divide by 1

1h - Divide by 2

2h - Divide by 3

3h - Divide by 4

1.1.5.124 CTRLMMR_USART3_CLK_CTRL Register (Proxy0 Offset = 824Ch; Proxy1 Offset = A24Ch) [reset = 3h]

CTRLMMR_USART3_CLK_CTRL is shown in Figure 5-140 and described in Table 5-296.

Return to Summary Table.

Selects the clock divider of the USART3 functional clock.

Table 5-295 CTRLMMR_USART3_CLK_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 824Ch 4300 A24Ch
Figure 5-140 CTRLMMR_USART3_CLK_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED CLK_DIV_LD
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_DIV
R-0h R/W-3h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-296 CTRLMMR_USART3_CLK_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 CLK_DIV_LD R/W 0h

Load the output divider value
Writing 1 to this bit will generate a load pulse to load the USART3 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value is changed.

15-2 RESERVED R 0h

Reserved

1-0 CLK_DIV R/W 3h

Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1.

0h - Divide by 1

1h - Divide by 2

2h - Divide by 3

3h - Divide by 4

1.1.5.125 CTRLMMR_USART4_CLK_CTRL Register (Proxy0 Offset = 8250h; Proxy1 Offset = A250h) [reset = 3h]

CTRLMMR_USART4_CLK_CTRL is shown in Figure 5-141 and described in Table 5-298.

Return to Summary Table.

Selects the clock divider of the USART4 functional clock.

Table 5-297 CTRLMMR_USART4_CLK_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8250h 4300 A250h
Figure 5-141 CTRLMMR_USART4_CLK_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED CLK_DIV_LD
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_DIV
R-0h R/W-3h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-298 CTRLMMR_USART4_CLK_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 CLK_DIV_LD R/W 0h

Load the output divider value
Writing 1 to this bit will generate a load pulse to load the USART4 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value is changed.

15-2 RESERVED R 0h

Reserved

1-0 CLK_DIV R/W 3h

Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1.

0h - Divide by 1

1h - Divide by 2

2h - Divide by 3

3h - Divide by 4

1.1.5.126 CTRLMMR_USART5_CLK_CTRL Register (Proxy0 Offset = 8254h; Proxy1 Offset = A254h) [reset = 3h]

CTRLMMR_USART5_CLK_CTRL is shown in Figure 5-142 and described in Table 5-300.

Return to Summary Table.

Selects the clock divider of the USART5 functional clock.

Table 5-299 CTRLMMR_USART5_CLK_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8254h 4300 A254h
Figure 5-142 CTRLMMR_USART5_CLK_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED CLK_DIV_LD
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_DIV
R-0h R/W-3h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-300 CTRLMMR_USART5_CLK_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 CLK_DIV_LD R/W 0h

Load the output divider value
Writing 1 to this bit will generate a load pulse to load the USART5 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value is changed.

15-2 RESERVED R 0h

Reserved

1-0 CLK_DIV R/W 3h

Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1.

0h - Divide by 1

1h - Divide by 2

2h - Divide by 3

3h - Divide by 4

1.1.5.127 CTRLMMR_USART6_CLK_CTRL Register (Proxy0 Offset = 8258h; Proxy1 Offset = A258h) [reset = 3h]

CTRLMMR_USART6_CLK_CTRL is shown in Figure 5-143 and described in Table 5-302.

Return to Summary Table.

Selects the clock divider of the USART6 functional clock.

Table 5-301 CTRLMMR_USART6_CLK_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8258h 4300 A258h
Figure 5-143 CTRLMMR_USART6_CLK_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED CLK_DIV_LD
R-0h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_DIV
R-0h R/W-3h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-302 CTRLMMR_USART6_CLK_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-17 RESERVED R 0h

Reserved

16 CLK_DIV_LD R/W 0h

Load the output divider value
Writing 1 to this bit will generate a load pulse to load the USART6 clock programmable divider value. This bit can be cleared but must not be set in the same write cycle in which the clk_div value is changed.

15-2 RESERVED R 0h

Reserved

1-0 CLK_DIV R/W 3h

Selects the clock divider value. Supports divide values of 1 to 4 Default is /4. To load the new divider value the clk_div_ld bit must be cleared and then set to 1.

0h - Divide by 1

1h - Divide by 2

2h - Divide by 3

3h - Divide by 4

1.1.5.128 CTRLMMR_USART0_CLKSEL Register (Proxy0 Offset = 8280h; Proxy1 Offset = A280h) [reset = 0h]

CTRLMMR_USART0_CLKSEL is shown in Figure 5-144 and described in Table 5-304.

Return to Summary Table.

Selects the clock source for USART0 functional clock.

Table 5-303 CTRLMMR_USART0_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8280h 4300 A280h
Figure 5-144 CTRLMMR_USART0_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-304 CTRLMMR_USART0_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-1 RESERVED R 0h

Reserved

0 CLK_SEL R/W 0h

Selects the clock source for UART0:
0 = Clock Divider Controlled by CTRLMMR_USART0_CLK_CTRL is the clock source for USART0
1 = MAIN_PLL1_HSDIV1_CLKOUT is the clock source for USART0

1.1.5.129 CTRLMMR_USART1_CLKSEL Register (Proxy0 Offset = 8284h; Proxy1 Offset = A284h) [reset = 0h]

CTRLMMR_USART1_CLKSEL is shown in Figure 5-145 and described in Table 5-306.

Return to Summary Table.

Selects the clock source for USART1 functional clock.

Table 5-305 CTRLMMR_USART1_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8284h 4300 A284h
Figure 5-145 CTRLMMR_USART1_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-306 CTRLMMR_USART1_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-1 RESERVED R 0h

Reserved

0 CLK_SEL R/W 0h

Selects the clock source for UART1:
0 = Clock Divider Controlled by CTRLMMR_USART1_CLK_CTRL is the clock source for USART1
1 = MAIN_PLL1_HSDIV1_CLKOUT is the clock source for USART1

1.1.5.130 CTRLMMR_USART2_CLKSEL Register (Proxy0 Offset = 8288h; Proxy1 Offset = A288h) [reset = 0h]

CTRLMMR_USART2_CLKSEL is shown in Figure 5-146 and described in Table 5-308.

Return to Summary Table.

Selects the clock source for USART2 functional clock.

Table 5-307 CTRLMMR_USART2_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8288h 4300 A288h
Figure 5-146 CTRLMMR_USART2_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-308 CTRLMMR_USART2_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-1 RESERVED R 0h

Reserved

0 CLK_SEL R/W 0h

Selects the clock source for UART2:
0 = Clock Divider Controlled by CTRLMMR_USART2_CLK_CTRL is the clock source for USART2
1 = MAIN_PLL1_HSDIV1_CLKOUT is the clock source for USART2

1.1.5.131 CTRLMMR_USART3_CLKSEL Register (Proxy0 Offset = 828Ch; Proxy1 Offset = A28Ch) [reset = 0h]

CTRLMMR_USART3_CLKSEL is shown in Figure 5-147 and described in Table 5-310.

Return to Summary Table.

Selects the clock source for USART3 functional clock.

Table 5-309 CTRLMMR_USART3_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 828Ch 4300 A28Ch
Figure 5-147 CTRLMMR_USART3_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-310 CTRLMMR_USART3_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-1 RESERVED R 0h

Reserved

0 CLK_SEL R/W 0h

Selects the clock source for UART3:
0 = Clock Divider Controlled by CTRLMMR_USART3_CLK_CTRL is the clock source for USART3
1 = MAIN_PLL1_HSDIV1_CLKOUT is the clock source for USART3

1.1.5.132 CTRLMMR_USART4_CLKSEL Register (Proxy0 Offset = 8290h; Proxy1 Offset = A290h) [reset = 0h]

CTRLMMR_USART4_CLKSEL is shown in Figure 5-148 and described in Table 5-312.

Return to Summary Table.

Selects the clock source for USART4 functional clock.

Table 5-311 CTRLMMR_USART4_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8290h 4300 A290h
Figure 5-148 CTRLMMR_USART4_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-312 CTRLMMR_USART4_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-1 RESERVED R 0h

Reserved

0 CLK_SEL R/W 0h

Selects the clock source for UART4:
0 = Clock Divider Controlled by CTRLMMR_USART4_CLK_CTRL is the clock source for USART4
1 = MAIN_PLL1_HSDIV1_CLKOUT is the clock source for USART4

1.1.5.133 CTRLMMR_USART5_CLKSEL Register (Proxy0 Offset = 8294h; Proxy1 Offset = A294h) [reset = 0h]

CTRLMMR_USART5_CLKSEL is shown in Figure 5-149 and described in Table 5-314.

Return to Summary Table.

Selects the clock source for USART5 functional clock.

Table 5-313 CTRLMMR_USART5_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8294h 4300 A294h
Figure 5-149 CTRLMMR_USART5_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-314 CTRLMMR_USART5_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-1 RESERVED R 0h

Reserved

0 CLK_SEL R/W 0h

Selects the clock source for UART5:
0 = Clock Divider Controlled by CTRLMMR_USART5_CLK_CTRL is the clock source for USART5
1 = MAIN_PLL1_HSDIV1_CLKOUT is the clock source for USART5

1.1.5.134 CTRLMMR_USART6_CLKSEL Register (Proxy0 Offset = 8298h; Proxy1 Offset = A298h) [reset = 0h]

CTRLMMR_USART6_CLKSEL is shown in Figure 5-150 and described in Table 5-316.

Return to Summary Table.

Selects the clock source for USART6 functional clock.

Table 5-315 CTRLMMR_USART6_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8298h 4300 A298h
Figure 5-150 CTRLMMR_USART6_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-316 CTRLMMR_USART6_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-1 RESERVED R 0h

Reserved

0 CLK_SEL R/W 0h

Selects the clock source for UART6:
0 = Clock Divider Controlled by CTRLMMR_USART6_CLK_CTRL is the clock source for USART6
1 = MAIN_PLL1_HSDIV1_CLKOUT is the clock source for USART6

1.1.5.135 CTRLMMR_WWD0_CLKSEL Register (Proxy0 Offset = 8380h; Proxy1 Offset = A380h) [reset = 0h]

CTRLMMR_WWD0_CLKSEL is shown in Figure 5-151 and described in Table 5-318.

Return to Summary Table.

ARM MPU Core 0 Windowed watchdog timer functional clock selection control.

Table 5-317 CTRLMMR_WWD0_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8380h 4300 A380h
Figure 5-151 CTRLMMR_WWD0_CLKSEL Register
31 30 29 28 27 26 25 24
WRTLOCK RESERVED
R/W-0h R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-318 CTRLMMR_WWD0_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31 WRTLOCK R/W 0h

When set, locks CTRLMMR_WWD0_CLKSEL from further writes until the next module reset.

30-2 RESERVED R 0h

Reserved

1-0 CLK_SEL R/W 0h

Windowed watchdog timer functional clock input select mux control

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - CLK_12M_RC

3h - CLK_32K

1.1.5.136 CTRLMMR_WWD1_CLKSEL Register (Proxy0 Offset = 8384h; Proxy1 Offset = A384h) [reset = 0h]

CTRLMMR_WWD1_CLKSEL is shown in Figure 5-152 and described in Table 5-320.

Return to Summary Table.

ARM MPU Core 1 Windowed watchdog timer functional clock selection control.

Table 5-319 CTRLMMR_WWD1_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8384h 4300 A384h
Figure 5-152 CTRLMMR_WWD1_CLKSEL Register
31 30 29 28 27 26 25 24
WRTLOCK RESERVED
R/W-0h R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-320 CTRLMMR_WWD1_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31 WRTLOCK R/W 0h

When set, locks CTRLMMR_WWD1_CLKSEL from further writes until the next module reset.

30-2 RESERVED R 0h

Reserved

1-0 CLK_SEL R/W 0h

Windowed watchdog timer functional clock input select mux control

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - CLK_12M_RC

3h - CLK_32K

1.1.5.137 CTRLMMR_WWD8_CLKSEL Register (Proxy0 Offset = 83A0h; Proxy1 Offset = A3A0h) [reset = 0h]

CTRLMMR_WWD8_CLKSEL is shown in Figure 5-153 and described in Table 5-322.

Return to Summary Table.

Main R5 Core 0 Windowed watchdog timer functional clock selection control.

Table 5-321 CTRLMMR_WWD8_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 83A0h 4300 A3A0h
Figure 5-153 CTRLMMR_WWD8_CLKSEL Register
31 30 29 28 27 26 25 24
WRTLOCK RESERVED
R/W-0h R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-322 CTRLMMR_WWD8_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31 WRTLOCK R/W 0h

When set, locks CTRLMMR_WWD8_CLKSEL from further writes until the next module reset.

30-2 RESERVED R 0h

Reserved

1-0 CLK_SEL R/W 0h

Windowed watchdog timer functional clock input select mux control

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - CLK_12M_RC

3h - CLK_32K

1.1.5.138 CTRLMMR_WWD9_CLKSEL Register (Proxy0 Offset = 83A4h; Proxy1 Offset = A3A4h) [reset = 0h]

CTRLMMR_WWD9_CLKSEL is shown in Figure 5-154 and described in Table 5-324.

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Main R5 Core 1 Windowed watchdog timer functional clock selection control.

Table 5-323 CTRLMMR_WWD9_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 83A4h 4300 A3A4h
Figure 5-154 CTRLMMR_WWD9_CLKSEL Register
31 30 29 28 27 26 25 24
WRTLOCK RESERVED
R/W-0h R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-324 CTRLMMR_WWD9_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31 WRTLOCK R/W 0h

When set, locks CTRLMMR_WWD9_CLKSEL from further writes until the next module reset.

30-2 RESERVED R 0h

Reserved

1-0 CLK_SEL R/W 0h

Windowed watchdog timer functional clock input select mux control

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - CLK_12M_RC

3h - CLK_32K

1.1.5.139 CTRLMMR_WWD10_CLKSEL Register (Proxy0 Offset = 83A8h; Proxy1 Offset = A3A8h) [reset = 0h]

CTRLMMR_WWD10_CLKSEL is shown in Figure 5-155 and described in Table 5-326.

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Main R5 Core 2 Windowed watchdog timer functional clock selection control.

Table 5-325 CTRLMMR_WWD10_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 83A8h 4300 A3A8h
Figure 5-155 CTRLMMR_WWD10_CLKSEL Register
31 30 29 28 27 26 25 24
WRTLOCK RESERVED
R/W-0h R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-326 CTRLMMR_WWD10_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31 WRTLOCK R/W 0h

When set, locks CTRLMMR_WWD10_CLKSEL from further writes until the next module reset.

30-2 RESERVED R 0h

Reserved

1-0 CLK_SEL R/W 0h

Windowed watchdog timer functional clock input select mux control

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - CLK_12M_RC

3h - CLK_32K

1.1.5.140 CTRLMMR_WWD11_CLKSEL Register (Proxy0 Offset = 83ACh; Proxy1 Offset = A3ACh) [reset = 0h]

CTRLMMR_WWD11_CLKSEL is shown in Figure 5-156 and described in Table 5-328.

Return to Summary Table.

Main R5 Core 3 Windowed watchdog timer functional clock selection control.

Table 5-327 CTRLMMR_WWD11_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 83ACh 4300 A3ACh
Figure 5-156 CTRLMMR_WWD11_CLKSEL Register
31 30 29 28 27 26 25 24
WRTLOCK RESERVED
R/W-0h R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-328 CTRLMMR_WWD11_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31 WRTLOCK R/W 0h

When set, locks CTRLMMR_WWD11_CLKSEL from further writes until the next module reset.

30-2 RESERVED R 0h

Reserved

1-0 CLK_SEL R/W 0h

Windowed watchdog timer functional clock input select mux control

0h - HFOSC0_CLKOUT

1h - HFOSC0_CLKOUT_32K

2h - CLK_12M_RC

3h - CLK_32K

1.1.5.141 CTRLMMR_SERDES0_CLKSEL Register (Proxy0 Offset = 8400h; Proxy1 Offset = A400h) [reset = 0h]

CTRLMMR_SERDES0_CLKSEL is shown in Figure 5-157 and described in Table 5-330.

Return to Summary Table.

Selects the clock source for Serdes0.

Table 5-329 CTRLMMR_SERDES0_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8400h 4300 A400h
Figure 5-157 CTRLMMR_SERDES0_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CORE_REFCLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-330 CTRLMMR_SERDES0_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-2 RESERVED R 0h

Reserved

1-0 CORE_REFCLK_SEL R/W 0h

Selects the source for the core_refclk input

0h - HFOSC0_CLKOUT_SERDES

1h - EXT_REFCLK1

2h - MAIN_PLL0_HSDIV8_CLKOUT

3h - MAIN_PLL2_HSDIV4_CLKOUT

1.1.5.142 CTRLMMR_MCAN0_CLKSEL Register (Proxy0 Offset = 8480h; Proxy1 Offset = A480h) [reset = 0h]

CTRLMMR_MCAN0_CLKSEL is shown in Figure 5-158 and described in Table 5-332.

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Controls the functional clock source MCAN0.

Table 5-331 CTRLMMR_MCAN0_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8480h 4300 A480h
Figure 5-158 CTRLMMR_MCAN0_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-332 CTRLMMR_MCAN0_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-2 RESERVED R 0h

Reserved

1-0 CLK_SEL R/W 0h

MAIN MCAN_CLK selection
0h - MAIN_PLL0_HSDIV2_CLKOUT
1h - MCU_EXT_REFCLK0 (pin)
2h - EXT_REFCLK0 (pin)
3h - HFOSC0_CLKOUT

1.1.5.143 CTRLMMR_MCAN1_CLKSEL Register (Proxy0 Offset = 8484h; Proxy1 Offset = A484h) [reset = 0h]

CTRLMMR_MCAN1_CLKSEL is shown in Figure 5-159 and described in Table 5-334.

Return to Summary Table.

Controls the functional clock source MCAN1.

Table 5-333 CTRLMMR_MCAN1_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8484h 4300 A484h
Figure 5-159 CTRLMMR_MCAN1_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-334 CTRLMMR_MCAN1_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-2 RESERVED R 0h

Reserved

1-0 CLK_SEL R/W 0h

MAIN MCAN_CLK selection
0h - MAIN_PLL0_HSDIV2_CLKOUT
1h - MCU_EXT_REFCLK0 (pin)
2h - EXT_REFCLK0 (pin)
3h - HFOSC0_CLKOUT

1.1.5.144 CTRLMMR_OSPI0_CLKSEL Register (Proxy0 Offset = 8500h; Proxy1 Offset = A500h) [reset = 0h]

CTRLMMR_OSPI0_CLKSEL is shown in Figure 5-160 and described in Table 5-336.

Return to Summary Table.

Controls the OSPI loopback clock source.

Table 5-335 CTRLMMR_OSPI0_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8500h 4300 A500h
Figure 5-160 CTRLMMR_OSPI0_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED LOOPCLK_SEL RESERVED CLK_SEL
R-0h R/W-0h R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-336 CTRLMMR_OSPI0_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-5 RESERVED R 0h

Reserved

4 LOOPCLK_SEL R/W 0h

OBSPI0 Loopback clock source
0h - OSPI_DQS (Pin)
1h - OSPI_LBCLKO (Pin)

3-1 RESERVED R 0h

Reserved

0 CLK_SEL R/W 0h

OSPI0 reference clock selection
0h - MAIN_PLL0_HSDIV1_CLKOUT
1h - MAIN_PLL1_HSDIV5_CLKOUT

1.1.5.145 CTRLMMR_ADC0_CLKSEL Register (Proxy0 Offset = 8510h; Proxy1 Offset = A510h) [reset = 0h]

CTRLMMR_ADC0_CLKSEL is shown in Figure 5-161 and described in Table 5-338.

Return to Summary Table.

Controls the functional clock source for the ADC0.

Table 5-337 CTRLMMR_ADC0_CLKSEL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 8510h 4300 A510h
Figure 5-161 CTRLMMR_ADC0_CLKSEL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED CLK_SEL
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-338 CTRLMMR_ADC0_CLKSEL Register Field Descriptions
Bit Field Type Reset Description
31-2 RESERVED R 0h

Reserved

1-0 CLK_SEL R/W 0h

Selects the sampling clock source for ADC0

0h - HFOSC0_CLKOUT

1h - MAIN_PLL1_HSDIV6_CLKOUT

2h - MAIN_PLL2_HSDIV8

3h - EXT_REFCLK1

1.1.5.146 CTRLMMR_LOCK2_KICK0 Register (Proxy0 Offset = 9008h; Proxy1 Offset = B008h) [reset = 0h]

CTRLMMR_LOCK2_KICK0 is shown in Figure 5-162 and described in Table 5-340.

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Lower 32-bits of Partition2 write lock key. This register must be written with the designated key value followed by a write to CTRLMMR_LOCK2_KICK1 with its key value before write-protected Partition 2 registers can be written.

Table 5-339 CTRLMMR_LOCK2_KICK0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 9008h 4300 B008h
Figure 5-162 CTRLMMR_LOCK2_KICK0 Register
31 30 29 28 27 26 25 24
KEY
R/W-0h
23 22 21 20 19 18 17 16
KEY
R/W-0h
15 14 13 12 11 10 9 8
KEY
R/W-0h
7 6 5 4 3 2 1 0
KEY UNLOCKED
R/W-0h R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-340 CTRLMMR_LOCK2_KICK0 Register Field Descriptions
Bit Field Type Reset Description
31-1 KEY R/W 0h

Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition2 registers

0 UNLOCKED R 0h

Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing.

1.1.5.147 CTRLMMR_LOCK2_KICK1 Register (Proxy0 Offset = 900Ch; Proxy1 Offset = B00Ch) [reset = 0h]

CTRLMMR_LOCK2_KICK1 is shown in Figure 5-163 and described in Table 5-342.

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Upper 32-bits of Partition 2 write lock key. This register must be written with the designated key value after a write to CTRLMMR_LOCK2_KICK0 with its key value before write-protected Partition 2 registers can be written.

Table 5-341 CTRLMMR_LOCK2_KICK1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 900Ch 4300 B00Ch
Figure 5-163 CTRLMMR_LOCK2_KICK1 Register
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
KEY
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-342 CTRLMMR_LOCK2_KICK1 Register Field Descriptions
Bit Field Type Reset Description
31-0 KEY R/W 0h

Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition2 registers

1.1.5.148 CTRLMMR_P2_CLAIM0 Register (Proxy0 Offset = 9100h; Proxy1 Offset = B100h) [reset = 0h]

CTRLMMR_P2_CLAIM0 is shown in Figure 5-164 and described in Table 5-344.

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Claim bits for Partition2 Registers.

Table 5-343 CTRLMMR_P2_CLAIM0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 9100h 4300 B100h
Figure 5-164 CTRLMMR_P2_CLAIM0 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-344 CTRLMMR_P2_CLAIM0 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x8000 + (0 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0xA000 + (0 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.149 CTRLMMR_P2_CLAIM1 Register (Proxy0 Offset = 9104h; Proxy1 Offset = B104h) [reset = 0h]

CTRLMMR_P2_CLAIM1 is shown in Figure 5-165 and described in Table 5-346.

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Claim bits for Partition2 Registers.

Table 5-345 CTRLMMR_P2_CLAIM1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 9104h 4300 B104h
Figure 5-165 CTRLMMR_P2_CLAIM1 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-346 CTRLMMR_P2_CLAIM1 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x8000 + (1 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0xA000 + (1 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.150 CTRLMMR_P2_CLAIM2 Register (Proxy0 Offset = 9108h; Proxy1 Offset = B108h) [reset = 0h]

CTRLMMR_P2_CLAIM2 is shown in Figure 5-166 and described in Table 5-348.

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Claim bits for Partition2 Registers.

Table 5-347 CTRLMMR_P2_CLAIM2 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 9108h 4300 B108h
Figure 5-166 CTRLMMR_P2_CLAIM2 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-348 CTRLMMR_P2_CLAIM2 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x8000 + (2 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0xA000 + (2 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.151 CTRLMMR_P2_CLAIM3 Register (Proxy0 Offset = 910Ch; Proxy1 Offset = B10Ch) [reset = 0h]

CTRLMMR_P2_CLAIM3 is shown in Figure 5-167 and described in Table 5-350.

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Claim bits for Partition2 Registers.

Table 5-349 CTRLMMR_P2_CLAIM3 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 910Ch 4300 B10Ch
Figure 5-167 CTRLMMR_P2_CLAIM3 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-350 CTRLMMR_P2_CLAIM3 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x8000 + (3 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0xA000 + (3 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.152 CTRLMMR_P2_CLAIM4 Register (Proxy0 Offset = 9110h; Proxy1 Offset = B110h) [reset = 0h]

CTRLMMR_P2_CLAIM4 is shown in Figure 5-168 and described in Table 5-352.

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Claim bits for Partition2 Registers.

Table 5-351 CTRLMMR_P2_CLAIM4 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 9110h 4300 B110h
Figure 5-168 CTRLMMR_P2_CLAIM4 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-352 CTRLMMR_P2_CLAIM4 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x8000 + (4 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0xA000 + (4 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.153 CTRLMMR_P2_CLAIM5 Register (Proxy0 Offset = 9114h; Proxy1 Offset = B114h) [reset = 0h]

CTRLMMR_P2_CLAIM5 is shown in Figure 5-169 and described in Table 5-354.

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Claim bits for Partition2 Registers.

Table 5-353 CTRLMMR_P2_CLAIM5 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 9114h 4300 B114h
Figure 5-169 CTRLMMR_P2_CLAIM5 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-354 CTRLMMR_P2_CLAIM5 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x8000 + (5 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0xA000 + (5 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.154 CTRLMMR_P2_CLAIM6 Register (Proxy0 Offset = 9118h; Proxy1 Offset = B118h) [reset = 0h]

CTRLMMR_P2_CLAIM6 is shown in Figure 5-170 and described in Table 5-356.

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Claim bits for Partition2 Registers.

Table 5-355 CTRLMMR_P2_CLAIM6 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 9118h 4300 B118h
Figure 5-170 CTRLMMR_P2_CLAIM6 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-356 CTRLMMR_P2_CLAIM6 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x8000 + (6 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0xA000 + (6 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.155 CTRLMMR_P2_CLAIM7 Register (Proxy0 Offset = 911Ch; Proxy1 Offset = B11Ch) [reset = 0h]

CTRLMMR_P2_CLAIM7 is shown in Figure 5-171 and described in Table 5-358.

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Claim bits for Partition2 Registers.

Table 5-357 CTRLMMR_P2_CLAIM7 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 911Ch 4300 B11Ch
Figure 5-171 CTRLMMR_P2_CLAIM7 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-358 CTRLMMR_P2_CLAIM7 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x8000 + (7 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0xA000 + (7 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.156 CTRLMMR_P2_CLAIM8 Register (Proxy0 Offset = 9120h; Proxy1 Offset = B120h) [reset = 0h]

CTRLMMR_P2_CLAIM8 is shown in Figure 5-172 and described in Table 5-360.

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Claim bits for Partition2 Registers.

Table 5-359 CTRLMMR_P2_CLAIM8 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 9120h 4300 B120h
Figure 5-172 CTRLMMR_P2_CLAIM8 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-360 CTRLMMR_P2_CLAIM8 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x8000 + (8 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0xA000 + (8 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.157 CTRLMMR_P2_CLAIM9 Register (Proxy0 Offset = 9124h; Proxy1 Offset = B124h) [reset = 0h]

CTRLMMR_P2_CLAIM9 is shown in Figure 5-173 and described in Table 5-362.

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Claim bits for Partition2 Registers.

Table 5-361 CTRLMMR_P2_CLAIM9 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 9124h 4300 B124h
Figure 5-173 CTRLMMR_P2_CLAIM9 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-362 CTRLMMR_P2_CLAIM9 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x8000 + (9 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0xA000 + (9 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.158 CTRLMMR_P2_CLAIM10 Register (Proxy0 Offset = 9128h; Proxy1 Offset = B128h) [reset = 0h]

CTRLMMR_P2_CLAIM10 is shown in Figure 5-174 and described in Table 5-364.

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Claim bits for Partition2 Registers.

Table 5-363 CTRLMMR_P2_CLAIM10 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 9128h 4300 B128h
Figure 5-174 CTRLMMR_P2_CLAIM10 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-364 CTRLMMR_P2_CLAIM10 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x8000 + (10 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0xA000 + (10 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.159 CTRLMMR_FUSE_CRC_STAT Register (Proxy0 Offset = C320h; Proxy1 Offset = E320h) [reset = X]

CTRLMMR_FUSE_CRC_STAT is shown in Figure 5-175 and described in Table 5-366.

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Indicates status of fuse chain CRC.

Table 5-365 CTRLMMR_FUSE_CRC_STAT Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 C320h 4300 E320h
Figure 5-175 CTRLMMR_FUSE_CRC_STAT Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
CRC_ERR_7 CRC_ERR_6 CRC_ERR_5 CRC_ERR_4 CRC_ERR_3 CRC_ERR_2 CRC_ERR_1 RESERVED
R-X R-X R-X R-X R-X R-X R-X R-0h
LEGEND: R = Read Only; -n = value after reset
Table 5-366 CTRLMMR_FUSE_CRC_STAT Register Field Descriptions
Bit Field Type Reset Description
31-8 RESERVED R 0h

Reserved

7 CRC_ERR_7 R X

Indicates eFuse CRC error on chain 7

6 CRC_ERR_6 R X

Indicates eFuse CRC error on chain 6

5 CRC_ERR_5 R X

Indicates eFuse CRC error on chain 5

4 CRC_ERR_4 R X

Indicates eFuse CRC error on chain 4

3 CRC_ERR_3 R X

Indicates eFuse CRC error on chain 3

2 CRC_ERR_2 R X

Indicates eFuse CRC error on chain 2

1 CRC_ERR_1 R X

Indicates eFuse CRC error on chain 1

0 RESERVED R 0h

Reserved

1.1.5.160 CTRLMMR_PBIST_EN Register (Proxy0 Offset = C400h; Proxy1 Offset = E400h) [reset = 0h]

CTRLMMR_PBIST_EN is shown in Figure 5-176 and described in Table 5-368.

Return to Summary Table.

Enables PBIST Config Modes access to memories.

Table 5-367 CTRLMMR_PBIST_EN Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 C400h 4300 E400h
Figure 5-176 CTRLMMR_PBIST_EN Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED PCIE0
R-0h R/W-0h
7 6 5 4 3 2 1 0
RESERVED USB0 RESERVED EMMC1 EMMC0
R-0h R/W-0h R-0h R/W-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-368 CTRLMMR_PBIST_EN Register Field Descriptions
Bit Field Type Reset Description
31-9 RESERVED R 0h

Reserved

8 PCIE0 R/W 0h

Enables PBIST Access to PCIE0 Memories

7-5 RESERVED R 0h

Reserved

4 USB0 R/W 0h

Enables PBIST Access to USB0 Memories

3-2 RESERVED R 0h

Reserved

1 EMMC1 R/W 0h

Enables PBIST Access to MMC1 Memories

0 EMMC0 R/W 0h

Enables PBIST Access to MMC0 Memories

1.1.5.161 CTRLMMR_LOCK3_KICK0 Register (Proxy0 Offset = D008h; Proxy1 Offset = F008h) [reset = 0h]

CTRLMMR_LOCK3_KICK0 is shown in Figure 5-177 and described in Table 5-370.

Return to Summary Table.

Lower 32-bits of Partition3 write lock key. This register must be written with the designated key value followed by a write to CTRLMMR_LOCK3_KICK1 with its key value before write-protected Partition 3 registers can be written.

Table 5-369 CTRLMMR_LOCK3_KICK0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 D008h 4300 F008h
Figure 5-177 CTRLMMR_LOCK3_KICK0 Register
31 30 29 28 27 26 25 24
KEY
R/W-0h
23 22 21 20 19 18 17 16
KEY
R/W-0h
15 14 13 12 11 10 9 8
KEY
R/W-0h
7 6 5 4 3 2 1 0
KEY UNLOCKED
R/W-0h R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-370 CTRLMMR_LOCK3_KICK0 Register Field Descriptions
Bit Field Type Reset Description
31-1 KEY R/W 0h

Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition3 registers

0 UNLOCKED R 0h

Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing.

1.1.5.162 CTRLMMR_LOCK3_KICK1 Register (Proxy0 Offset = D00Ch; Proxy1 Offset = F00Ch) [reset = 0h]

CTRLMMR_LOCK3_KICK1 is shown in Figure 5-178 and described in Table 5-372.

Return to Summary Table.

Upper 32-bits of Partition 3 write lock key. This register must be written with the designated key value after a write to CTRLMMR_LOCK3_KICK0 with its key value before write-protected Partition 3 registers can be written.

Table 5-371 CTRLMMR_LOCK3_KICK1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 D00Ch 4300 F00Ch
Figure 5-178 CTRLMMR_LOCK3_KICK1 Register
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
KEY
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-372 CTRLMMR_LOCK3_KICK1 Register Field Descriptions
Bit Field Type Reset Description
31-0 KEY R/W 0h

Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition3 registers

1.1.5.163 CTRLMMR_P3_CLAIM6 Register (Proxy0 Offset = D118h; Proxy1 Offset = F118h) [reset = 0h]

CTRLMMR_P3_CLAIM6 is shown in Figure 5-179 and described in Table 5-374.

Return to Summary Table.

Claim bits for Partition3 Registers.

Table 5-373 CTRLMMR_P3_CLAIM6 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4300 D118h 4300 F118h
Figure 5-179 CTRLMMR_P3_CLAIM6 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-374 CTRLMMR_P3_CLAIM6 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0xC000 + (6 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0xE000 + (6 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.164 CTRLMMR_CHNG_DDR4_FSP_REQ Register (Proxy0 Offset = 14000h; Proxy1 Offset = 16000h) [reset = 0h]

CTRLMMR_CHNG_DDR4_FSP_REQ is shown in Figure 5-180 and described in Table 5-376.

Return to Summary Table.

This register is used to initiate a LPDDR4 frequency set point change to the DDR Controller.

Table 5-375 CTRLMMR_CHNG_DDR4_FSP_REQ Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4301 4000h 4301 6000h
Figure 5-180 CTRLMMR_CHNG_DDR4_FSP_REQ Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED REQ
R-0h R/W-0h
7 6 5 4 3 2 1 0
RESERVED REQ_TYPE
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-376 CTRLMMR_CHNG_DDR4_FSP_REQ Register Field Descriptions
Bit Field Type Reset Description
31-9 RESERVED R 0h

Reserved

8 REQ R/W 0h

Initiate FSP frequency change

7-2 RESERVED R 0h

Reserved

1-0 REQ_TYPE R/W 0h

Frequency request type
Indicates which DDR4 frequency set point to change to

1.1.5.165 CTRLMMR_CHNG_DDR4_FSP_ACK Register (Proxy0 Offset = 14004h; Proxy1 Offset = 16004h) [reset = X]

CTRLMMR_CHNG_DDR4_FSP_ACK is shown in Figure 5-181 and described in Table 5-378.

Return to Summary Table.

This register is used by the DDR Controller to acknowledge the LPDDR4 frequency set point shange request.

Table 5-377 CTRLMMR_CHNG_DDR4_FSP_ACK Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4301 4004h 4301 6004h
Figure 5-181 CTRLMMR_CHNG_DDR4_FSP_ACK Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
ACK RESERVED ERROR
R-X R-0h R-X
LEGEND: R = Read Only; -n = value after reset
Table 5-378 CTRLMMR_CHNG_DDR4_FSP_ACK Register Field Descriptions
Bit Field Type Reset Description
31-8 RESERVED R 0h

Reserved

7 ACK R X

Frequency change acknowledge.
This bit is only valid when CHNG_DDR4_FSP_REQ_req = 1
Indication from the DDR Controller that the FSP change operation is complete
0h - FSP change operation in progress
1h - FSP change operation complete

6-1 RESERVED R 0h

Reserved

0 ERROR R X

Frequency change error
This bit is only valid when CHNG_DDR4_FSP_REQ_req = 1
0h - FSP change was sucessful
1h - FSP change was not sucessful

1.1.5.166 CTRLMMR_DDR4_FSP_CLKCHNG_REQ Register (Proxy0 Offset = 14080h; Proxy1 Offset = 16080h) [reset = X]

CTRLMMR_DDR4_FSP_CLKCHNG_REQ is shown in Figure 5-182 and described in Table 5-380.

Return to Summary Table.

This register is used by the DDR Controller to request the DDR PLL clock frequency change. This can occur as part of DDR4 initialization and training or in response to a LPDDR4 FSP change request.

Table 5-379 CTRLMMR_DDR4_FSP_CLKCHNG_REQ Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4301 4080h 4301 6080h
Figure 5-182 CTRLMMR_DDR4_FSP_CLKCHNG_REQ Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
REQ RESERVED REQ_TYPE
R-X R-0h R-X
LEGEND: R = Read Only; -n = value after reset
Table 5-380 CTRLMMR_DDR4_FSP_CLKCHNG_REQ Register Field Descriptions
Bit Field Type Reset Description
31-8 RESERVED R 0h

Reserved

7 REQ R X

DDR Controller FSP clock change request
Indicates that the DDR controller needs the DDR clock changed to the frequency indicated by the req_type field. This bit is cleared when the DDR4_FSP_CLKCHNG_ACK_ack bit is set.

6-2 RESERVED R 0h

Reserved

1-0 REQ_TYPE R X

Frequency request type
Indicates which DDR4 FSP frequency to which the DDR Controller wants the DDR clock set

1.1.5.167 CTRLMMR_DDR4_FSP_CLKCHNG_ACK Register (Proxy0 Offset = 140C0h; Proxy1 Offset = 160C0h) [reset = 0h]

CTRLMMR_DDR4_FSP_CLKCHNG_ACK is shown in Figure 5-183 and described in Table 5-382.

Return to Summary Table.

This register is used to acknowledge a DDR PLL clock frequency change to the DDR Controller.

Table 5-381 CTRLMMR_DDR4_FSP_CLKCHNG_ACK Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4301 40C0h 4301 60C0h
Figure 5-183 CTRLMMR_DDR4_FSP_CLKCHNG_ACK Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED ACK
R-0h R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-382 CTRLMMR_DDR4_FSP_CLKCHNG_ACK Register Field Descriptions
Bit Field Type Reset Description
31-1 RESERVED R 0h

Reserved

0 ACK R/W 0h

DDR FSP clock change ackowledge
This bit should be set once the DDR clock has been sucessfully changed to the value requested by DDR4_FSP_CLKCHNG_REQ_req_type. Setting this bit will clear the DDR4_FSP_CLKCHNG_REQ_req bit and the associated change request interrupt.

1.1.5.168 CTRLMMR_LOCK5_KICK0 Register (Proxy0 Offset = 15008h; Proxy1 Offset = 17008h) [reset = 0h]

CTRLMMR_LOCK5_KICK0 is shown in Figure 5-184 and described in Table 5-384.

Return to Summary Table.

Lower 32-bits of Partition5 write lock key. This register must be written with the designated key value followed by a write to CTRLMMR_LOCK5_KICK1 with its key value before write-protected Partition 5 registers can be written.

Table 5-383 CTRLMMR_LOCK5_KICK0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4301 5008h 4301 7008h
Figure 5-184 CTRLMMR_LOCK5_KICK0 Register
31 30 29 28 27 26 25 24
KEY
R/W-0h
23 22 21 20 19 18 17 16
KEY
R/W-0h
15 14 13 12 11 10 9 8
KEY
R/W-0h
7 6 5 4 3 2 1 0
KEY UNLOCKED
R/W-0h R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-384 CTRLMMR_LOCK5_KICK0 Register Field Descriptions
Bit Field Type Reset Description
31-1 KEY R/W 0h

Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition5 registers

0 UNLOCKED R 0h

Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing.

1.1.5.169 CTRLMMR_LOCK5_KICK1 Register (Proxy0 Offset = 1500Ch; Proxy1 Offset = 1700Ch) [reset = 0h]

CTRLMMR_LOCK5_KICK1 is shown in Figure 5-185 and described in Table 5-386.

Return to Summary Table.

Upper 32-bits of Partition 5 write lock key. This register must be written with the designated key value after a write to CTRLMMR_LOCK5_KICK0 with its key value before write-protected Partition 5 registers can be written.

Table 5-385 CTRLMMR_LOCK5_KICK1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4301 500Ch 4301 700Ch
Figure 5-185 CTRLMMR_LOCK5_KICK1 Register
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
KEY
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-386 CTRLMMR_LOCK5_KICK1 Register Field Descriptions
Bit Field Type Reset Description
31-0 KEY R/W 0h

Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition5 registers

1.1.5.170 CTRLMMR_P5_CLAIM0 Register (Proxy0 Offset = 15100h; Proxy1 Offset = 17100h) [reset = 0h]

CTRLMMR_P5_CLAIM0 is shown in Figure 5-186 and described in Table 5-388.

Return to Summary Table.

Claim bits for Partition5 Registers.

Table 5-387 CTRLMMR_P5_CLAIM0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4301 5100h 4301 7100h
Figure 5-186 CTRLMMR_P5_CLAIM0 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-388 CTRLMMR_P5_CLAIM0 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x14000 + (0 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0x16000 + (0 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.171 CTRLMMR_P5_CLAIM1 Register (Proxy0 Offset = 15104h; Proxy1 Offset = 17104h) [reset = 0h]

CTRLMMR_P5_CLAIM1 is shown in Figure 5-187 and described in Table 5-390.

Return to Summary Table.

Claim bits for Partition5 Registers.

Table 5-389 CTRLMMR_P5_CLAIM1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4301 5104h 4301 7104h
Figure 5-187 CTRLMMR_P5_CLAIM1 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-390 CTRLMMR_P5_CLAIM1 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x14000 + (1 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0x16000 + (1 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.

1.1.5.172 CTRLMMR_RST_CTRL Register (Proxy0 Offset = 18170h; Proxy1 Offset = 1A170h) [reset = 200FFh]

CTRLMMR_RST_CTRL is shown in Figure 5-188 and described in Table 5-392.

Return to Summary Table.

Controls Reset Assertion and Propogation.

Table 5-391 CTRLMMR_RST_CTRL Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4301 8170h 4301 A170h
Figure 5-188 CTRLMMR_RST_CTRL Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED MAIN_RESET_ISO_DONE_Z MAIN_ESM_ERROR_RST_EN_Z DMSC_COLD_RESET_EN_Z
R-0h R/W-0h R/W-1h R/W-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
SW_MAIN_POR SW_MAIN_WARMRST
R/W-Fh R/W-Fh
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-392 CTRLMMR_RST_CTRL Register Field Descriptions
Bit Field Type Reset Description
31-19 RESERVED R 0h

Reserved

18 MAIN_RESET_ISO_DONE_Z R/W 0h

MAIN domain CPUs can set this bit to block warm reset in the main domain which is useful when the MAIN domain may be accessing
main domain resources (peripherals, memory..). In this case, the main domain cpus will be notified via an interrupt that there
is an outstanding warm reset request for the main domain. Once notified, Main needs to finish any outstanding
operations in has with main domain resources and then clear this bit. After this bit is cleared, the main domain
warm reset will unblocked and the warm reset sequence may continue.
0h - Reset of MAIN domain is not Blocked by MAIN domain
1h - Reset of MAIN domain is Blocked by MAIN domain

17 MAIN_ESM_ERROR_RST_EN_Z R/W 1h

Disable Reset of Main by ESM
0h - Enabled
1h - Disabled

16 DMSC_COLD_RESET_EN_Z R/W 0h

Disable Reset of Main by DMSC
0h - Enabled
1h - Disabled

15-8 RESERVED R 0h

Reserved

7-4 SW_MAIN_POR R/W Fh

Causes MAIN domain Power On Reset when set to 4'b0110, Bits will reset to 4'b1111

3-0 SW_MAIN_WARMRST R/W Fh

Causes MAIN domain Warm Reset when set to 4'b0110, Bits will reset to 4'b1111

1.1.5.173 CTRLMMR_RST_STAT Register (Proxy0 Offset = 18174h; Proxy1 Offset = 1A174h) [reset = X]

CTRLMMR_RST_STAT is shown in Figure 5-189 and described in Table 5-394.

Return to Summary Table.

Reset Status.

Table 5-393 CTRLMMR_RST_STAT Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4301 8174h 4301 A174h
Figure 5-189 CTRLMMR_RST_STAT Register
31 30 29 28 27 26 25 24
RESERVED
R-0h
23 22 21 20 19 18 17 16
RESERVED
R-0h
15 14 13 12 11 10 9 8
RESERVED
R-0h
7 6 5 4 3 2 1 0
RESERVED MCU_RESET_ISO_DONE_Z
R-0h R-X
LEGEND: R = Read Only; -n = value after reset
Table 5-394 CTRLMMR_RST_STAT Register Field Descriptions
Bit Field Type Reset Description
31-1 RESERVED R 0h

Reserved

0 MCU_RESET_ISO_DONE_Z R X

is an outstanding warm reset request for the main domain. Once notified, MCU needs to finish any outstanding

1.1.5.174 CTRLMMR_RST_SRC Register (Proxy0 Offset = 18178h; Proxy1 Offset = 1A178h) [reset = X]

CTRLMMR_RST_SRC is shown in Figure 5-190 and described in Table 5-396.

Return to Summary Table.

Captures Reason for Warm and MAIN domain Power On Resets Read Only Mirror of MCU CTRL MMR version.

Table 5-395 CTRLMMR_RST_SRC Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4301 8178h 4301 A178h
Figure 5-190 CTRLMMR_RST_SRC Register
31 30 29 28 27 26 25 24
SAFETY_ERROR MAIN_ESM_ERROR RESERVED SW_MAIN_POR_FROM_MAIN SW_MAIN_POR_FROM_MCU
R-X R-X R-0h R-X R-X
23 22 21 20 19 18 17 16
RESERVED SW_MAIN_WARMRST_FROM_MAIN SW_MAIN_WARMRST_FROM_MCU RESERVED SW_MCU_WARMRST
R-0h R-X R-X R-0h R-X
15 14 13 12 11 10 9 8
RESERVED WARM_OUT_RST COLD_OUT_RST RESERVED DEBUG_RST
R-0h R-X R-X R-0h R-X
7 6 5 4 3 2 1 0
RESERVED THERMAL_RST RESERVED MAIN_RESET_REQ RESERVED MCU_RESET_PIN
R-0h R-X R-0h R-X R-0h R-X
LEGEND: R = Read Only; -n = value after reset
Table 5-396 CTRLMMR_RST_SRC Register Field Descriptions
Bit Field Type Reset Description
31 SAFETY_ERROR R X

Reset Caused by MCU ESM Error

30 MAIN_ESM_ERROR R X

Reset Caused by Main ESM Error

29-26 RESERVED R 0h

Reserved

25 SW_MAIN_POR_FROM_MAIN R X

Software Main Power On Reset From MAIN CTRL MMR

24 SW_MAIN_POR_FROM_MCU R X

Software Main Power On Reset From MCU CTRL MMR

23-22 RESERVED R 0h

Reserved

21 SW_MAIN_WARMRST_FROM_MAIN R X

Software Main Warm Reset from MAIN CTRL MMR

20 SW_MAIN_WARMRST_FROM_MCU R X

Software Main Warm Reset From MCU CTRL MMR

19-17 RESERVED R 0h

Reserved

16 SW_MCU_WARMRST R X

Software Warm Reset

15-14 RESERVED R 0h

Reserved

13 WARM_OUT_RST R X

DMSC Warm Reset

12 COLD_OUT_RST R X

DMSC Cold Reset

11-9 RESERVED R 0h

Reserved

8 DEBUG_RST R X

Debug Subsystem Initiated Reset

7-5 RESERVED R 0h

Reserved

4 THERMAL_RST R X

Thermal Reset

3 RESERVED R 0h

Reserved

2 MAIN_RESET_REQ R X

MAIN Domain Reset Pin Initiated Reset

1 RESERVED R 0h

Reserved

0 MCU_RESET_PIN R X

MCU Domain Reset Pin Initiated Reset

1.1.5.175 CTRLMMR_RST_MAGIC_WORD Register (Proxy0 Offset = 1817Ch; Proxy1 Offset = 1A17Ch) [reset = X]

CTRLMMR_RST_MAGIC_WORD is shown in Figure 5-191 and described in Table 5-398.

Return to Summary Table.

Read Only Mirror of MCU CTRL MMR version. After an MCU_PORz reset this bit field resets to 0x00000000. While this bit field remains 0x00000000 any warm reset from the MAIN domain also propagates through the MCU domain. If the application does not require reset isolation of the MCU domain, it may leave this bit field with a value of 0x00000000. If the application does require reset isolation of the MCU domain after the initial boot, then the M4FSS CPU must write a nonzero value to the magic word. The actual value is left to software and different values may be used to convey information, but in order to isolate the MCU domain from all MAIN domain warm reset sources that trigger main_resetz, the value must be non-zero. If the value is nonzero and one of the MAIN domain warm reset sources triggers main_resetz occurs in the main domain, the M4FSS will not be reset. The MAIN domain bootloader must read this value to determine that the M4FSS is already initialized, and has configured reset isolation. The MAIN domain bootloader then also skips any initialization steps involving bootstrapping the M4FSS as it is is already running. Note that MCU_PORz reset is never blocked by a nonzero magic word.

Table 5-397 CTRLMMR_RST_MAGIC_WORD Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4301 817Ch 4301 A17Ch
Figure 5-191 CTRLMMR_RST_MAGIC_WORD Register
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
MCU_MAGIC_WORD
R-X
LEGEND: R = Read Only; -n = value after reset
Table 5-398 CTRLMMR_RST_MAGIC_WORD Register Field Descriptions
Bit Field Type Reset Description
31-0 MCU_MAGIC_WORD R X

Magic Word Indicating Status of MCU Subsystem Boot

1.1.5.176 CTRLMMR_LOCK6_KICK0 Register (Proxy0 Offset = 19008h; Proxy1 Offset = 1B008h) [reset = 0h]

CTRLMMR_LOCK6_KICK0 is shown in Figure 5-192 and described in Table 5-400.

Return to Summary Table.

Lower 32-bits of Partition6 write lock key. This register must be written with the designated key value followed by a write to CTRLMMR_LOCK6_KICK1 with its key value before write-protected Partition 6 registers can be written.

Table 5-399 CTRLMMR_LOCK6_KICK0 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4301 9008h 4301 B008h
Figure 5-192 CTRLMMR_LOCK6_KICK0 Register
31 30 29 28 27 26 25 24
KEY
R/W-0h
23 22 21 20 19 18 17 16
KEY
R/W-0h
15 14 13 12 11 10 9 8
KEY
R/W-0h
7 6 5 4 3 2 1 0
KEY UNLOCKED
R/W-0h R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 5-400 CTRLMMR_LOCK6_KICK0 Register Field Descriptions
Bit Field Type Reset Description
31-1 KEY R/W 0h

Write the kick0 unlock value followed by the kick1 unlock value to unlock the write-protected Partition6 registers

0 UNLOCKED R 0h

Unlock status. When set indicates that the proper unlock sequence has been performed and the partition is unlocked for writing.

1.1.5.177 CTRLMMR_LOCK6_KICK1 Register (Proxy0 Offset = 1900Ch; Proxy1 Offset = 1B00Ch) [reset = 0h]

CTRLMMR_LOCK6_KICK1 is shown in Figure 5-193 and described in Table 5-402.

Return to Summary Table.

Upper 32-bits of Partition 6 write lock key. This register must be written with the designated key value after a write to CTRLMMR_LOCK6_KICK0 with its key value before write-protected Partition 6 registers can be written.

Table 5-401 CTRLMMR_LOCK6_KICK1 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4301 900Ch 4301 B00Ch
Figure 5-193 CTRLMMR_LOCK6_KICK1 Register
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
KEY
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-402 CTRLMMR_LOCK6_KICK1 Register Field Descriptions
Bit Field Type Reset Description
31-0 KEY R/W 0h

Write the kick1 unlock value after the kick0 unlock value to unlock the write-protected Partition6 registers

1.1.5.178 CTRLMMR_P6_CLAIM2 Register (Proxy0 Offset = 19108h; Proxy1 Offset = 1B108h) [reset = 0h]

CTRLMMR_P6_CLAIM2 is shown in Figure 5-194 and described in Table 5-404.

Return to Summary Table.

Claim bits for Partition6 Registers.

Table 5-403 CTRLMMR_P6_CLAIM2 Instances
Instance Proxy0 Physical Address Proxy1 Physical Address
CTRL_MMR0 4301 9108h 4301 B108h
Figure 5-194 CTRLMMR_P6_CLAIM2 Register
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
PROXY1_CLAIMED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 5-404 CTRLMMR_P6_CLAIM2 Register Field Descriptions
Bit Field Type Reset Description
31-0 PROXY1_CLAIMED R/W 0h

Proxy1 register claim bit
Bit position b corresponds to register Proxy0 address of:
0x18000 + (2 x 0x80) + (b x 0x4)
and register Proxy1 address of:
0x1A000 + (2 x 0x80) + (b x 0x4)

Write 1 through Proxy1 address to claim the associated register. This will disable all write accesses through the Proxy0 address of the register.
Write 0 through Proxy1 address to release the claim and allow Proxy0 writes of the associated register.