SPRUIU1C July   2020  – February 2024 DRA821U , DRA821U-Q1

 

  1.   1
  2.   Read This First
    1.     About This Manual
    2.     Related Documentation From Texas Instruments
    3.     Support Resources
    4.     Glossary
    5.     Export Control Notice
    6.     Trademarks
  3. Introduction
    1. 1.1 Device Overview
    2. 1.2 Device Block Diagram
    3. 1.3 Device Main Domain
      1. 1.3.1  Arm Cortex-A72 Subsystem
      2. 1.3.2  Arm Cortex-R5F Processor
      3. 1.3.3  Navigator Subsystem
      4. 1.3.4  Region-based Address Translation Module
      5. 1.3.5  Multicore Shared Memory Controller
      6. 1.3.6  DDR Subsystem
      7. 1.3.7  General Purpose Input/Output Interface
      8. 1.3.8  Inter-Integrated Circuit Interface
      9. 1.3.9  Improved Inter-Integrated Circuit Interface
      10. 1.3.10 Multi-channel Serial Peripheral Interface
      11. 1.3.11 Universal Asynchronous Receiver/Transmitter
      12. 1.3.12 Gigabit Ethernet Switch
      13. 1.3.13 Peripheral Component Interconnect Express Subsystem
      14. 1.3.14 Universal Serial Bus (USB) Subsystem
      15. 1.3.15 SerDes
      16. 1.3.16 General Purpose Memory Controller with Error Location Module
      17. 1.3.17 Multimedia Card/Secure Digital Interface
      18. 1.3.18 Enhanced Capture Module
      19. 1.3.19 Enhanced Pulse-Width Modulation Module
      20. 1.3.20 Enhanced Quadrature Encoder Pulse Module
      21. 1.3.21 Controller Area Network
      22. 1.3.22 Audio Tracking Logic
      23. 1.3.23 Multi-channel Audio Serial Port
      24. 1.3.24 Timers
      25. 1.3.25 Internal Diagnostics Modules
    4. 1.4 Device MCU Domain
      1. 1.4.1  MCU Arm Cortex-R5F Processor
      2. 1.4.2  MCU Region-based Address Translation Module
      3. 1.4.3  MCU Navigator Subsystem
      4. 1.4.4  MCU Analog-to-Digital Converter
      5. 1.4.5  MCU Inter-Integrated Circuit Interface
      6. 1.4.6  MCU Improved Inter-Integrated Circuit Interface
      7. 1.4.7  MCU Multi-channel Serial Peripheral Interface
      8. 1.4.8  MCU Universal Asynchronous Receiver/Transmitter
      9. 1.4.9  MCU Gigabit Ethernet Switch
      10. 1.4.10 MCU Octal Serial Peripheral Interface and HyperBus Memory Controller as a Flash Subsystem
      11. 1.4.11 MCU Controller Area Network
      12. 1.4.12 MCU Timers
      13. 1.4.13 MCU Internal Diagnostics Modules
    5. 1.5 Device WKUP Domain
      1. 1.5.1 WKUP Device Management and Security Controller
      2. 1.5.2 WKUP General Purpose Input/Output Interface
      3. 1.5.3 WKUP Inter-Integrated Circuit Interface
      4. 1.5.4 WKUP Universal Asynchronous Receiver/Transmitter
      5. 1.5.5 WKUP Internal Diagnostics Modules
    6. 1.6 Device Identification
  4. Memory Map
    1. 2.1 MAIN Domain Memory Map
    2. 2.2 MCU Domain Memory Map
    3. 2.3 WKUP Domain Memory Map
    4. 2.4 Processors View Memory Map
    5. 2.5 Region-based Address Translation
  5. System Interconnect
    1. 3.1 System Interconnect Overview
    2. 3.2 System Interconnect Integration
      1. 3.2.1 Interconnect Integration in WKUP Domain
      2. 3.2.2 Interconnect Integration in MCU Domain
      3. 3.2.3 Interconnect Integration in MAIN Domain
    3. 3.3 System Interconnect Functional Description
      1. 3.3.1 Master-Slave Connections
      2. 3.3.2 Quality of Service (QoS)
      3. 3.3.3 Route ID
      4. 3.3.4 Initiator-Side Security Controls and Firewalls
        1. 3.3.4.1 Initiator-Side Security Controls (ISC)
          1. 3.3.4.1.1 Special System Level Priv-ID
          2. 3.3.4.1.2 Priv ID and ISC Assignment
        2. 3.3.4.2 Firewalls (FW)
          1. 3.3.4.2.1 Peripheral Firewalls (FW)
          2. 3.3.4.2.2 Memory or Region-based Firewalls
            1. 3.3.4.2.2.1 Region Based Firewall Functional Description
          3. 3.3.4.2.3 Channelized Firewalls
            1. 3.3.4.2.3.1 Channelized Firewall Functional Description
      5. 3.3.5 Null Error Reporting
      6. 3.3.6 VBUSM_TIMEOUT_GASKET (MCU_TIMEOUT_64B2)
        1. 3.3.6.1 Overview and Feature List
          1. 3.3.6.1.1 Features Supported
          2. 3.3.6.1.2 Features Not Supported
        2. 3.3.6.2 Functional Description
          1. 3.3.6.2.1 Functional Operation
            1. 3.3.6.2.1.1  Overview
            2. 3.3.6.2.1.2  FIFOs
            3. 3.3.6.2.1.3  ID Allocator
            4. 3.3.6.2.1.4  Timer
            5. 3.3.6.2.1.5  Timeout Queue
            6. 3.3.6.2.1.6  Write Scoreboard
            7. 3.3.6.2.1.7  Read Scoreboard
            8. 3.3.6.2.1.8  Flush Mode
            9. 3.3.6.2.1.9  Flushing
            10. 3.3.6.2.1.10 Timeout Error Reporting
            11. 3.3.6.2.1.11 Command Timeout Error Reporting
            12. 3.3.6.2.1.12 Unexpected Response Reporting
            13. 3.3.6.2.1.13 Latency and Stalls
            14. 3.3.6.2.1.14 Bypass
            15. 3.3.6.2.1.15 Safety
        3. 3.3.6.3 Interrupt Conditions
          1. 3.3.6.3.1 Transaction Error Interrupt
            1. 3.3.6.3.1.1 Transaction Timeout
            2. 3.3.6.3.1.2 Unexpected Response
            3. 3.3.6.3.1.3 Command Timeout
        4. 3.3.6.4 Memory Map
          1. 3.3.6.4.1  Revision Register (Base Address + 0x00)
          2. 3.3.6.4.2  Configuration Register (Base Address + 0x04)
          3. 3.3.6.4.3  Info Register (Base Address + 0x08)
          4. 3.3.6.4.4  Enable Register (Base Address + 0x0C)
          5. 3.3.6.4.5  Flush Register (Base Address + 0x10)
          6. 3.3.6.4.6  Timeout Value Register (Base Address + 0x14)
          7. 3.3.6.4.7  Timer Register (Base Address + 0x18)
          8. 3.3.6.4.8  Error Interrupt Raw Status/Set Register (Base Address + 0x20)
          9. 3.3.6.4.9  Error Interrupt Enabled Status/Clear Register (Base Address + 0x24)
          10. 3.3.6.4.10 Error Interrupt Mask Set Register (Base Address + 0x28)
          11. 3.3.6.4.11 Error Interrupt Mask Clear Register (Base Address + 0x2C)
          12. 3.3.6.4.12 Timeout Error Info Register (Base Address + 0x30)
          13. 3.3.6.4.13 Unexpected Response Info Register (Base Address + 0x34)
          14. 3.3.6.4.14 Error Transaction Valid/Dir/RouteID Register (Base Address + 0x38)
          15. 3.3.6.4.15 Error Transaction Tag/CommandID Register (Base Address + 0x3C)
          16. 3.3.6.4.16 Error Transaction Bytecnt Register (Base Address + 0x40)
          17. 3.3.6.4.17 Error Transaction Upper Address Register (Base Address + 0x44)
          18. 3.3.6.4.18 Error Transaction Lower Address Register (Base Address + 0x48)
        5. 3.3.6.5 Integration Overview
          1. 3.3.6.5.1 Parameterization Requirements
        6. 3.3.6.6 I/O Description
          1. 3.3.6.6.1 Clockstop Idle
          2. 3.3.6.6.2 Flush
          3. 3.3.6.6.3 Module I/O
        7. 3.3.6.7 User’s Guide
          1. 3.3.6.7.1 Programmer’s Guide
            1. 3.3.6.7.1.1 Initialization
            2. 3.3.6.7.1.2 Software Flush
      7. 3.3.7 Timeout Gasket (TOG)
    4. 3.4 System Interconnect Registers
      1. 3.4.1 QoS Registers
      2. 3.4.2 Firewall Exception Registers
      3. 3.4.3 Firewall Region Registers
      4. 3.4.4 Null Error Reporting Registers
  6. Initialization
    1. 4.1 Initialization Overview
      1. 4.1.1 ROM Code Overview
      2. 4.1.2 Bootloader Modes
      3. 4.1.3 Terminology
    2. 4.2 Boot Process
      1. 4.2.1 MCU 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
      4. 4.2.4 MCU Only vs Normal Boot
    3. 4.3 Boot Mode Pins
      1. 4.3.1  MCU_BOOTMODE Pin Mapping
      2. 4.3.2  BOOTMODE Pin Mapping
        1. 4.3.2.1 Primary Boot Mode Selection
        2. 4.3.2.2 Backup Boot Mode Selection When MCU Only = 0
        3. 4.3.2.3 Primary Boot Mode Configuration
        4. 4.3.2.4 Backup Boot Mode Configuration
      3. 4.3.3  No-boot/Dev-boot Configuration
      4. 4.3.4  Hyperflash Boot Device Configuration
      5. 4.3.5  OSPI Boot Device Configuration
      6. 4.3.6  QSPI Boot Device Configuration
      7. 4.3.7  SPI Boot Device Configuration
      8. 4.3.8  xSPI Boot Device Configuration
      9. 4.3.9  I2C Boot Device Configuration
      10. 4.3.10 MMC/SD Card Boot Device Configuration
      11. 4.3.11 eMMC Boot Device Configuration
      12. 4.3.12 Ethernet Boot Device Configuration
      13. 4.3.13 USB Boot Device Configuration
      14. 4.3.14 PCIe Boot Device Configuration
      15. 4.3.15 UART Boot Device Configuration
      16. 4.3.16 PLL Configuration
        1. 4.3.16.1 MCU_PLL0, MCU_PLL2, Main PLL0, and Main PLL3
        2. 4.3.16.2 MCU_PLL1
        3. 4.3.16.3 Main PLL1
        4. 4.3.16.4 Main PLL2
        5. 4.3.16.5 HSDIV Values
        6. 4.3.16.6 190
    4. 4.4 Boot Parameter Tables
      1. 4.4.1  Common Header
      2. 4.4.2  PLL Setup
      3. 4.4.3  PCIe Boot Parameter Table
      4. 4.4.4  I2C Boot Parameter Table
      5. 4.4.5  OSPI/QSPI/SPI Boot Parameter Table
      6. 4.4.6  Ethernet Boot Parameter Table
      7. 4.4.7  USB Boot Parameter Table
      8. 4.4.8  MMCSD Boot Parameter Table
      9. 4.4.9  UART Boot Parameter Table
      10. 4.4.10 Hyperflash Boot Parameter Table
    5. 4.5 Boot Image Format
      1. 4.5.1 Overall Structure
      2. 4.5.2 X.509 Certificate
      3. 4.5.3 Organizational Identifier (OID)
      4. 4.5.4 X.509 Extensions Specific to Boot
        1. 4.5.4.1 Boot Info (OID 1.3.6.1.4.1.294.1.1)
        2. 4.5.4.2 Image Integrity (OID 1.3.6.1.4.1.294.1.2)
      5. 4.5.5 Extended Boot Info Extension
        1. 4.5.5.1 Impact on HS Device
        2. 4.5.5.2 Extended Boot Info Details
        3. 4.5.5.3 Certificate / Component Types
        4. 4.5.5.4 Extended Boot Encryption Info
        5. 4.5.5.5 Component Ordering
        6. 4.5.5.6 Memory Load Sections Overlap with Executable Components
        7. 4.5.5.7 Device Type and Extended Boot Extension
      6. 4.5.6 Generating X.509 Certificates
        1. 4.5.6.1 Key Generation
          1. 4.5.6.1.1 Degenerate RSA Keys
        2. 4.5.6.2 Configuration Script
      7. 4.5.7 Image Data
    6. 4.6 Boot Modes
      1. 4.6.1 I2C Bootloader Operation
        1. 4.6.1.1 I2C Initialization Process
          1. 4.6.1.1.1 Block Size
          2. 4.6.1.1.2 226
        2. 4.6.1.2 I2C Loading Process
          1. 4.6.1.2.1 Loading a Boot Image From EEPROM
      2. 4.6.2 SPI Bootloader Operation
        1. 4.6.2.1 SPI Initialization Process
        2. 4.6.2.2 SPI Loading Process
      3. 4.6.3 QSPI Bootloader Operation
        1. 4.6.3.1 QSPI Initialization Process
        2. 4.6.3.2 QSPI Loading Process
      4. 4.6.4 OSPI Bootloader Operation
        1. 4.6.4.1 OSPI Initialization Process
        2. 4.6.4.2 OSPI Loading Process
      5. 4.6.5 PCIe Bootloader Operation
        1. 4.6.5.1 PCIe Initialization Process
        2. 4.6.5.2 PCIe Loading Process
      6. 4.6.6 Ethernet Bootloader Operation
        1. 4.6.6.1 Ethernet Initialization Process
        2. 4.6.6.2 Ethernet Loading Process
          1. 4.6.6.2.1 Ethernet Boot Data Formats
            1. 4.6.6.2.1.1 Limitations
            2. 4.6.6.2.1.2 BOOTP Request
              1. 4.6.6.2.1.2.1 MAC Header (DIX)
              2. 4.6.6.2.1.2.2 IPv4 Header
              3. 4.6.6.2.1.2.3 UDP Header
              4. 4.6.6.2.1.2.4 BOOTP Payload
              5. 4.6.6.2.1.2.5 TFTP
        3. 4.6.6.3 Ethernet Hand Over Process
      7. 4.6.7 USB Bootloader Operation
        1. 4.6.7.1 USB-Specific Attributes
          1. 4.6.7.1.1 DFU Device Mode
      8. 4.6.8 MMCSD Bootloader Operation
      9. 4.6.9 UART Bootloader Operation
        1. 4.6.9.1 Initialization Process
        2. 4.6.9.2 UART Loading Process
          1. 4.6.9.2.1 UART XMODEM
        3. 4.6.9.3 UART Hand-Over Process
    7. 4.7 Boot Memory Maps
      1. 4.7.1 Memory Layout/MPU
      2. 4.7.2 Global Memory Addresses Used by ROM Code
      3. 4.7.3 Memory Reserved by ROM Code
  7. Device Configuration
    1. 5.1 Control Module (CTRL_MMR)
      1. 5.1.1 WKUP_CTRL_MMR0
        1. 5.1.1.1 WKUP_CTRL_MMR0 Overview
        2. 5.1.1.2 WKUP_CTRL_MMR0 Integration
        3. 5.1.1.3 WKUP_CTRL_MMR0 Functional Description
          1. 5.1.1.3.1 Description for WKUP_CTRL_MMR0 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  WKUP_CTRL_MMR0 Module Interrupts
            4. 5.1.1.3.1.4  Clock Selection Registers
            5. 5.1.1.3.1.5  Device Feature Registers
            6. 5.1.1.3.1.6  POK Module Registers
            7. 5.1.1.3.1.7  Power and Reset Related Registers
            8. 5.1.1.3.1.8  PRG Related Registers
            9. 5.1.1.3.1.9  Voltage Glitch Detect Control and Status Registers
            10. 5.1.1.3.1.10 I/O Debounce Control Registers
        4. 5.1.1.4 WKUP_CTRL_MMR0 Registers
      2. 5.1.2 MCU_CTRL_MMR0
        1. 5.1.2.1 MCU_CTRL_MMR0 Overview
        2. 5.1.2.2 MCU_CTRL_MMR0 Integration
        3. 5.1.2.3 MCU_CTRL_MMR0 Functional Description
          1. 5.1.2.3.1 Description for MCU_CTRL_MMR0 Register Types
            1. 5.1.2.3.1.1 Kick Protection Registers
            2. 5.1.2.3.1.2 MCU_CTRL_MMR0 Module Interrupts
            3. 5.1.2.3.1.3 Inter-processor Communication Registers
            4. 5.1.2.3.1.4 Timer I/O Muxing Control Registers
            5. 5.1.2.3.1.5 Clock Muxing and Division Registers
            6. 5.1.2.3.1.6 MCU_CPSW0 MAC Address Registers
        4. 5.1.2.4 MCU_CTRL_MMR0 Registers
        5. 5.1.2.5 MCU_SEC_MMR0_DBG_CTRL Registers
        6. 5.1.2.6 MCU_SEC_MMR0_BOOT_CTRL Registers
      3. 5.1.3 CTRL_MMR0
        1. 5.1.3.1 CTRL_MMR0 Overview
        2. 5.1.3.2 CTRL_MMR0 Integration
        3. 5.1.3.3 CTRL_MMR0 Functional Description
          1. 5.1.3.3.1 Description for CTRL_MMR0 Register Types
            1. 5.1.3.3.1.1  Pad Configuration Registers
            2. 5.1.3.3.1.2  Kick Protection Registers
            3. 5.1.3.3.1.3  CTRL_MMR0 Module Interrupts
            4. 5.1.3.3.1.4  Inter-processor Communication Registers
            5. 5.1.3.3.1.5  Timer I/O Muxing Control Registers
            6. 5.1.3.3.1.6  EHRPWM/EQEP Control and Status Registers
            7. 5.1.3.3.1.7  Clock Muxing and Division Registers
            8. 5.1.3.3.1.8  Ethernet Port Operation Control Registers
            9. 5.1.3.3.1.9  SERDES Lane Function Control Registers
            10. 5.1.3.3.1.10 DDRSS Dynamic Frequency Change Registers
        4. 5.1.3.4 CTRL_MMR0 Registers
        5. 5.1.3.5 SEC_MMR0_DBG_CTRL Registers
        6. 5.1.3.6 SEC_MMR0_BOOT_CTRL 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 Subsystems Overview
          1. 5.2.2.1.1 POK Overview
          2. 5.2.2.1.2 PRG / PRG_PP Overview
          3. 5.2.2.1.3 POR Overview
          4. 5.2.2.1.4 POK / PRG(_PP) /POR Overview
          5. 5.2.2.1.5 Timing
          6. 5.2.2.1.6 Restrictions
        2. 5.2.2.2 Power System Modules
          1. 5.2.2.2.1 Power OK (POK) Modules
            1. 5.2.2.2.1.1 POK Programming Model
              1. 5.2.2.2.1.1.1 POK Threshold Setting Programming Sequence
          2. 5.2.2.2.2 Power on Reset (POR) Module
            1. 5.2.2.2.2.1 POR Overview
            2. 5.2.2.2.2.2 POR Integration
            3. 5.2.2.2.2.3 POR Programming Model
          3. 5.2.2.2.3 PoR/Reset Generator (PRG_PP) Modules
            1. 5.2.2.2.3.1 PRG_PP Overview
            2. 5.2.2.2.3.2 PRG_PP Integration
            3. 5.2.2.2.3.3 PRG_PP Programming Model
          4. 5.2.2.2.4 Power Glitch Detect (PGD) Modules
          5. 5.2.2.2.5 Voltage and Thermal Manager (VTM)
            1. 5.2.2.2.5.1 VTM Overview
              1. 5.2.2.2.5.1.1 VTM Features
              2. 5.2.2.2.5.1.2 VTM Not Supported Features
            2. 5.2.2.2.5.2 VTM Integration
            3. 5.2.2.2.5.3 VTM Functional Description
              1. 5.2.2.2.5.3.1 VTM Temperature Status and Thermal Management
                1. 5.2.2.2.5.3.1.1 10-bit Temperature Values Versus Temperature
              2. 5.2.2.2.5.3.2 VTM Temperature Driven Alerts and Interrupts
              3. 5.2.2.2.5.3.3 VTM VID Voltage Domains
              4. 5.2.2.2.5.3.4 VTM Clocking
              5. 5.2.2.2.5.3.5 VTM Retention Interface
              6. 5.2.2.2.5.3.6 VTM ECC Aggregator
              7. 5.2.2.2.5.3.7 VTM Programming Model
                1. 5.2.2.2.5.3.7.1 VTM Maximum Temperature Outrange Alert
                2. 5.2.2.2.5.3.7.2 Temperature Monitor during Low Power Modes
                3. 5.2.2.2.5.3.7.3 Sensors Programming Sequences
              8. 5.2.2.2.5.3.8 AVS-Class0
          6. 5.2.2.2.6 Distributed Power Clock and Reset Controller (DPCR)
        3. 5.2.2.3 Power Control Modules
          1. 5.2.2.3.1 Power Sleep Controller and Local Power Sleep Controllers
            1. 5.2.2.3.1.1 PSC Terminology
            2. 5.2.2.3.1.2 PSC Features
            3. 5.2.2.3.1.3 PSC: Device Power-Management Layout
              1. 5.2.2.3.1.3.1 WKUP_PSC0 Device-Specific Information
              2. 5.2.2.3.1.3.2 PSC0 Device-Specific Information
              3. 5.2.2.3.1.3.3 LPSC Dependences Overview
            4. 5.2.2.3.1.4 PSC: Power Domain and Module States
              1. 5.2.2.3.1.4.1 Power Domain States
              2. 5.2.2.3.1.4.2 Module States
              3. 5.2.2.3.1.4.3 Local Reset
            5. 5.2.2.3.1.5 PSC: Executing State Transitions
              1. 5.2.2.3.1.5.1 Power Domain State Transitions
              2. 5.2.2.3.1.5.2 Module State Transitions
              3. 5.2.2.3.1.5.3 Concurrent Power Domain/Module State Transitions
              4. 5.2.2.3.1.5.4 Recommendations for Power Domain/Module Sequencing
            6. 5.2.2.3.1.6 PSC: Emulation Support in the PSC
            7. 5.2.2.3.1.7 PSC: A72SS, MSMC, MCU Cortex-R5F, C71SS0, and C66SS Subsystem Power-Up and Power-Down Sequences
              1. 5.2.2.3.1.7.1 ARMi_COREn Power State Transition
              2. 5.2.2.3.1.7.2 A72SS Power State Transition
              3. 5.2.2.3.1.7.3 GIC0 Sequencing to Support A72SS Power Management
              4. 5.2.2.3.1.7.4 MSMC0 Clkstop/Powerdown/Disconnect Sequencing
              5. 5.2.2.3.1.7.5 MCU Cortex-R5F Power Modes
          2. 5.2.2.3.2 Integrated Power Management (DMSC)
            1. 5.2.2.3.2.1 DMSC Power Management Overview
              1. 5.2.2.3.2.1.1 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 Voltage Domains
        3. 5.2.3.3 Power Domains
        4. 5.2.3.4 Clock Sources States
        5. 5.2.3.5 Wake-up Sources
        6. 5.2.3.6 Device Power States and Transitions
          1. 5.2.3.6.1 LPM Entry Sequences
          2. 5.2.3.6.2 LPM Exit Sequences
          3. 5.2.3.6.3 IO Retention
          4. 5.2.3.6.4 DDRSS Self-Refresh
      4. 5.2.4 Dynamic Power Management
        1. 5.2.4.1 AVS Support
        2. 5.2.4.2 Dynamic Frequency Scaling (DFS) Operations
      5. 5.2.5 Thermal Management
      6. 5.2.6 Registers
        1. 5.2.6.1 WKUP_VTM0 Registers
        2. 5.2.6.2 PSC Registers
    3. 5.3 Reset
      1. 5.3.1 Reset Overview
      2. 5.3.2 Reset Sources
      3. 5.3.3 Reset Status
      4. 5.3.4 Reset Control
      5. 5.3.5 BOOTMODE Pins
      6. 5.3.6 Reset Sequences
        1. 5.3.6.1 MCU_PORz Overview
        2. 5.3.6.2 MCU_PORz Sequence
        3. 5.3.6.3 MCU_RESETz Sequence
        4. 5.3.6.4 PORz Sequence
        5. 5.3.6.5 RESET_REQz Sequence
      7. 5.3.7 PLL Behavior on Reset
    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. 5.4.3.1.2 424
          3. 5.4.3.1.3 OBSCLK0, OBSCLK1, and OBSCLK2 Pins
        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 Oscillators 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 WKUP and MCU Domains 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 PLLTS16FFCLAFRAC2 Type Output Clocks
              2. 5.4.5.4.1.2.2 PLLTS16FFCLAFRACF Type Output Clocks
              3. 5.4.5.4.1.2.3 PLL Lock
              4. 5.4.5.4.1.2.4 HSDIVIDER
              5. 5.4.5.4.1.2.5 ICG Module
              6. 5.4.5.4.1.2.6 PLL Power Down
              7. 5.4.5.4.1.2.7 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 Registers
        1. 5.4.6.1 MCU_PLL0_CFG Registers
        2. 5.4.6.2 PLL0_CFG Registers
        3. 5.4.6.3 PLLCTRL0 Registers
  8. Processors and Accelerators
    1. 6.1 Compute Cluster
      1. 6.1.1 Compute Cluster Overview
      2. 6.1.2 Compute Cluster Functional Description
        1. 6.1.2.1 Compute Cluster Memory Regions
        2. 6.1.2.2 Compute Cluster Firewalls
        3. 6.1.2.3 Compute Cluster ECC Aggregators
      3. 6.1.3 Compute Cluster Registers
    2. 6.2 Dual-A72 MPU Subsystem
      1. 6.2.1 A72SS Overview
        1. 6.2.1.1 A72SS Introduction
        2. 6.2.1.2 A72SS Features
      2. 6.2.2 A72SS Integration
      3. 6.2.3 A72SS Functional Description
        1. 6.2.3.1  A72SS Block Diagram
        2. 6.2.3.2  A72SS A72 Cluster
        3. 6.2.3.3  A72SS Interfaces and Async Bridges
        4. 6.2.3.4  A72SS Interrupts
          1. 6.2.3.4.1 A72SS Interrupt Inputs
          2. 6.2.3.4.2 A72SS Interrupt Outputs
        5. 6.2.3.5  A72SS Power Management, Clocking and Reset
          1. 6.2.3.5.1 A72SS Power Management
          2. 6.2.3.5.2 A72SS Clocking
        6. 6.2.3.6  A72SS Debug Support
        7. 6.2.3.7  A72SS Timestamps
        8. 6.2.3.8  A72SS Watchdog
        9. 6.2.3.9  A72SS Internal Diagnostics
          1. 6.2.3.9.1 A72SS ECC Aggregators During Low Power States
          2. 6.2.3.9.2 A72SS CBASS Diagnostics
          3. 6.2.3.9.3 A72SS SRAM Diagnostics
          4. 6.2.3.9.4 A72SS SRAM ECC Aggregator Configurations
        10. 6.2.3.10 A72SS Cache Pre-Warming
        11. 6.2.3.11 A72SS Boot
        12. 6.2.3.12 A72SS IPC with Other CPUs
      4. 6.2.4 A72SS Registers
        1. 6.2.4.1 Arm A72 Cluster Registers
        2. 6.2.4.2 A72SS ECC Aggregator Registers
          1. 6.2.4.2.1 A72SS CLUSTER ECC Registers
          2. 6.2.4.2.2 A72SS CORE0 ECC Registers
          3. 6.2.4.2.3 A72SS CORE1 ECC Registers
    3. 6.3 Dual-R5F MCU Subsystem
      1. 6.3.1 R5FSS Overview
        1. 6.3.1.1 R5FSS Features
        2. 6.3.1.2 R5FSS Not Supported Features
      2. 6.3.2 R5FSS Integration
        1. 6.3.2.1 R5FSS Integration in MCU Domain
        2. 6.3.2.2 R5FSS Integration in MAIN Domain
      3. 6.3.3 R5FSS Functional Description
        1. 6.3.3.1  R5FSS Block Diagram
        2. 6.3.3.2  R5FSS Cortex-R5F Core
          1. 6.3.3.2.1 L1 Caches
          2. 6.3.3.2.2 Tightly-Coupled Memories (TCMs)
          3. 6.3.3.2.3 R5FSS Special Signals
        3. 6.3.3.3  R5FSS Interfaces
          1. 6.3.3.3.1 R5FSS Master Interfaces
          2. 6.3.3.3.2 R5FSS Slave Interfaces
        4. 6.3.3.4  R5FSS Power, Clocking and Reset
          1. 6.3.3.4.1 R5FSS Power
          2. 6.3.3.4.2 R5FSS Clocking
            1. 6.3.3.4.2.1 Changing MCU_R5FSS0 CPU Clock Frequency
          3. 6.3.3.4.3 R5FSS Reset
        5. 6.3.3.5  R5FSS Lockstep Error Detection Logic
          1. 6.3.3.5.1 CPU Output Compare Block
            1. 6.3.3.5.1.1 Operating Modes
            2. 6.3.3.5.1.2 Compare Block Active Mode
            3. 6.3.3.5.1.3 Self Test Mode
            4. 6.3.3.5.1.4 Compare Match Test
            5. 6.3.3.5.1.5 Compare Mismatch Test
            6. 6.3.3.5.1.6 Error Forcing Mode
            7. 6.3.3.5.1.7 Self Test Error Forcing Mode
          2. 6.3.3.5.2 Inactivity Monitor Block
            1. 6.3.3.5.2.1 Operating Modes
            2. 6.3.3.5.2.2 Compare Block Active Mode
            3. 6.3.3.5.2.3 Self Test Mode
            4. 6.3.3.5.2.4 Compare Match Test
            5. 6.3.3.5.2.5 Compare Mismatch Test
            6. 6.3.3.5.2.6 Error Forcing Mode
            7. 6.3.3.5.2.7 Self Test Error Forcing Mode
          3. 6.3.3.5.3 Polarity Inversion Logic
        6. 6.3.3.6  R5FSS Vectored Interrupt Manager (VIM)
          1. 6.3.3.6.1 VIM Overview
          2. 6.3.3.6.2 VIM Interrupt Inputs
          3. 6.3.3.6.3 VIM Interrupt Outputs
          4. 6.3.3.6.4 VIM Interrupt Vector Table (VIM RAM)
          5. 6.3.3.6.5 VIM Interrupt Prioritization
          6. 6.3.3.6.6 VIM ECC Support
          7. 6.3.3.6.7 VIM Lockstep Mode
          8. 6.3.3.6.8 VIM IDLE State
          9. 6.3.3.6.9 VIM Interrupt Handling
            1. 6.3.3.6.9.1 Servicing IRQ Through Vector Interface
            2. 6.3.3.6.9.2 Servicing IRQ Through MMR Interface
            3. 6.3.3.6.9.3 Servicing IRQ Through MMR Interface (Alternative)
            4. 6.3.3.6.9.4 Servicing FIQ
            5. 6.3.3.6.9.5 Servicing FIQ (Alternative)
        7. 6.3.3.7  R5FSS Region Address Translation (RAT)
          1. 6.3.3.7.1 RAT Overview
          2. 6.3.3.7.2 RAT Operation
          3. 6.3.3.7.3 RAT Error Logging
          4. 6.3.3.7.4 RAT Protection
        8. 6.3.3.8  R5FSS ECC Support
        9. 6.3.3.9  R5FSS Memory View
        10. 6.3.3.10 R5FSS Debug and Trace
        11. 6.3.3.11 R5FSS Boot Options
        12. 6.3.3.12 R5FSS Core Memory ECC Events
      4. 6.3.4 R5FSS Registers
        1. 6.3.4.1 R5FSS_CCMR5 Registers
        2. 6.3.4.2 R5FSS_CPU0_ECC_AGGR_CFG_REGS Registers
        3. 6.3.4.3 R5FSS_CPU1_ECC_AGGR_CFG_REGS Registers
        4. 6.3.4.4 R5FSS_VIM Registers
        5. 6.3.4.5 R5FSS_RAT Registers
        6. 6.3.4.6 R5FSS_EVNT_BUS_VBUSP_MMRS Registers
  9. Interprocessor Communication
    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
    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
  10. Memory Controllers
    1. 8.1 Multicore Shared Memory Controller (MSMC)
      1. 8.1.1 MSMC Overview
        1. 8.1.1.1 MSMC Not Supported Features
      2. 8.1.2 MSMC Integration
        1. 8.1.2.1 MSMC Integration in MAIN Domain
        2. 8.1.2.2 639
      3. 8.1.3 MSMC Functional Description
        1. 8.1.3.1  MSMC Block Diagram
        2. 8.1.3.2  MSMC On-Chip Memory Banking
        3. 8.1.3.3  MSMC Snoop Filter and Data Cache
          1. 8.1.3.3.1 Way Partitioning
          2. 8.1.3.3.2 Cache Size Configuration and Associativity
        4. 8.1.3.4  MSMC Access Protection Checks
        5. 8.1.3.5  MSMC Null Slave
        6. 8.1.3.6  MSMC Resource Arbitration
        7. 8.1.3.7  MSMC Error Detection and Correction
          1. 8.1.3.7.1 On-chip SRAM and Pipeline Data Protection
          2. 8.1.3.7.2 On-chip SRAM L3 Cache Tag and Snoop Filter Protection
          3. 8.1.3.7.3 On-chip SRAM Memory Mapped SRAM Snoop Filter Protection
          4. 8.1.3.7.4 Background Parity Refresh (Scrubbing)
        8. 8.1.3.8  MSMC Interrupts
          1. 8.1.3.8.1 Raw Interrupt Registers
          2. 8.1.3.8.2 Interrupt Enable Registers
          3. 8.1.3.8.3 Triggered and Enabled Interrupts
        9. 8.1.3.9  MSMC Memory Regions
        10. 8.1.3.10 MSMC Hardware Coherence
          1. 8.1.3.10.1 Snoop Filter Broadcast Mode
        11. 8.1.3.11 MSMC Quality-of-Service
        12. 8.1.3.12 MSMC Memory Regions Protection
        13. 8.1.3.13 MSMC Cache Tag View
      4. 8.1.4 MSMC Registers
    2. 8.2 DDR Subsystem (DDRSS)
      1. 8.2.1 DDRSS Overview
        1. 8.2.1.1 DDRSS Not Supported Features
      2. 8.2.2 DDRSS Environment
      3. 8.2.3 DDRSS Integration
        1. 8.2.3.1 DDRSS Integration in MAIN Domain
      4. 8.2.4 DDRSS Functional Description
        1. 8.2.4.1 DDRSS MSMC2DDR Bridge
          1. 8.2.4.1.1 VBUSM.C Threads
          2. 8.2.4.1.2 Class of Service (CoS)
          3. 8.2.4.1.3 AXI Write Data All-Strobes
          4. 8.2.4.1.4 Inline ECC for SDRAM Data
            1. 8.2.4.1.4.1 ECC Cache
            2. 8.2.4.1.4.2 ECC Statistics
          5. 8.2.4.1.5 Opcode Checking
          6. 8.2.4.1.6 Address Alias Prevention
          7. 8.2.4.1.7 Data Error Detection and Correction
          8. 8.2.4.1.8 AXI Bus Timeout
        2. 8.2.4.2 DDRSS Interrupts
        3. 8.2.4.3 DDRSS Memory Regions
        4. 8.2.4.4 DDRSS ECC Support
        5. 8.2.4.5 DDRSS Dynamic Frequency Change Interface
        6. 8.2.4.6 DDR Controller Functional Description
          1. 8.2.4.6.1  DDR PHY Interface (DFI)
          2. 8.2.4.6.2  Command Queue
            1. 8.2.4.6.2.1 Placement Logic
            2. 8.2.4.6.2.2 Command Selection Logic
          3. 8.2.4.6.3  Low Power Control
          4. 8.2.4.6.4  Transaction Processing
          5. 8.2.4.6.5  BIST Engine
          6. 8.2.4.6.6  ECC Engine
          7. 8.2.4.6.7  Address Mapping
          8. 8.2.4.6.8  Paging Policy
          9. 8.2.4.6.9  DDR Controller Initialization
          10. 8.2.4.6.10 Programming LPDDR4 Memories
            1. 8.2.4.6.10.1 Frequency Set Point (FSP)
              1. 8.2.4.6.10.1.1 FSP Mode Register Programming During Initialization
              2. 8.2.4.6.10.1.2 FSP Mode Register Programming During Normal Operation
              3. 8.2.4.6.10.1.3 FSP Mode Register Programming During Dynamic Frequency Scaling
            2. 8.2.4.6.10.2 Data Bus Inversion (DBI)
            3. 8.2.4.6.10.3 On-Die Termination
              1. 8.2.4.6.10.3.1 LPDDR4 DQ ODT
              2. 8.2.4.6.10.3.2 LPDDR4 CA ODT
            4. 8.2.4.6.10.4 Byte Lane Swapping
            5. 8.2.4.6.10.5 DQS Interval Oscillator
              1. 8.2.4.6.10.5.1 Oscillator State Machine
            6. 8.2.4.6.10.6 Per-Bank Refresh (PBR)
              1. 8.2.4.6.10.6.1 Normal Operation
              2. 8.2.4.6.10.6.2 Continuous Refresh Request Mode
        7. 8.2.4.7 DDR PHY Functional Description
          1. 8.2.4.7.1  Data Slice
          2. 8.2.4.7.2  Address Slice
            1. 8.2.4.7.2.1 Address Swapping
          3. 8.2.4.7.3  Address/Control Slice
          4. 8.2.4.7.4  Clock Slice
          5. 8.2.4.7.5  DDR PHY Initialization
          6. 8.2.4.7.6  DDR PHY Dynamic Frequency Scaling (DFS)
          7. 8.2.4.7.7  Chip Select and Frequency Based Register Settings
          8. 8.2.4.7.8  Low-Power Modes
          9. 8.2.4.7.9  Training Support
            1. 8.2.4.7.9.1 Write Leveling
            2. 8.2.4.7.9.2 Read Gate Training
            3. 8.2.4.7.9.3 Read Data Eye Training
            4. 8.2.4.7.9.4 Write DQ Training
            5. 8.2.4.7.9.5 CA Training
            6. 8.2.4.7.9.6 CS Training
          10. 8.2.4.7.10 Data Bus Inversion (DBI)
          11. 8.2.4.7.11 I/O Pad Calibration
          12. 8.2.4.7.12 DQS Error
        8. 8.2.4.8 PI Functional Description
          1. 8.2.4.8.1 PI Initialization
      5. 8.2.5 DDRSS Registers
        1. 8.2.5.1 DDR Subsystem Registers
        2. 8.2.5.2 DDR Controller Registers
        3. 8.2.5.3 PI Registers
        4. 8.2.5.4 DDR PHY Registers
        5. 8.2.5.5 DDRSS0_ECC_AGGR_CTL Registers
        6. 8.2.5.6 DDRSS0_ECC_AGGR_VBUS Registers
        7. 8.2.5.7 DDRSS0_ECC_AGGR_CFG Registers
    3. 8.3 Peripheral Virtualization Unit (PVU)
      1. 8.3.1 PVU Overview
        1. 8.3.1.1 PVU Features
        2. 8.3.1.2 PVU Parameters
        3. 8.3.1.3 PVU Not Supported Features
      2. 8.3.2 PVU Integration
      3. 8.3.3 PVU Functional Description
        1. 8.3.3.1  Functional Operation Overview
        2. 8.3.3.2  PVU Channels
        3. 8.3.3.3  TLB
        4. 8.3.3.4  TLB Entry
        5. 8.3.3.5  TLB Selection
        6. 8.3.3.6  DMA Classes
        7. 8.3.3.7  General virtIDs
        8. 8.3.3.8  TLB Lookup
        9. 8.3.3.9  TLB Miss
        10. 8.3.3.10 Multiple Matching Entries
        11. 8.3.3.11 TLB Disable
        12. 8.3.3.12 TLB Chaining
        13. 8.3.3.13 TLB Permissions
        14. 8.3.3.14 Translation
        15. 8.3.3.15 Memory Attributes
        16. 8.3.3.16 Faulted Transactions
        17. 8.3.3.17 Non-Virtual Transactions
        18. 8.3.3.18 Allowed virtIDs
        19. 8.3.3.19 Software Control
        20. 8.3.3.20 Fault Logging
        21. 8.3.3.21 Alignment Restrictions
      4. 8.3.4 PVU Registers
        1. 8.3.4.1 NAVSS_PVU_CFG Registers
        2. 8.3.4.2 NAVSS0_PVU_CFG_TLBIF Registers
    4. 8.4 Region-based Address Translation (RAT) Module
      1. 8.4.1 RAT Functional Description
        1. 8.4.1.1 RAT Availability
        2. 8.4.1.2 RAT Operation
        3. 8.4.1.3 RAT Error Logging
      2. 8.4.2 RAT Registers
  11. Interrupts
    1. 9.1 Interrupt Architecture
    2. 9.2 Interrupt Controllers
      1. 9.2.1 Generic Interrupt Controller (GIC)
        1. 9.2.1.1 GIC Overview
          1. 9.2.1.1.1 GIC Features
          2. 9.2.1.1.2 GIC Not Supported Features
        2. 9.2.1.2 GIC Integration
        3. 9.2.1.3 GIC Functional Description
          1. 9.2.1.3.1 GIC Block Diagram
          2. 9.2.1.3.2 Arm GIC-500
          3. 9.2.1.3.3 GIC Interrupt Types
          4. 9.2.1.3.4 GIC Interfaces
          5. 9.2.1.3.5 GIC Interrupt Outputs
          6. 9.2.1.3.6 GIC ECC Support
          7. 9.2.1.3.7 GIC AXI2VBUSM and VBUSM2AXI Bridges
        4. 9.2.1.4 GIC Registers
          1. 9.2.1.4.1 Arm GIC-500 Registers
          2. 9.2.1.4.2 GIC_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 WKUP_GPIOMUX_INTRTR0 Integration
        2. 9.3.2.2 GPIOMUX_INTRTR0 Integration
        3. 9.3.2.3 MAIN2MCU_LVL_INTRTR0 Integration
        4. 9.3.2.4 MAIN2MCU_PLS_INTRTR0 Integration
      3. 9.3.3 INTRTR Registers
        1. 9.3.3.1 WKUP_GPIOMUX_INTRTR0 Registers
        2. 9.3.3.2 GPIOMUX_INTRTR0 Registers
        3. 9.3.3.3 MAIN2MCU_LVL_INTRTR0 Registers
        4. 9.3.3.4 MAIN2MCU_PLS_INTRTR0 Registers
    4. 9.4 Interrupt Sources
      1. 9.4.1 WKUP Domain Interrupt Maps
        1. 9.4.1.1 WKUP_DMSC0 Interrupt Map
        2. 9.4.1.2 WKUP_GPIOMUX_INTRTR0 Interrupt Map
        3. 9.4.1.3 WKUP_GPIO0_VIRT Interrupt Map
        4. 9.4.1.4 WKUP_ESM0 Interrupt Map
      2. 9.4.2 MCU Domain Interrupt Maps
        1. 9.4.2.1 MCU_R5FSS0_CORE0 Interrupt Map
        2. 9.4.2.2 MCU_R5FSS0_CORE1 Interrupt Map
        3. 9.4.2.3 MCU_ESM0 Interrupt Map
      3. 9.4.3 MAIN Domain Interrupt Maps
        1. 9.4.3.1 COMPUTE_CLUSTER0 Interrupt Map
          1. 9.4.3.1.1 GIC500 PPI Interrupt Map
          2. 9.4.3.1.2 GIC500 SPI Interrupt Map
          3. 9.4.3.1.3 SoC Event Output Interrupt Map
        2. 9.4.3.2 R5FSS0_CORE0 Interrupt Map
        3. 9.4.3.3 R5FSS0_CORE1 Interrupt Map
        4. 9.4.3.4 MAIN2MCU_LVL_INTRTR0 Interrupt Map
        5. 9.4.3.5 MAIN2MCU_PLS_INTRTR0 Interrupt Map
        6. 9.4.3.6 GPIOMUX_INTRTR0 Interrupt Map
        7. 9.4.3.7 GPIO0_VIRT Interrupt Map
        8. 9.4.3.8 ESM0 Interrupt Map
  12. 10Data Movement Architecture (DMA)
    1. 10.1 DMA Architecture
      1. 10.1.1 Overview
        1. 10.1.1.1  Navigator Subsystem
        2. 10.1.1.2  Ring Accelerator (RA)
        3. 10.1.1.3  Proxy
        4. 10.1.1.4  Secure Proxy
        5. 10.1.1.5  Interrupt Aggregator (INTA)
        6. 10.1.1.6  Interrupt Router (IR)
        7. 10.1.1.7  Unified DMA – Third Party Channel Controller (UDMA-C)
        8. 10.1.1.8  Unified Transfer Controller (UTC)
        9. 10.1.1.9  Data Routing Unit (DRU)
        10. 10.1.1.10 Unified DMA – Peripheral Root Complex (UDMA-P)
          1. 10.1.1.10.1 Channel Classes
        11. 10.1.1.11 Peripheral DMA (PDMA)
        12. 10.1.1.12 Embedded DMA
        13. 10.1.1.13 Definition of Terms
      2. 10.1.2 UDMA Hardware/Software Interface
        1. 10.1.2.1 Data Buffers
        2. 10.1.2.2 Descriptors
          1. 10.1.2.2.1 Host Packet Descriptor
          2. 10.1.2.2.2 Host Buffer Descriptor
          3. 10.1.2.2.3 Monolithic Packet Descriptor
          4. 10.1.2.2.4 Transfer Request Descriptor
        3. 10.1.2.3 Transfer Request Record
          1. 10.1.2.3.1 Overview
          2. 10.1.2.3.2 Addressing Algorithm
            1. 10.1.2.3.2.1 Linear Addressing (Forward)
          3. 10.1.2.3.3 Transfer Request Formats
          4. 10.1.2.3.4 Flags Field Definition
            1. 10.1.2.3.4.1 Type: TR Type Field
            2. 10.1.2.3.4.2 STATIC: Static Field Definition
            3. 10.1.2.3.4.3 EVENT_SIZE: Event Generation Definition
            4. 10.1.2.3.4.4 TRIGGER INFO: TR Triggers
            5. 10.1.2.3.4.5 TRIGGERX_TYPE: Trigger Type
            6. 10.1.2.3.4.6 TRIGGERX: Trigger Selection
            7. 10.1.2.3.4.7 CMD ID: Command ID Field Definition
            8. 10.1.2.3.4.8 Configuration Specific Flags Definition
          5. 10.1.2.3.5 TR Address and Size Attributes
            1. 10.1.2.3.5.1  ICNT0
            2. 10.1.2.3.5.2  ICNT1
            3. 10.1.2.3.5.3  ADDR
            4. 10.1.2.3.5.4  DIM1
            5. 10.1.2.3.5.5  ICNT2
            6. 10.1.2.3.5.6  ICNT3
            7. 10.1.2.3.5.7  DIM2
            8. 10.1.2.3.5.8  DIM3
            9. 10.1.2.3.5.9  DDIM1
            10. 10.1.2.3.5.10 DADDR
            11. 10.1.2.3.5.11 DDIM2
            12. 10.1.2.3.5.12 DDIM3
            13. 10.1.2.3.5.13 DICNT0
            14. 10.1.2.3.5.14 DICNT1
            15. 10.1.2.3.5.15 DICNT2
            16. 10.1.2.3.5.16 DICNT3
          6. 10.1.2.3.6 FMTFLAGS
            1. 10.1.2.3.6.1 AMODE: Addressing Mode Definition
              1. 10.1.2.3.6.1.1 Linear Addressing
              2. 10.1.2.3.6.1.2 Circular Addressing
            2. 10.1.2.3.6.2 DIR: Addressing Mode Direction Definition
            3. 10.1.2.3.6.3 ELTYPE: Element Type Definition
            4. 10.1.2.3.6.4 DFMT: Data Formatting Algorithm Definition
            5. 10.1.2.3.6.5 SECTR: Secondary Transfer Request Definition
              1. 10.1.2.3.6.5.1 Secondary TR Formats
              2. 10.1.2.3.6.5.2 Secondary TR FLAGS
                1. 10.1.2.3.6.5.2.1 SEC_TR_TYPE: Secondary TR Type Field
                2. 10.1.2.3.6.5.2.2 Multiple Buffer Interleave
            6. 10.1.2.3.6.6 AMODE SPECIFIC: Addressing Mode Field
              1. 10.1.2.3.6.6.1 Circular Address Mode Specific Flags
                1. 10.1.2.3.6.6.1.1 CBK0 and CBK1: Circular Block Size Selection
                2. 10.1.2.3.6.6.1.2 Amx: Addressing Mode Selection
            7. 10.1.2.3.6.7 Cache Flags
        4. 10.1.2.4 Transfer Response Record
          1. 10.1.2.4.1 STATUS Field Definition
            1. 10.1.2.4.1.1 STATUS_TYPE Definition
              1. 10.1.2.4.1.1.1 Transfer Error
              2. 10.1.2.4.1.1.2 Aborted Error
              3. 10.1.2.4.1.1.3 Submission Error
              4. 10.1.2.4.1.1.4 Unsupported Feature
              5. 10.1.2.4.1.1.5 Transfer Exception
              6. 10.1.2.4.1.1.6 Teardown Flush
        5. 10.1.2.5 Queues
          1. 10.1.2.5.1 Queue Types
            1. 10.1.2.5.1.1 Transmit Queues (Pass By Reference)
            2. 10.1.2.5.1.2 Transmit Queues (Pass By Value)
            3. 10.1.2.5.1.3 Transmit Completion Queues (Pass By Reference)
            4. 10.1.2.5.1.4 Transmit Completion Queues (Pass By Value)
            5. 10.1.2.5.1.5 Receive Queues
            6. 10.1.2.5.1.6 Free Descriptor Queues
            7. 10.1.2.5.1.7 Free Descriptor/Buffer Queues
          2. 10.1.2.5.2 Ring Accelerator Queues Implementation
      3. 10.1.3 Operational Description
        1. 10.1.3.1  Resource Allocation
        2. 10.1.3.2  Ring Accelerator Operation
          1. 10.1.3.2.1 Queue Initialization
          2. 10.1.3.2.2 Queuing packets (Exposed Ring Mode)
          3. 10.1.3.2.3 De-queuing packets (Exposed Ring Mode)
          4. 10.1.3.2.4 Queuing packets (Queue Mode)
          5. 10.1.3.2.5 De-queuing packets (Queue Mode)
        3. 10.1.3.3  UDMA Internal Transmit Channel Setup (All Packet Types)
        4. 10.1.3.4  UDMA Internal Transmit Channel Teardown (All Packet Types)
        5. 10.1.3.5  UDMA External Transmit Channel Setup
        6. 10.1.3.6  UDMA Transmit External Channel Teardown
        7. 10.1.3.7  UDMA-P Transmit Channel Pause
        8. 10.1.3.8  UDMA-P Transmit Operation (Host Packet Type)
        9. 10.1.3.9  UDMA-P Transmit Operation (Monolithic Packet)
        10. 10.1.3.10 UDMA Transmit Operation (TR Packet)
        11. 10.1.3.11 UDMA Transmit Operation (Direct TR)
        12. 10.1.3.12 UDMA Transmit Error/Exception Handling
          1. 10.1.3.12.1 Null Icnt0 Error
          2. 10.1.3.12.2 Unsupported TR Type
          3. 10.1.3.12.3 Bus Errors
        13. 10.1.3.13 UDMA Receive Channel Setup (All Packet Types)
        14. 10.1.3.14 UDMA Receive Channel Teardown
        15. 10.1.3.15 UDMA-P Receive Channel Pause
        16. 10.1.3.16 UDMA-P Receive Free Descriptor/Buffer Queue Setup (Host Packets)
        17. 10.1.3.17 UDMA-P Receive FlowID Firewall Operation
        18. 10.1.3.18 UDMA-P Receive Operation (Host Packet)
        19. 10.1.3.19 UDMA-P Receive Operation (Monolithic Packet)
        20. 10.1.3.20 UDMA Receive Operation (TR Packet)
        21. 10.1.3.21 UDMA Receive Operation (Direct TR)
        22. 10.1.3.22 UDMA Receive Error/Exception Handling
          1. 10.1.3.22.1 Error Conditions
            1. 10.1.3.22.1.1 Bus Errors
            2. 10.1.3.22.1.2 Null Icnt0 Error
            3. 10.1.3.22.1.3 Unsupported TR Type
          2. 10.1.3.22.2 Exception Conditions Exception Conditions
            1. 10.1.3.22.2.1 Descriptor Starvation
            2. 10.1.3.22.2.2 Protocol Errors
            3. 10.1.3.22.2.3 Dropped Packets
            4. 10.1.3.22.2.4 Reception of EOL Delimiter
            5. 10.1.3.22.2.5 EOP Asserted Prematurely (Short Packet)
            6. 10.1.3.22.2.6 EOP Asserted Late (Long Packets)
        23. 10.1.3.23 UTC Operation
        24. 10.1.3.24 UTC Receive Error/Exception Handling
          1. 10.1.3.24.1 Error Handling
            1. 10.1.3.24.1.1 Null Icnt0 Error
            2. 10.1.3.24.1.2 Unsupported TR Type
          2. 10.1.3.24.2 Exception Conditions
            1. 10.1.3.24.2.1 Reception of EOL Delimiter
            2. 10.1.3.24.2.2 EOP Asserted Prematurely (Short Packet)
            3. 10.1.3.24.2.3 EOP Asserted Late (Long Packets)
    2. 10.2 Navigator Subsystem (NAVSS)
      1. 10.2.1  Main Navigator Subsystem (NAVSS)
        1. 10.2.1.1 NAVSS Overview
        2. 10.2.1.2 NAVSS Integration
          1. 10.2.1.2.1 NAVSS Interrupt Router Configuration
          2. 10.2.1.2.2 Global Event Map
          3. 10.2.1.2.3 PSI-L System Thread Map (All NAVSS)
          4. 10.2.1.2.4 NAVSS VBUSM Route ID Table
        3. 10.2.1.3 NAVSS Functional Description
        4. 10.2.1.4 NAVSS Interrupt Configuration
          1. 10.2.1.4.1 NAVSS Event and Interrupt Flow
            1. 10.2.1.4.1.1 NAVSS Interrupts Description
            2. 10.2.1.4.1.2 Application Example
        5. 10.2.1.5 NAVSS Top-level Registers
          1. 10.2.1.5.1 NAVSS0_CFG Registers
          2. 10.2.1.5.2 INTR0_INTR_ROUTER_CFG Registers
          3. 10.2.1.5.3 VIRTID_CFG_MMRS Registers
      2. 10.2.2  MCU Navigator Subsystem (MCU NAVSS)
        1. 10.2.2.1 MCU NAVSS Overview
        2. 10.2.2.2 MCU NAVSS Integration
          1. 10.2.2.2.1  MCU NAVSS Interrupt Router Configuration
          2. 10.2.2.2.2  MCU NAVSS UDMASS Interrupt Aggregator Configuration
          3. 10.2.2.2.3  MCU NAVSS UDMA Configuration
          4. 10.2.2.2.4  MCU NAVSS Ring Accelerator Configuration
          5. 10.2.2.2.5  MCU NAVSS Proxy Configuration
          6. 10.2.2.2.6  MCU NAVSS Secure Proxy Configuration
          7. 10.2.2.2.7  Global Event Map
          8. 10.2.2.2.8  PSI-L System Thread Map (All NAVSS)
          9. 10.2.2.2.9  MCU NAVSS VBUSM Route ID Table
          10. 10.2.2.2.10 1006
        3. 10.2.2.3 MCU NAVSS Functional Description
        4. 10.2.2.4 MCU NAVSS Top-Level Registers
          1. 10.2.2.4.1 MCU_NAVSS0_CFG Registers
          2. 10.2.2.4.2 MCU_NAVSS0_UDMASS_ECCAGGR0 Registers
      3. 10.2.3  Unified DMA Controller (UDMA)
        1. 10.2.3.1 UDMA Overview
          1. 10.2.3.1.1 UDMA Features
          2. 10.2.3.1.2 UDMA Parameters
        2. 10.2.3.2 UDMA Integration
        3. 10.2.3.3 UDMA Functional Description
          1. 10.2.3.3.1 Block Diagram
          2. 10.2.3.3.2 General Functionality
            1. 10.2.3.3.2.1  Operational States
            2. 10.2.3.3.2.2  Tx Channel Allocation
            3. 10.2.3.3.2.3  Rx Channel Allocation
            4. 10.2.3.3.2.4  Tx Teardown
            5. 10.2.3.3.2.5  Rx Teardown
            6. 10.2.3.3.2.6  Tx Clock Stop
            7. 10.2.3.3.2.7  Rx Clock Stop
            8. 10.2.3.3.2.8  Rx Thread Enables
            9. 10.2.3.3.2.9  Events
              1. 10.2.3.3.2.9.1 Local Event Inputs
              2. 10.2.3.3.2.9.2 Inbound Tx PSI-L Events
              3. 10.2.3.3.2.9.3 Outbound Rx PSI-L Events
            10. 10.2.3.3.2.10 Emulation Control
          3. 10.2.3.3.3 Packet Oriented Transmit Operation
            1. 10.2.3.3.3.1 Packet Mode VBUSM Master Interface Command ID Selection
          4. 10.2.3.3.4 Packet Oriented Receive Operation
            1. 10.2.3.3.4.1 Rx Packet Drop
            2. 10.2.3.3.4.2 Rx Starvation and the Starvation Timer
          5. 10.2.3.3.5 Third Party Mode Operation
            1. 10.2.3.3.5.1 Events and Flow Control
              1. 10.2.3.3.5.1.1 Channel Triggering
              2. 10.2.3.3.5.1.2 Internal TR Completion Events
            2. 10.2.3.3.5.2 Transmit Operation
              1. 10.2.3.3.5.2.1 Transfer Request
              2. 10.2.3.3.5.2.2 Transfer Response
              3. 10.2.3.3.5.2.3 Data Transfer
              4. 10.2.3.3.5.2.4 Memory Interface Transactions
              5. 10.2.3.3.5.2.5 Error Handling
            3. 10.2.3.3.5.3 Receive Operation
              1. 10.2.3.3.5.3.1 Transfer Request
              2. 10.2.3.3.5.3.2 Transfer Response
              3. 10.2.3.3.5.3.3 Error Handling
            4. 10.2.3.3.5.4 Data Transfer
              1. 10.2.3.3.5.4.1 Memory Interface Transactions
              2. 10.2.3.3.5.4.2 Rx Packet Drop
        4. 10.2.3.4 UDMA Registers
          1. 10.2.3.4.1 UDMASS_UDMAP0_CFG Registers
          2. 10.2.3.4.2 UDMASS_UDMAP0_CFG_TCHAN Registers
          3. 10.2.3.4.3 UDMASS_UDMAP0_CFG_RCHAN Registers
          4. 10.2.3.4.4 UDMASS_UDMAP0_CFG_RFLOW Registers
          5. 10.2.3.4.5 UDMASS_UDMAP0_CFG_RCHANRT Registers
          6. 10.2.3.4.6 UDMASS_UDMAP0_CFG_TCHANRT Registers
      4. 10.2.4  Ring Accelerator (RINGACC)
        1. 10.2.4.1 RINGACC Overview
          1. 10.2.4.1.1 RINGACC Features
          2. 10.2.4.1.2 RINGACC Not Supported Features
          3. 10.2.4.1.3 RINGACC Parameters
        2. 10.2.4.2 RINGACC Integration
        3. 10.2.4.3 RINGACC Functional Description
          1. 10.2.4.3.1 Block Diagram
            1. 10.2.4.3.1.1  Configuration Registers
            2. 10.2.4.3.1.2  Source Command FIFO
            3. 10.2.4.3.1.3  Source Write Data FIFO
            4. 10.2.4.3.1.4  Source Read Data FIFO
            5. 10.2.4.3.1.5  Source Write Status FIFO
            6. 10.2.4.3.1.6  Main State Machine
            7. 10.2.4.3.1.7  Destination Command FIFO
            8. 10.2.4.3.1.8  Destination Write Data FIFO
            9. 10.2.4.3.1.9  Destination Read Data FIFO
            10. 10.2.4.3.1.10 Destination Write Status FIFO
          2. 10.2.4.3.2 RINGACC Functional Operation
            1. 10.2.4.3.2.1 Queue Modes
              1. 10.2.4.3.2.1.1 Ring Mode
              2. 10.2.4.3.2.1.2 Messaging Mode
              3. 10.2.4.3.2.1.3 Credentials Mode
              4. 10.2.4.3.2.1.4 Queue Manager Mode
              5. 10.2.4.3.2.1.5 Peek Support
              6. 10.2.4.3.2.1.6 Index Register Operation
            2. 10.2.4.3.2.2 VBUSM Slave Ring Operations
            3. 10.2.4.3.2.3 VBUSM Master Interface Command ID Selection
            4. 10.2.4.3.2.4 Ring Push Operation (VBUSM Write to Source Interface)
            5. 10.2.4.3.2.5 Ring Pop Operation (VBUSM Read from Source Interface)
            6. 10.2.4.3.2.6 Host Doorbell Access
            7. 10.2.4.3.2.7 Queue Push Operation (VBUSM Write to Source Interface)
            8. 10.2.4.3.2.8 Queue Pop Operation (VBUSM Read from Source Interface)
            9. 10.2.4.3.2.9 Mismatched Element Size Handling
          3. 10.2.4.3.3 Events
          4. 10.2.4.3.4 Bus Error Handling
          5. 10.2.4.3.5 Monitors
            1. 10.2.4.3.5.1 Threshold Monitor
            2. 10.2.4.3.5.2 Watermark Monitor
            3. 10.2.4.3.5.3 Starvation Monitor
            4. 10.2.4.3.5.4 Statistics Monitor
            5. 10.2.4.3.5.5 Overflow
            6. 10.2.4.3.5.6 Ring Update Port
            7. 10.2.4.3.5.7 Tracing
        4. 10.2.4.4 RINGACC Registers
          1. 10.2.4.4.1 NAVSS0_UDMASS_RINGACC0_CFG Registers
          2. 10.2.4.4.2 NAVSS0_UDMASS_RINGACC0_GCFG Registers
          3. 10.2.4.4.3 NAVSS0_UDMASS_RINGACC0_CFG_MON Registers
          4. 10.2.4.4.4 NAVSS0_UDMASS_RINGACC0_CFG_RT Registers
          5. 10.2.4.4.5 NAVSS0_UDMASS_RINGACC0_SRC_FIFOS Registers
      5. 10.2.5  Proxy
        1. 10.2.5.1 Proxy Overview
          1. 10.2.5.1.1 Proxy Features
          2. 10.2.5.1.2 Proxy Parameters
          3. 10.2.5.1.3 Proxy Not Supported Features
        2. 10.2.5.2 Proxy Integration
        3. 10.2.5.3 Proxy Functional Description
          1. 10.2.5.3.1  Targets
            1. 10.2.5.3.1.1 Ring Accelerator
          2. 10.2.5.3.2  Proxy Sizes
          3. 10.2.5.3.3  Proxy Interleaving
          4. 10.2.5.3.4  Proxy Host States
          5. 10.2.5.3.5  Proxy Host Channel Selection
          6. 10.2.5.3.6  Proxy Host Access
            1. 10.2.5.3.6.1 Proxy Host Writes
            2. 10.2.5.3.6.2 Proxy Host Reads
          7. 10.2.5.3.7  Permission Inheritance
          8. 10.2.5.3.8  Buffer Size
          9. 10.2.5.3.9  Error Events
          10. 10.2.5.3.10 Debug Reads
        4. 10.2.5.4 Proxy Registers
          1. 10.2.5.4.1 NAVSS0_PROXY0_CFG_BUF_CFG Registers
          2. 10.2.5.4.2 NAVSS0_PROXY0_BUF_CFG Registers
          3. 10.2.5.4.3 NAVSS0_PROXY_BUF Registers
          4. 10.2.5.4.4 NAVSS0_PROXY_TARGET0_DATA Registers
      6. 10.2.6  Secure Proxy
        1. 10.2.6.1 Secure Proxy Overview
          1. 10.2.6.1.1 Secure Proxy Features
          2. 10.2.6.1.2 Secure Proxy Parameters
          3. 10.2.6.1.3 Secure Proxy Not Supported Features
        2. 10.2.6.2 Secure Proxy Integration
        3. 10.2.6.3 Secure Proxy Functional Description
          1. 10.2.6.3.1  Targets
            1. 10.2.6.3.1.1 Ring Accelerator
          2. 10.2.6.3.2  Buffers
            1. 10.2.6.3.2.1 Proxy Credits
            2. 10.2.6.3.2.2 Proxy Private Word
            3. 10.2.6.3.2.3 Completion Byte
          3. 10.2.6.3.3  Proxy Thread Sizes
          4. 10.2.6.3.4  Proxy Thread Interleaving
          5. 10.2.6.3.5  Proxy States
          6. 10.2.6.3.6  Proxy Host Access
            1. 10.2.6.3.6.1 Proxy Host Writes
            2. 10.2.6.3.6.2 Proxy Host Reads
            3. 10.2.6.3.6.3 Buffer Accesses
            4. 10.2.6.3.6.4 Target Access
            5. 10.2.6.3.6.5 Error State
          7. 10.2.6.3.7  Permission Inheritance
          8. 10.2.6.3.8  Resource Association
          9. 10.2.6.3.9  Direction
          10. 10.2.6.3.10 Threshold Events
          11. 10.2.6.3.11 Error Events
          12. 10.2.6.3.12 Bus Errors and Credits
          13. 10.2.6.3.13 Debug
        4. 10.2.6.4 Secure Proxy Registers
          1. 10.2.6.4.1 NAVSS0_SEC_PROXY0_CFG_MMRS Registers
          2. 10.2.6.4.2 NAVSS0_SEC_PROXY0_CFG_RT Registers
          3. 10.2.6.4.3 NAVSS0_SEC_PROXY0_CFG_SCFG Registers
          4. 10.2.6.4.4 NAVSS0_SEC_PROXY0_SRC_TARGET_DATA Registers
      7. 10.2.7  Interrupt Aggregator (INTR_AGGR)
        1. 10.2.7.1 INTR_AGGR Overview
          1. 10.2.7.1.1 INTR_AGGR Features
          2. 10.2.7.1.2 INTR_AGGR Parameters
        2. 10.2.7.2 INTR_AGGR Integration
        3. 10.2.7.3 INTR_AGGR Functional Description
          1. 10.2.7.3.1 Submodule Descriptions
            1. 10.2.7.3.1.1 Status/Mask Registers
            2. 10.2.7.3.1.2 Interrupt Mapping Block
            3. 10.2.7.3.1.3 Global Event Input (GEVI) Counters
            4. 10.2.7.3.1.4 Local Event Input (LEVI) to Global Event Conversion
            5. 10.2.7.3.1.5 Global Event Multicast
          2. 10.2.7.3.2 General Functionality
            1. 10.2.7.3.2.1 Event to Interrupt Bit Steering
            2. 10.2.7.3.2.2 Interrupt Status
            3. 10.2.7.3.2.3 Interrupt Masked Status
            4. 10.2.7.3.2.4 Enabling/Disabling Individual Interrupt Source Bits
            5. 10.2.7.3.2.5 Interrupt Output Generation
            6. 10.2.7.3.2.6 Global Event Counting
            7. 10.2.7.3.2.7 Local Event to Global Event Conversion
            8. 10.2.7.3.2.8 Global Event Multicast
        4. 10.2.7.4 INTR_AGGR Registers
          1. 10.2.7.4.1  MODSS_INTA_CFG Registers
          2. 10.2.7.4.2  MODSS_INTA_CFG_IMAP Registers
          3. 10.2.7.4.3  MODSS_INTA_CFG_INTR Registers
          4. 10.2.7.4.4  UDMASS_INTA0_CFG Registers
          5. 10.2.7.4.5  UDMASS_INTA0_CFG_INTR Registers
          6. 10.2.7.4.6  UDMASS_INTA0_CFG_IMAP Registers
          7. 10.2.7.4.7  UDMASS_INTA0_CFG_L2G Registers
          8. 10.2.7.4.8  UDMASS_INTA0_CFG_MCAST Registers
          9. 10.2.7.4.9  UDMASS_INTA0_CFG_GCNTCFG Registers
          10. 10.2.7.4.10 UDMASS_INTA0_CFG_GCNTRTI Registers
      8. 10.2.8  Packet Streaming Interface Link (PSI-L)
        1. 10.2.8.1 PSI-L Overview
        2. 10.2.8.2 PSI-L Functional Description
          1. 10.2.8.2.1 PSI-L Introduction
          2. 10.2.8.2.2 PSI-L Operation
            1. 10.2.8.2.2.1 Event Transport
            2. 10.2.8.2.2.2 Threads
            3. 10.2.8.2.2.3 Arbitration Protocol
            4. 10.2.8.2.2.4 Thread Configuration
              1. 10.2.8.2.2.4.1 Thread Pairing
                1. 10.2.8.2.2.4.1.1 Configuration Transaction Pairing
              2. 10.2.8.2.2.4.2 Configuration Registers Region
        3. 10.2.8.3 PSI-L Configuration Registers
        4. 10.2.8.4 PSI-L CFG_PROXY Registers
      9. 10.2.9  PSIL Subsystem (PSILSS)
        1. 10.2.9.1 PSILSS Overview
          1. 10.2.9.1.1 PSILSS Features
        2. 10.2.9.2 PSILSS Functional Description
          1. 10.2.9.2.1 PSILSS Basic Operation
          2. 10.2.9.2.2 PSILSS Event Routing
          3. 10.2.9.2.3 PSILSS Link Down Detection
          4. 10.2.9.2.4 PSILSS Configuration
        3. 10.2.9.3 PSILSS Registers
          1. 10.2.9.3.1 PDMA_USART_PSILSS0 Registers
          2. 10.2.9.3.2 PDMA_SPI_PSILSS0 Registers
      10. 10.2.10 NAVSS North Bridge (NB)
        1. 10.2.10.1 NB Overview
          1. 10.2.10.1.1 Features Supported
          2. 10.2.10.1.2 NB Parameters
            1. 10.2.10.1.2.1 Compliance to Standards
            2. 10.2.10.1.2.2 Features Not Supported
        2. 10.2.10.2 NB Functional Description
          1. 10.2.10.2.1  VBUSM Slave Interfaces
          2. 10.2.10.2.2  VBUSM Master Interface
          3. 10.2.10.2.3  VBUSM.C Interfaces
            1. 10.2.10.2.3.1 Multi-Threading
            2. 10.2.10.2.3.2 Write Command Crediting
            3. 10.2.10.2.3.3 Early Credit Response
            4. 10.2.10.2.3.4 Priority Escalation
          4. 10.2.10.2.4  Source M2M Bridges
          5. 10.2.10.2.5  Destination M2M Bridge
          6. 10.2.10.2.6  M2C Bridge
          7. 10.2.10.2.7  Memory Attribute Tables
          8. 10.2.10.2.8  Outstanding Read Data Limiter
          9. 10.2.10.2.9  Ordering
          10. 10.2.10.2.10 Quality of Service
          11. 10.2.10.2.11 IDLE Behavior
          12. 10.2.10.2.12 Clock Power Management
        3. 10.2.10.3 NB Registers
          1. 10.2.10.3.1 NAVSS0_NBSS_CFG_REGS0_MMRS Registers
          2. 10.2.10.3.2 NAVSS0_NBSS_NB_CFG_MMRS Registers
    3. 10.3 Peripheral DMA (PDMA)
      1. 10.3.1 PDMA Controller
        1. 10.3.1.1 PDMA Overview
          1. 10.3.1.1.1 PDMA Features
            1. 10.3.1.1.1.1  MCU_PDMA0 (MCU_PDMA_MISC_G0) Features
            2. 10.3.1.1.1.2  MCU_PDMA1 (MCU_PDMA_MISC_G1) Features
            3. 10.3.1.1.1.3  MCU_PDMA2 (MCU_PDMA_MISC_G2) Features
            4. 10.3.1.1.1.4  MCU_PDMA3 (MCU_PDMA_ADC) Features
            5. 10.3.1.1.1.5  PDMA2 (PDMA_DEBUG_CCMCU) Features
            6. 10.3.1.1.1.6  PDMA5 (PDMA_MCAN) Features
            7. 10.3.1.1.1.7  PDMA6 (PDMA_MCASP_G0) Features
            8. 10.3.1.1.1.8  PDMA9 (PDMA_SPI_G0) Features
            9. 10.3.1.1.1.9  PDMA10 (PDMA_SPI_G1) Features
            10. 10.3.1.1.1.10 PDMA13 (PDMA_USART_G0) Features
            11. 10.3.1.1.1.11 PDMA14 (PDMA_USART_G1) Features
            12. 10.3.1.1.1.12 PDMA15 (PDMA_USART_G2) Features
        2. 10.3.1.2 PDMA Integration
          1. 10.3.1.2.1 PDMA Integration in MCU Domain
          2. 10.3.1.2.2 PDMA Integration in MAIN Domain
        3. 10.3.1.3 PDMA Functional Description
          1. 10.3.1.3.1 PDMA Functional Blocks
            1. 10.3.1.3.1.1 Scheduler
            2. 10.3.1.3.1.2 Tx Per-Channel Buffers (TCP FIFO)
            3. 10.3.1.3.1.3 Tx DMA Unit (Tx Engine)
            4. 10.3.1.3.1.4 Rx Per-Channel Buffers (RCP FIFO)
            5. 10.3.1.3.1.5 Rx DMA Unit (Rx Engine)
          2. 10.3.1.3.2 PDMA General Functionality
            1. 10.3.1.3.2.1 Operational States
            2. 10.3.1.3.2.2 Clock Stop
            3. 10.3.1.3.2.3 Emulation Control
          3. 10.3.1.3.3 PDMA Events and Flow Control
            1. 10.3.1.3.3.1 Channel Types
              1. 10.3.1.3.3.1.1 X-Y FIFO Mode
              2. 10.3.1.3.3.1.2 MCAN Mode
              3. 10.3.1.3.3.1.3 AASRC Mode
              4. 10.3.1.3.3.1.4 1288
            2. 10.3.1.3.3.2 Channel Triggering
            3. 10.3.1.3.3.3 Completion Events
          4. 10.3.1.3.4 PDMA Transmit Operation
            1. 10.3.1.3.4.1 Destination (Tx) Channel Allocation
            2. 10.3.1.3.4.2 Destination (Tx) Channel Out-of-Band Signals
            3. 10.3.1.3.4.3 Destination Channel Initialization
              1. 10.3.1.3.4.3.1 PSI-L Destination Thread Pairing
              2. 10.3.1.3.4.3.2 Static Transfer Request Setup
              3. 10.3.1.3.4.3.3 1297
              4. 10.3.1.3.4.3.4 PSI-L Destination Thread Enables
            4. 10.3.1.3.4.4 Data Transfer
              1. 10.3.1.3.4.4.1 X-Y FIFO Mode Channel
                1. 10.3.1.3.4.4.1.1 X-Y FIFO Burst Mode
              2. 10.3.1.3.4.4.2 MCAN Mode Channel
                1. 10.3.1.3.4.4.2.1 MCAN Burst Mode
              3. 10.3.1.3.4.4.3 AASRC Mode Channel
            5. 10.3.1.3.4.5 Tx Pause
            6. 10.3.1.3.4.6 Tx Teardown
            7. 10.3.1.3.4.7 Tx Channel Reset
            8. 10.3.1.3.4.8 Tx Debug/State Registers
          5. 10.3.1.3.5 PDMA Receive Operation
            1. 10.3.1.3.5.1 Source (Rx) Channel Allocation
            2. 10.3.1.3.5.2 Source Channel Initialization
              1. 10.3.1.3.5.2.1 PSI-L Source Thread Pairing
              2. 10.3.1.3.5.2.2 Static Transfer Request Setup
              3. 10.3.1.3.5.2.3 PSI-L Source Thread Enables
            3. 10.3.1.3.5.3 Data Transfer
              1. 10.3.1.3.5.3.1 X-Y FIFO Mode Channel
              2. 10.3.1.3.5.3.2 MCAN Mode Channel
                1. 10.3.1.3.5.3.2.1 MCAN Burst Mode
              3. 10.3.1.3.5.3.3 AASRC Mode Channel
            4. 10.3.1.3.5.4 Rx Pause
            5. 10.3.1.3.5.5 Rx Teardown
            6. 10.3.1.3.5.6 Rx Channel Reset
            7. 10.3.1.3.5.7 Rx Debug/State Register
          6. 10.3.1.3.6 PDMA ECC Support
        4. 10.3.1.4 PDMA Registers
          1. 10.3.1.4.1 PDMA5 ECC Registers
          2. 10.3.1.4.2 PDMA9 ECC Registers
          3. 10.3.1.4.3 PDMA10 ECC Registers
          4. 10.3.1.4.4 PDMA PSI-L TX Configuration Registers
          5. 10.3.1.4.5 PDMA PSI-L RX Configuration Registers
      2. 10.3.2 PDMA Sources
        1. 10.3.2.1 MCU Domain PDMA Event Maps
          1. 10.3.2.1.1 MCU_PDMA_MISC_G0 Event Map
          2. 10.3.2.1.2 MCU_PDMA_MISC_G1 Event Map
          3. 10.3.2.1.3 MCU_PDMA_MISC_G2 Event Map
          4. 10.3.2.1.4 MCU_PDMA_ADC Event Map
        2. 10.3.2.2 MAIN Domain PDMA Event Maps
          1. 10.3.2.2.1 PDMA_DEBUG_CCMCU Event Map
          2. 10.3.2.2.2 PDMA_MCAN Event Map
          3. 10.3.2.2.3 PDMA_MCASP_G0 Event Map
          4. 10.3.2.2.4 PDMA_SPI_G0 Event Map
          5. 10.3.2.2.5 PDMA_SPI_G1 Event Map
          6. 10.3.2.2.6 PDMA_USART_G0 Event Map
          7. 10.3.2.2.7 PDMA_USART_G1 Event Map
          8. 10.3.2.2.8 PDMA_USART_G2 Event Map
  13. 11Time Sync
    1. 11.1 Time Sync Module (CPTS)
      1. 11.1.1 CPTS Overview
        1. 11.1.1.1 CPTS Features
        2. 11.1.1.2 CPTS Not Supported Features
      2. 11.1.2 CPTS Integration
      3. 11.1.3 CPTS Functional Description
        1. 11.1.3.1  CPTS Architecture
        2. 11.1.3.2  CPTS Initialization
        3. 11.1.3.3  32-bit Time Stamp Value
        4. 11.1.3.4  64-bit Time Stamp Value
          1. 11.1.3.4.1 64-Bit Timestamp Nudge
          2. 11.1.3.4.2 64-bit Timestamp PPM
        5. 11.1.3.5  Event FIFO
        6. 11.1.3.6  Timestamp Compare Output
          1. 11.1.3.6.1 Non-Toggle Mode
          2. 11.1.3.6.2 Toggle Mode
        7. 11.1.3.7  Timestamp Sync Output
        8. 11.1.3.8  Timestamp GENF Output
          1. 11.1.3.8.1 GENFn Nudge
          2. 11.1.3.8.2 GENFn PPM
        9. 11.1.3.9  Time Sync Events
          1. 11.1.3.9.1 Time Stamp Push Event
          2. 11.1.3.9.2 Time Stamp Counter Rollover Event (32-bit mode only)
          3. 11.1.3.9.3 Time Stamp Counter Half-rollover Event (32-bit mode only)
          4. 11.1.3.9.4 Hardware Time Stamp Push Event
        10. 11.1.3.10 Timestamp Compare Event
        11. 11.1.3.11 CPTS Interrupt Handling
      4. 11.1.4 CPTS Registers
    2. 11.2 Timer Manager
      1. 11.2.1 Timer Manager Overview
        1. 11.2.1.1 Timer Manager Features
        2. 11.2.1.2 Timer Manager Not Supported Features
      2. 11.2.2 Timer Manager Integration
      3. 11.2.3 Timer Manager Functional Description
        1. 11.2.3.1 Timer Manager Function Overview
        2. 11.2.3.2 Timer Counter
          1. 11.2.3.2.1 Timer Counter Rollover
        3. 11.2.3.3 Timer Control Module (FSM)
        4. 11.2.3.4 Timer Reprogramming
          1. 11.2.3.4.1 Periodic Hardware Timers
        5. 11.2.3.5 Event FIFO
        6. 11.2.3.6 Output Event Lookup (OES RAM)
      4. 11.2.4 Timer Manager Programming Guide
        1. 11.2.4.1 Timer Manager Low-level Programming Models
          1. 11.2.4.1.1 Surrounding Modules Global Initialization
          2. 11.2.4.1.2 Initialization Sequence
          3. 11.2.4.1.3 Real-time Operating Requirements
            1. 11.2.4.1.3.1 Timer Touch
            2. 11.2.4.1.3.2 Timer Disable
            3. 11.2.4.1.3.3 Timer Enable
          4. 11.2.4.1.4 Power Up/Power Down Sequence
      5. 11.2.5 Timer Manager Registers
        1. 11.2.5.1 TIMERMGR_CFG_CFG Registers
        2. 11.2.5.2 TIMERMGR_CFG_OES Registers
        3. 11.2.5.3 TIMERMGR_CFG_TIMERS Registers
    3. 11.3 Time Sync and Compare Events
      1. 11.3.1 Time Sync Architecture
        1. 11.3.1.1 Time Sync Architecture Overview
      2. 11.3.2 Time Sync Routers
        1. 11.3.2.1 Time Sync Routers Overview
        2. 11.3.2.2 Time Sync Routers Integration
          1. 11.3.2.2.1 TIMESYNC_INTRTR0 Integration
          2. 11.3.2.2.2 CMPEVT_INTRTR0 Integration
        3. 11.3.2.3 Time Sync Routers Registers
          1. 11.3.2.3.1 TIMESYNC_INTRTR0 Registers
          2. 11.3.2.3.2 CMPEVT_INTRTR0 Registers
      3. 11.3.3 Time Sync Event Sources
        1. 11.3.3.1 CMPEVT_INTRTR0 Event Map
        2. 11.3.3.2 TIMESYNC_INTRTR0 Event Map
        3. 11.3.3.3 DMSS0 Sync Event Map
        4. 11.3.3.4 PCIE1 Sync Event Map
        5. 11.3.3.5 MCU_CPSW0 Sync Event Map
        6. 11.3.3.6 CPSW0 Sync Event Map
        7. 11.3.3.7 I/O Sync 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 MCU 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 WKUP 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 DeepSleep Mode
          6. 12.1.2.4.6 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 1501
          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 WKUP Domain
          2. 12.1.3.3.2 I2C Integration in MCU Domain
          3. 12.1.3.3.3 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 Improved Inter-Integrated Circuit (I3C) Interface
        1. 12.1.4.1 I3C Overview
          1. 12.1.4.1.1 I3C Features
          2. 12.1.4.1.2 I3C Not Supported Features
        2. 12.1.4.2 I3C Environment
          1. 12.1.4.2.1 I3C Typical Application
            1. 12.1.4.2.1.1 I3C Pins for Typical Connections
            2. 12.1.4.2.1.2 I3C Interface Typical Connections
            3. 12.1.4.2.1.3 1555
        3. 12.1.4.3 I3C Integration
          1. 12.1.4.3.1 I3C Integration in MCU Domain
          2. 12.1.4.3.2 I3C Integration in MAIN Domain
        4. 12.1.4.4 I3C Functional Description
          1. 12.1.4.4.1  I3C Block Diagram
          2. 12.1.4.4.2  I3C Clock Configuration
            1. 12.1.4.4.2.1 Setting Base Frequencies
            2. 12.1.4.4.2.2 Asymmetric Push-Pull SCL Timing
            3. 12.1.4.4.2.3 Open-Drain SCL Timing
            4. 12.1.4.4.2.4 Changing Programmed Frequencies
          3. 12.1.4.4.3  I3C Interrupt Requests
          4. 12.1.4.4.4  I3C Power Configuration
          5. 12.1.4.4.5  I3C Dynamic Address Management
          6. 12.1.4.4.6  I3C Retaining Registers Space
          7. 12.1.4.4.7  I3C Dynamic Address Assignment Procedure
          8. 12.1.4.4.8  I3C Sending CCC Messages
          9. 12.1.4.4.9  I3C In-Band Interrupt
            1. 12.1.4.4.9.1 Regular I3C Slave In-Band Interrupt
            2. 12.1.4.4.9.2 Current Master Takeover In-Band Interrupt
          10. 12.1.4.4.10 I3C Hot-Join Request
          11. 12.1.4.4.11 I3C Immediate Commands
          12. 12.1.4.4.12 I3C Host Commands
          13. 12.1.4.4.13 I3C Sending Private Data in SDR Messages
            1. 12.1.4.4.13.1 SDR Private Write Message
            2. 12.1.4.4.13.2 SDR Private Read Message
            3. 12.1.4.4.13.3 SDR Payload Length Adjustment
        5. 12.1.4.5 I3C Programming Guide
          1. 12.1.4.5.1 I3C Power-On Programming Model
          2. 12.1.4.5.2 I3C Static Devices Programming
          3. 12.1.4.5.3 I3C DAA Procedure Initiation
          4. 12.1.4.5.4 I3C SDR Write Message Programming Model
          5. 12.1.4.5.5 I3C SDR Read Message Programming Model
          6. 12.1.4.5.6 I3C DDR Write Message Programming Model
          7. 12.1.4.5.7 I3C DDR Read Message Programming Model
        6. 12.1.4.6 I3C Registers
      5. 12.1.5 Multichannel Serial Peripheral Interface (MCSPI)
        1. 12.1.5.1 MCSPI Overview
          1. 12.1.5.1.1 SPI Features
          2. 12.1.5.1.2 MCSPI Not Supported Features
        2. 12.1.5.2 MCSPI Environment
          1. 12.1.5.2.1 Basic MCSPI Pins for Master Mode
          2. 12.1.5.2.2 Basic MCSPI Pins for Slave Mode
          3. 12.1.5.2.3 MCSPI Internal Connectivity
          4. 12.1.5.2.4 MCSPI Protocol and Data Format
            1. 12.1.5.2.4.1 Transfer Format
          5. 12.1.5.2.5 MCSPI in Controller Mode
          6. 12.1.5.2.6 MCSPI in Peripheral Mode
        3. 12.1.5.3 MCSPI Integration
          1. 12.1.5.3.1 MCSPI Integration in MCU Domain
          2. 12.1.5.3.2 MCSPI Integration in MAIN Domain
        4. 12.1.5.4 MCSPI Functional Description
          1. 12.1.5.4.1 SPI Block Diagram
          2. 12.1.5.4.2 MCSPI Reset
          3. 12.1.5.4.3 MCSPI Controller Mode
            1. 12.1.5.4.3.1 Controller Mode Features
            2. 12.1.5.4.3.2 Controller Transmit-and-Receive Mode (Full Duplex)
            3. 12.1.5.4.3.3 Controller Transmit-Only Mode (Half Duplex)
            4. 12.1.5.4.3.4 Controller Receive-Only Mode (Half Duplex)
            5. 12.1.5.4.3.5 Single-Channel Controller Mode
              1. 12.1.5.4.3.5.1 Programming Tips When Switching to Another Channel
              2. 12.1.5.4.3.5.2 Force SPIEN[i] Mode
              3. 12.1.5.4.3.5.3 Turbo Mode
            6. 12.1.5.4.3.6 Start-Bit Mode
            7. 12.1.5.4.3.7 Chip-Select Timing Control
            8. 12.1.5.4.3.8 Programmable MCSPI Clock (SPICLK)
              1. 12.1.5.4.3.8.1 Clock Ratio Granularity
          4. 12.1.5.4.4 MCSPI Peripheral Mode
            1. 12.1.5.4.4.1 Dedicated Resources
            2. 12.1.5.4.4.2 Peripheral Transmit-and-Receive Mode
            3. 12.1.5.4.4.3 Peripheral Transmit-Only Mode
            4. 12.1.5.4.4.4 Peripheral Receive-Only Mode
          5. 12.1.5.4.5 MCSPI 3-Pin or 4-Pin Mode
          6. 12.1.5.4.6 MCSPI FIFO Buffer Management
            1. 12.1.5.4.6.1 Buffer Almost Full
            2. 12.1.5.4.6.2 Buffer Almost Empty
            3. 12.1.5.4.6.3 End of Transfer Management
            4. 12.1.5.4.6.4 Multiple MCSPI Word Access
            5. 12.1.5.4.6.5 First MCSPI Word Delay
          7. 12.1.5.4.7 MCSPI Interrupts
            1. 12.1.5.4.7.1 Interrupt Events in Controller Mode
              1. 12.1.5.4.7.1.1 TXx_EMPTY
              2. 12.1.5.4.7.1.2 TXx_UNDERFLOW
              3. 12.1.5.4.7.1.3 RXx_ FULL
              4. 12.1.5.4.7.1.4 End Of Word Count
            2. 12.1.5.4.7.2 Interrupt Events in Peripheral Mode
              1. 12.1.5.4.7.2.1 TXx_EMPTY
              2. 12.1.5.4.7.2.2 TXx_UNDERFLOW
              3. 12.1.5.4.7.2.3 RXx_FULL
              4. 12.1.5.4.7.2.4 RX0_OVERFLOW
              5. 12.1.5.4.7.2.5 End Of Word Count
            3. 12.1.5.4.7.3 Interrupt-Driven Operation
            4. 12.1.5.4.7.4 Polling
          8. 12.1.5.4.8 MCSPI DMA Requests
          9. 12.1.5.4.9 MCSPI Power Saving Management
            1. 12.1.5.4.9.1 Normal Mode
            2. 12.1.5.4.9.2 Idle Mode
              1. 12.1.5.4.9.2.1 Force-Idle Mode
        5. 12.1.5.5 MCSPI Programming Guide
          1. 12.1.5.5.1 MCSPI Global Initialization
            1. 12.1.5.5.1.1 Surrounding Modules Global Initialization
            2. 12.1.5.5.1.2 MCSPI Global Initialization
              1. 12.1.5.5.1.2.1 Main Sequence – MCSPI Global Initialization
          2. 12.1.5.5.2 MCSPI Operational Mode Configuration
            1. 12.1.5.5.2.1 MCSPI Operational Modes
              1. 12.1.5.5.2.1.1 Common Transfer Sequence
              2. 12.1.5.5.2.1.2 End of Transfer Sequences
              3. 12.1.5.5.2.1.3 Transmit-and-Receive (Controller and Peripheral)
              4. 12.1.5.5.2.1.4 Transmit-Only (Controller and Peripheral)
                1. 12.1.5.5.2.1.4.1 Based on Interrupt Requests
                2. 12.1.5.5.2.1.4.2 Based on DMA Write Requests
              5. 12.1.5.5.2.1.5 Controller Normal Receive-Only
                1. 12.1.5.5.2.1.5.1 Based on Interrupt Requests
                2. 12.1.5.5.2.1.5.2 Based on DMA Read Requests
              6. 12.1.5.5.2.1.6 Controller Turbo Receive-Only
                1. 12.1.5.5.2.1.6.1 Based on Interrupt Requests
                2. 12.1.5.5.2.1.6.2 Based on DMA Read Requests
              7. 12.1.5.5.2.1.7 Peripheral Receive-Only
              8. 12.1.5.5.2.1.8 Transfer Procedures With FIFO
                1. 12.1.5.5.2.1.8.1 Common Transfer Sequence in FIFO Mode
                2. 12.1.5.5.2.1.8.2 End of Transfer Sequences in FIFO Mode
                3. 12.1.5.5.2.1.8.3 Transmit-and-Receive With Word Count
                4. 12.1.5.5.2.1.8.4 Transmit-and-Receive Without Word Count
                5. 12.1.5.5.2.1.8.5 Transmit-Only
                6. 12.1.5.5.2.1.8.6 Receive-Only With Word Count
                7. 12.1.5.5.2.1.8.7 Receive-Only Without Word Count
              9. 12.1.5.5.2.1.9 Common Transfer Procedures Without FIFO – Polling Method
                1. 12.1.5.5.2.1.9.1 Receive-Only Procedure – Polling Method
                2. 12.1.5.5.2.1.9.2 Receive-Only Procedure – Interrupt Method
                3. 12.1.5.5.2.1.9.3 Transmit-Only Procedure – Polling Method
                4. 12.1.5.5.2.1.9.4 Transmit-and-Receive Procedure – Polling Method
        6. 12.1.5.6 MCSPI Registers
      6. 12.1.6 Universal Asynchronous Receiver/Transmitter (UART)
        1. 12.1.6.1 UART Overview
          1. 12.1.6.1.1 UART Features
          2. 12.1.6.1.2 IrDA Features
          3. 12.1.6.1.3 CIR Features
          4. 12.1.6.1.4 UART Not Supported Features
        2. 12.1.6.2 UART Environment
          1. 12.1.6.2.1 UART Functional Interfaces
            1. 12.1.6.2.1.1 System Using UART Communication With Hardware Handshake
            2. 12.1.6.2.1.2 UART Interface Description
            3. 12.1.6.2.1.3 UART Protocol and Data Format
            4. 12.1.6.2.1.4 UART 9-bit Mode Data Format
          2. 12.1.6.2.2 RS-485 Functional Interfaces
            1. 12.1.6.2.2.1 System Using RS-485 Communication
            2. 12.1.6.2.2.2 RS-485 Interface Description
          3. 12.1.6.2.3 IrDA Functional Interfaces
            1. 12.1.6.2.3.1 System Using IrDA Communication Protocol
            2. 12.1.6.2.3.2 IrDA Interface Description
            3. 12.1.6.2.3.3 IrDA Protocol and Data Format
              1. 12.1.6.2.3.3.1 SIR Mode
                1. 12.1.6.2.3.3.1.1 Frame Format
                2. 12.1.6.2.3.3.1.2 Asynchronous Transparency
                3. 12.1.6.2.3.3.1.3 Abort Sequence
                4. 12.1.6.2.3.3.1.4 Pulse Shaping
                5. 12.1.6.2.3.3.1.5 Encoder
                6. 12.1.6.2.3.3.1.6 Decoder
                7. 12.1.6.2.3.3.1.7 IR Address Checking
              2. 12.1.6.2.3.3.2 SIR Free-Format Mode
              3. 12.1.6.2.3.3.3 MIR Mode
                1. 12.1.6.2.3.3.3.1 MIR Encoder/Decoder
                2. 12.1.6.2.3.3.3.2 SIP Generation
              4. 12.1.6.2.3.3.4 FIR Mode
          4. 12.1.6.2.4 CIR Functional Interfaces
            1. 12.1.6.2.4.1 System Using CIR Communication Protocol With Remote Control
            2. 12.1.6.2.4.2 CIR Interface Description
            3. 12.1.6.2.4.3 CIR Protocol and Data Format
              1. 12.1.6.2.4.3.1 Carrier Modulation
              2. 12.1.6.2.4.3.2 Pulse Duty Cycle
              3. 12.1.6.2.4.3.3 Consumer IR Encoding/Decoding
        3. 12.1.6.3 UART Integration
          1. 12.1.6.3.1 UART Integration in WKUP Domain
          2. 12.1.6.3.2 UART Integration in MCU Domain
          3. 12.1.6.3.3 UART Integration in MAIN Domain
        4. 12.1.6.4 UART Functional Description
          1. 12.1.6.4.1 UART Block Diagram
          2. 12.1.6.4.2 UART Clock Configuration
          3. 12.1.6.4.3 UART Software Reset
            1. 12.1.6.4.3.1 Independent TX/RX
          4. 12.1.6.4.4 UART Power Management
            1. 12.1.6.4.4.1 UART Mode Power Management
              1. 12.1.6.4.4.1.1 Module Power Saving
              2. 12.1.6.4.4.1.2 System Power Saving
            2. 12.1.6.4.4.2 IrDA Mode Power Management
              1. 12.1.6.4.4.2.1 Module Power Saving
              2. 12.1.6.4.4.2.2 System Power Saving
            3. 12.1.6.4.4.3 CIR Mode Power Management
              1. 12.1.6.4.4.3.1 Module Power Saving
              2. 12.1.6.4.4.3.2 System Power Saving
            4. 12.1.6.4.4.4 Local Power Management
          5. 12.1.6.4.5 UART Interrupt Requests
            1. 12.1.6.4.5.1 UART Mode Interrupt Management
              1. 12.1.6.4.5.1.1 UART Interrupts
              2. 12.1.6.4.5.1.2 Wake-Up Interrupt
            2. 12.1.6.4.5.2 IrDA Mode Interrupt Management
              1. 12.1.6.4.5.2.1 IrDA Interrupts
              2. 12.1.6.4.5.2.2 Wake-Up Interrupts
            3. 12.1.6.4.5.3 CIR Mode Interrupt Management
              1. 12.1.6.4.5.3.1 CIR Interrupts
              2. 12.1.6.4.5.3.2 Wake-Up Interrupts
          6. 12.1.6.4.6 UART FIFO Management
            1. 12.1.6.4.6.1 FIFO Trigger
              1. 12.1.6.4.6.1.1 Transmit FIFO Trigger
              2. 12.1.6.4.6.1.2 Receive FIFO Trigger
            2. 12.1.6.4.6.2 FIFO Interrupt Mode
            3. 12.1.6.4.6.3 FIFO Polled Mode Operation
            4. 12.1.6.4.6.4 FIFO DMA Mode Operation
              1. 12.1.6.4.6.4.1 DMA sequence to disable TX DMA
              2. 12.1.6.4.6.4.2 DMA Transfers (DMA Mode 1, 2, or 3)
              3. 12.1.6.4.6.4.3 DMA Transmission
              4. 12.1.6.4.6.4.4 DMA Reception
          7. 12.1.6.4.7 UART Mode Selection
            1. 12.1.6.4.7.1 Register Access Modes
              1. 12.1.6.4.7.1.1 Operational Mode and Configuration Modes
              2. 12.1.6.4.7.1.2 Register Access Submode
              3. 12.1.6.4.7.1.3 Registers Available for the Register Access Modes
            2. 12.1.6.4.7.2 UART/RS-485/IrDA (SIR, MIR, FIR)/CIR Mode Selection
              1. 12.1.6.4.7.2.1 Registers Available for the UART Function
              2. 12.1.6.4.7.2.2 Registers Available for the IrDA Function
              3. 12.1.6.4.7.2.3 Registers Available for the CIR Function
          8. 12.1.6.4.8 UART Protocol Formatting
            1. 12.1.6.4.8.1 UART Mode
              1. 12.1.6.4.8.1.1 UART Clock Generation: Baud Rate Generation
              2. 12.1.6.4.8.1.2 Choosing the Appropriate Divisor Value
              3. 12.1.6.4.8.1.3 UART Data Formatting
                1. 12.1.6.4.8.1.3.1 Frame Formatting
                2. 12.1.6.4.8.1.3.2 Hardware Flow Control
                3. 12.1.6.4.8.1.3.3 Software Flow Control
                  1. 1.6.4.8.1.3.3.1 Receive (RX)
                  2. 1.6.4.8.1.3.3.2 Transmit (TX)
                4. 12.1.6.4.8.1.3.4 Autobauding Modes
                5. 12.1.6.4.8.1.3.5 Error Detection
                6. 12.1.6.4.8.1.3.6 Overrun During Receive
                7. 12.1.6.4.8.1.3.7 Time-Out and Break Conditions
                  1. 1.6.4.8.1.3.7.1 Time-Out Counter
                  2. 1.6.4.8.1.3.7.2 Break Condition
            2. 12.1.6.4.8.2 RS-485 Mode
              1. 12.1.6.4.8.2.1 RS-485 External Transceiver Direction Control
            3. 12.1.6.4.8.3 IrDA Mode
              1. 12.1.6.4.8.3.1 IrDA Clock Generation: Baud Generator
              2. 12.1.6.4.8.3.2 Choosing the Appropriate Divisor Value
              3. 12.1.6.4.8.3.3 IrDA Data Formatting
                1. 12.1.6.4.8.3.3.1  IR RX Polarity Control
                2. 12.1.6.4.8.3.3.2  IrDA Reception Control
                3. 12.1.6.4.8.3.3.3  IR Address Checking
                4. 12.1.6.4.8.3.3.4  Frame Closing
                5. 12.1.6.4.8.3.3.5  Store and Controlled Transmission
                6. 12.1.6.4.8.3.3.6  Error Detection
                7. 12.1.6.4.8.3.3.7  Underrun During Transmission
                8. 12.1.6.4.8.3.3.8  Overrun During Receive
                9. 12.1.6.4.8.3.3.9  Status FIFO
                10. 12.1.6.4.8.3.3.10 Multi-drop Parity Mode with Address Match
                11. 12.1.6.4.8.3.3.11 Time-guard
              4. 12.1.6.4.8.3.4 SIR Mode Data Formatting
                1. 12.1.6.4.8.3.4.1 Abort Sequence
                2. 12.1.6.4.8.3.4.2 Pulse Shaping
                3. 12.1.6.4.8.3.4.3 SIR Free Format Programming
              5. 12.1.6.4.8.3.5 MIR and FIR Mode Data Formatting
            4. 12.1.6.4.8.4 CIR Mode
              1. 12.1.6.4.8.4.1 CIR Mode Clock Generation
              2. 12.1.6.4.8.4.2 CIR Data Formatting
                1. 12.1.6.4.8.4.2.1 IR RX Polarity Control
                2. 12.1.6.4.8.4.2.2 CIR Transmission
                3. 12.1.6.4.8.4.2.3 CIR Reception
        5. 12.1.6.5 UART Programming Guide
          1. 12.1.6.5.1 UART Global Initialization
            1. 12.1.6.5.1.1 Surrounding Modules Global Initialization
            2. 12.1.6.5.1.2 UART Module Global Initialization
          2. 12.1.6.5.2 UART Mode selection
          3. 12.1.6.5.3 UART Submode selection
          4. 12.1.6.5.4 UART Load FIFO trigger and DMA mode settings
            1. 12.1.6.5.4.1 DMA mode Settings
            2. 12.1.6.5.4.2 FIFO Trigger Settings
          5. 12.1.6.5.5 UART Protocol, Baud rate and interrupt settings
            1. 12.1.6.5.5.1 Baud rate settings
            2. 12.1.6.5.5.2 Interrupt settings
            3. 12.1.6.5.5.3 Protocol settings
            4. 12.1.6.5.5.4 UART/RS-485/IrDA(SIR/MIR/FIR)/CIR
            5. 12.1.6.5.5.5 UART Multi-drop Parity Address Match Mode Configuration
          6. 12.1.6.5.6 UART Hardware and Software Flow Control Configuration
            1. 12.1.6.5.6.1 Hardware Flow Control Configuration
            2. 12.1.6.5.6.2 Software Flow Control Configuration
          7. 12.1.6.5.7 IrDA Programming Model
            1. 12.1.6.5.7.1 SIR mode
              1. 12.1.6.5.7.1.1 Receive
              2. 12.1.6.5.7.1.2 Transmit
            2. 12.1.6.5.7.2 MIR mode
              1. 12.1.6.5.7.2.1 Receive
              2. 12.1.6.5.7.2.2 Transmit
            3. 12.1.6.5.7.3 FIR mode
              1. 12.1.6.5.7.3.1 Receive
              2. 12.1.6.5.7.3.2 Transmit
        6. 12.1.6.6 UART Registers
    2. 12.2 High-speed Serial Interfaces
      1. 12.2.1 Gigabit Ethernet MAC (MCU_CPSW0)
        1. 12.2.1.1 MCU_CPSW0 Overview
          1. 12.2.1.1.1 MCU_CPSW0 Features
          2. 12.2.1.1.2 MCU_CPSW0 Not Supported Features
          3. 12.2.1.1.3 Terminology
        2. 12.2.1.2 MCU_CPSW0 Environment
          1. 12.2.1.2.1 MCU_CPSW0 RMII Interface
          2. 12.2.1.2.2 MCU_CPSW0 RGMII Interface
        3. 12.2.1.3 MCU_CPSW0 Integration
        4. 12.2.1.4 MCU_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_2G
            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 2-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 Free Table Entry
                2. 12.2.1.4.6.1.9.2 Multicast Address Table Entry
                3. 12.2.1.4.6.1.9.3 VLAN/Multicast Address Table Entry
                4. 12.2.1.4.6.1.9.4 Unicast Address Table Entry
                5. 12.2.1.4.6.1.9.5 OUI Unicast Address Table Entry
                6. 12.2.1.4.6.1.9.6 VLAN/Unicast Address Table Entry
                7. 12.2.1.4.6.1.9.7 VLAN Table Entry
              10. 12.2.1.4.6.1.10 ALE Policing and Classification
                1. 12.2.1.4.6.1.10.1 ALE Classification
                  1. 2.1.4.6.1.10.1.1 Classifier to CPPI Transmit Flow ID Mapping
              11. 12.2.1.4.6.1.11 DSCP
              12. 12.2.1.4.6.1.12 Packet Forwarding Processes
                1. 12.2.1.4.6.1.12.1 Ingress Filtering Process
                2. 12.2.1.4.6.1.12.2 VLAN_Aware Lookup Process
                3. 12.2.1.4.6.1.12.3 Egress Process
                4. 12.2.1.4.6.1.12.4 Learning/Updating/Touching Processes
                  1. 2.1.4.6.1.12.4.1 Learning Process
                  2. 2.1.4.6.1.12.4.2 Updating Process
                  3. 2.1.4.6.1.12.4.3 Touching Process
              13. 12.2.1.4.6.1.13 VLAN Aware Mode
              14. 12.2.1.4.6.1.14 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 1945
                1. 12.2.1.4.6.10.1.1 1946
                  1. 2.1.4.6.10.1.1.1 CRC Insertion
                  2. 2.1.4.6.10.1.1.2 MTXER
                  3. 2.1.4.6.10.1.1.3 Adaptive Performance Optimization (APO)
                  4. 2.1.4.6.10.1.1.4 Inter-Packet-Gap Enforcement
                  5. 2.1.4.6.10.1.1.5 Back Off
                  6. 2.1.4.6.10.1.1.6 Programmable Transmit Inter-Packet Gap
                  7. 2.1.4.6.10.1.1.7 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 - Port 0 or Offset = 3A200h - Port 1)
                2. 12.2.1.4.6.18.1.2  Broadcast Rx Frames (Offset = 3A004h - Port 0 or Offset = 3A204h - Port 1)
                3. 12.2.1.4.6.18.1.3  Multicast Rx Frames (Offset = 3A008h - Port 0 or Offset = 3A208h - Port 1)
                4. 12.2.1.4.6.18.1.4  Pause Rx Frames (Offset = 3A20Ch - Port 1)
                5. 12.2.1.4.6.18.1.5  Rx CRC Errors (Offset = 3A010h - Port 0 or Offset = 3A210h - Port 1)
                6. 12.2.1.4.6.18.1.6  Rx Align/Code Errors (Offset = 3A214h - Port 1)
                7. 12.2.1.4.6.18.1.7  Oversize Rx Frames (Offset = 3A018h - Port 0 or Offset = 3A218h - Port 1)
                8. 12.2.1.4.6.18.1.8  Rx Jabbers (Offset = 3A21Ch - Port 1)
                9. 12.2.1.4.6.18.1.9  Undersize (Short) Rx Frames (Offset = 3A020h- Port 0 or Offset = 3A220h - Port 1)
                10. 12.2.1.4.6.18.1.10 Rx Fragments (Offset = 3A024h - Port 0 or Offset = 3A224h - Port 1)
                11. 12.2.1.4.6.18.1.11 RX IPG Error (Offset = 3A25Ch - Port 1)
                12. 12.2.1.4.6.18.1.12 ALE Drop (Offset = 3A028h - Port 0 or Offset = 3A228h - Port 1)
                13. 12.2.1.4.6.18.1.13 ALE Overrun Drop (Offset = 3A02Ch - Port 0 or Offset = 3A22Ch - Port 1)
                14. 12.2.1.4.6.18.1.14 Rx Octets (Offset = 3A030h - Port 0 or Offset = 3A230h - Port 1)
                15. 12.2.1.4.6.18.1.15 Rx Bottom of FIFO Drop (Offset = 3A084h - Port 0 or Offset = 3A284h - Port 1)
                16. 12.2.1.4.6.18.1.16 Portmask Drop (Offset = 3A088h - Port 0 or Offset = 3A288h - Port 1)
                17. 12.2.1.4.6.18.1.17 Rx Top of FIFO Drop (Offset = 3A08Ch - Port 0 or Offset = 3A28Ch - Port 1)
                18. 12.2.1.4.6.18.1.18 ALE Rate Limit Drop (Offset = 3A090h - Port 0 or Offset = 3A290h - Port 1)
                19. 12.2.1.4.6.18.1.19 ALE VLAN Ingress Check Drop (Offset = 3A094h - Port 0 or Offset = 3A294h - Port 1)
                  1. 2.1.4.6.18.1.19.1  ALE DA=SA Drop (Offset = 3A098h - Port 0 or Offset = 3A298h - Port 1)
                  2. 2.1.4.6.18.1.19.2  Block Address Drop (Offset = 3A09Ch - Port 0 or Offset = 3A29Ch - Port 1)
                  3. 2.1.4.6.18.1.19.3  ALE Secure Drop (Offset = 3A0A0h - Port 0 or Offset = 3A2A0h - Port 1)
                  4. 2.1.4.6.18.1.19.4  ALE Authentication Drop (Offset = 3A0A4h - Port 0 or Offset = 3A2A4h - Port 1)
                  5. 2.1.4.6.18.1.19.5  ALE Unknown Unicast (Offset = 3A0A8h - Port 0 or Offset = 3A2A8h - Port 1)
                  6. 2.1.4.6.18.1.19.6  ALE Unknown Unicast Bytecount (Offset = 3A0ACh - Port 0 or Offset = 3A2ACh - Port 1)
                  7. 2.1.4.6.18.1.19.7  ALE Unknown Multicast (Offset = 3A0B0h - Port 0 or Offset = 3A2B0h - Port 1)
                  8. 2.1.4.6.18.1.19.8  ALE Unknown Multicast Bytecount (Offset = 3A0B4h - Port 0 or Offset = 3A2B4h - Port 1)
                  9. 2.1.4.6.18.1.19.9  ALE Unknown Broadcast (Offset = 3A0B8h - Port 0 or Offset = 3A2B8h - Port 1)
                  10. 2.1.4.6.18.1.19.10 ALE Unknown Broadcast Bytecount (Offset = 3A0BCh - Port 0 or Offset = 3A2BCh - Port 1)
                  11. 2.1.4.6.18.1.19.11 ALE Policer/Classifier Match (Offset = 3A0C0h - Port 0 or Offset = 3A2C0h - Port 1)
              2. 12.2.1.4.6.18.2  ALE Policer Match Red (Offset = 3A0C4h - Port 0 or Offset = 3A2C4h - Port 1)
              3. 12.2.1.4.6.18.3  ALE Policer Match Yellow (Offset = 3A0C8h - Port 0 or Offset = 3A2C8h - Port 1)
              4. 12.2.1.4.6.18.4  IET Receive Assembly Error (Offset = 3A140h - Port 0 or Offset = 3A340h - Port 1)
              5. 12.2.1.4.6.18.5  IET Receive Assembly OK (Offset = 3A144h - Port 0 or Offset = 3A344h - Port 1)
              6. 12.2.1.4.6.18.6  IET Receive SMD Error (Offset = 3A148h - Port 0 or Offset = 3A348h - Port 1)
              7. 12.2.1.4.6.18.7  IET Receive Merge Fragment Count (Offset = 3A14Ch - Port 0 or Offset = 3A34Ch - Port 1)
              8. 12.2.1.4.6.18.8  Tx-only Statistics Descriptions
                1. 12.2.1.4.6.18.8.1  Good Tx Frames (Offset = 3A034h - Port 0 or Offset = 3A234h - Port 1)
                2. 12.2.1.4.6.18.8.2  Broadcast Tx Frames (Offset = 3A038h - Port 0 or Offset = 3A238h - Port 1)
                3. 12.2.1.4.6.18.8.3  Multicast Tx Frames (Offset = 3A03Ch - Port 0 or Offset = 3A23Ch - Port 1)
                4. 12.2.1.4.6.18.8.4  Pause Tx Frames (Offset = 3A240h - Port 1)
                5. 12.2.1.4.6.18.8.5  Deferred Tx Frames (Offset = 3A244h - Port 1)
                6. 12.2.1.4.6.18.8.6  Collisions (Offset = 3A248h - Port 1)
                7. 12.2.1.4.6.18.8.7  Single Collision Tx Frames (Offset = 3A24Ch - Port 1)
                8. 12.2.1.4.6.18.8.8  Multiple Collision Tx Frames (Offset = 3A250h - Port 1)
                9. 12.2.1.4.6.18.8.9  Excessive Collisions (Offset = 3A254h - Port 1)
                10. 12.2.1.4.6.18.8.10 Late Collisions (Offset = 3A258h - Port 1)
                11. 12.2.1.4.6.18.8.11 Carrier Sense Errors (Offset = 3A260h - Port 1)
                12. 12.2.1.4.6.18.8.12 Tx Octets (Offset = 3A064h - Port 0 or Offset = 3A264h - Port 1 )
                13. 12.2.1.4.6.18.8.13 Transmit Priority 0-7 (Offset = 3A380h to 3A3A8h - Port 1)
                14. 12.2.1.4.6.18.8.14 Transmit Priority 0-7 Drop (Offset = 3A3C0h to 3A3E8 - Port 1)
                15. 12.2.1.4.6.18.8.15 Tx Memory Protect Errors (Offset = 3A17Ch - Port 0 or Offset = 3A37Ch - Port 1)
                16. 12.2.1.4.6.18.8.16 IET Transmit Merge Hold Count (Offset = 3A350h - Port 1)
                17. 12.2.1.4.6.18.8.17 IET Transmit Merge Fragment Count (Offset = 3A154h - Port 0 or Offset = 3A354h - Port 1)
              9. 12.2.1.4.6.18.9  Rx- and Tx (Shared) Statistics Descriptions
                1. 12.2.1.4.6.18.9.1 Rx + Tx 64 Octet Frames (Offset = 3A068h - Port 0 or Offset = 3A268h - Port 1)
                2. 12.2.1.4.6.18.9.2 Rx + Tx 65–127 Octet Frames (Offset = 3A06Ch - Port 0 or Offset = 3A26Ch - Port 1)
                3. 12.2.1.4.6.18.9.3 Rx + Tx 128–255 Octet Frames (Offset = 3A070h - Port 0 or Offset = 3A270h - Port 1)
                4. 12.2.1.4.6.18.9.4 Rx + Tx 256–511 Octet Frames (Offset = 3A074h - Port 0 or Offset = 3A274h - Port 1)
                5. 12.2.1.4.6.18.9.5 Rx + Tx 512–1023 Octet Frames (Offset = 3A078h - Port 0 or Offset = 3A278h - Port 1)
                6. 12.2.1.4.6.18.9.6 Rx + Tx 1024_Up Octet Frames (Offset = 3A07Ch - Port 0 or Offset = 3A27Ch - Port 1)
                7. 12.2.1.4.6.18.9.7 Net Octets (Offset = 3A080h - Port 0 or Offset = 3A280h - Port 1)
              10. 12.2.1.4.6.18.10 2045
          7. 12.2.1.4.7 Common Platform Time Sync (CPTS)
            1. 12.2.1.4.7.1  MCU_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 2073
            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_2G Egress)
            2. 12.2.1.4.8.2 Port 0 CPPI Receive Packet Streaming Interface (CPSW_2G Ingress)
            3. 12.2.1.4.8.3 CPPI Checksum Offload
              1. 12.2.1.4.8.3.1 CPPI Transmit Checksum Offload
                1. 12.2.1.4.8.3.1.1 IPV4 UDP
                2. 12.2.1.4.8.3.1.2 IPV4 TCP
                3. 12.2.1.4.8.3.1.3 IPV6 UDP
                4. 12.2.1.4.8.3.1.4 IPV6 TCP
            4. 12.2.1.4.8.4 CPPI Receive Checksum Offload
            5. 12.2.1.4.8.5 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 MCU_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 MCU_CPSW0 Registers
          1. 12.2.1.6.1  MCU_CPSW0_NUSS Subsystem (SS) Registers
          2. 12.2.1.6.2  MCU_CPSW0_SGMII Registers
          3. 12.2.1.6.3  MCU_CPSW0_MDIO Registers
          4. 12.2.1.6.4  MCU_CPSW0_CPTS Registers
          5. 12.2.1.6.5  MCU_CPSW0_CONTROL Registers
          6. 12.2.1.6.6  MCU_CPSW0_CPINT Registers
          7. 12.2.1.6.7  MCU_CPSW0_RAM Registers
          8. 12.2.1.6.8  MCU_CPSW0_STAT0 Registers
          9. 12.2.1.6.9  MCU_CPSW0_STAT1 Registers
          10. 12.2.1.6.10 MCU_CPSW0_ALE Registers
          11. 12.2.1.6.11 MCU_CPSW0_ECC Registers
      2. 12.2.2 Gigabit Ethernet Switch (CPSW0)
        1. 12.2.2.1 CPSW0 Overview
          1. 12.2.2.1.1 CPSW0 Features
          2. 12.2.2.1.2 CPSW0 Not Supported Features
          3. 12.2.2.1.3 Terminology
        2. 12.2.2.2 CPSW0 Environment
          1. 12.2.2.2.1 CPSW0 RMII Interface
          2. 12.2.2.2.2 CPSW0 RGMII Interface
        3. 12.2.2.3 CPSW0 Integration
        4. 12.2.2.4 CPSW0 Functional Description
          1. 12.2.2.4.1 Functional Block Diagram
          2. 12.2.2.4.2 CPSW Ports
            1. 12.2.2.4.2.1 Interface Mode Selection
          3. 12.2.2.4.3 Clocking
            1. 12.2.2.4.3.1 Subsystem Clocking
            2. 12.2.2.4.3.2 Interface Clocking
              1. 12.2.2.4.3.2.1 RGMII Interface Clocking
              2. 12.2.2.4.3.2.2 RMII Interface Clocking
              3. 12.2.2.4.3.2.3 MDIO Clocking
          4. 12.2.2.4.4 Software IDLE
          5. 12.2.2.4.5 Interrupt Functionality
            1. 12.2.2.4.5.1 EVNT_PEND Interrupt
            2. 12.2.2.4.5.2 Statistics Interrupt (STAT_PEND0)
            3. 12.2.2.4.5.3 ECC DED Level Interrupt (ECC_DED_INT)
            4. 12.2.2.4.5.4 ECC SEC Level Interrupt (ECC_SEC_INT)
            5. 12.2.2.4.5.5 MDIO Interrupts
          6. 12.2.2.4.6 CPSW_5X
            1. 12.2.2.4.6.1  Address Lookup Engine (ALE)
              1. 12.2.2.4.6.1.1  Error Handling
              2. 12.2.2.4.6.1.2  Bypass Operations
              3. 12.2.2.4.6.1.3  OUI Deny or Accept
              4. 12.2.2.4.6.1.4  Statistics Counting
              5. 12.2.2.4.6.1.5  Automotive Security Features
              6. 12.2.2.4.6.1.6  CPSW Switching Solutions
                1. 12.2.2.4.6.1.6.1 Basics of 5-port Switch Type
              7. 12.2.2.4.6.1.7  VLAN Routing and OAM Operations
                1. 12.2.2.4.6.1.7.1 InterVLAN Routing
                2. 12.2.2.4.6.1.7.2 OAM Operations
              8. 12.2.2.4.6.1.8  Supervisory packets
              9. 12.2.2.4.6.1.9  Address Table Entry
                1. 12.2.2.4.6.1.9.1  Free Table Entry
                2. 12.2.2.4.6.1.9.2  Multicast Address Table Entry (Bit 40 == 0)
                3. 12.2.2.4.6.1.9.3  Multicast Address Table Entry (Bit 40 == 1)
                4. 12.2.2.4.6.1.9.4  VLAN Unicast Address Table Entry (Bit 40 == 0)
                5. 12.2.2.4.6.1.9.5  OUI Unicast Address Table Entry
                6. 12.2.2.4.6.1.9.6  VLAN/Unicast Address Table Entry (Bit 40 == 0)
                7. 12.2.2.4.6.1.9.7  VLAN/ Multicast Address Table Entry (Bit 40 == 1)
                8. 12.2.2.4.6.1.9.8  Inner VLAN Table Entry
                9. 12.2.2.4.6.1.9.9  Outer VLAN Table Entry
                10. 12.2.2.4.6.1.9.10 EtherType Table Entry
                11. 12.2.2.4.6.1.9.11 IPv4 Table Entry
                12. 12.2.2.4.6.1.9.12 IPv6 Table Entry High
                13. 12.2.2.4.6.1.9.13 IPv6 Table Entry Low
              10. 12.2.2.4.6.1.10 Multicast Address
                1. 12.2.2.4.6.1.10.1 Multicast Ranges
              11. 12.2.2.4.6.1.11 Supervisory Packets
              12. 12.2.2.4.6.1.12 Aging and Auto Aging
              13. 12.2.2.4.6.1.13 ALE Policing and Classification
                1. 12.2.2.4.6.1.13.1 ALE Policing
                2. 12.2.2.4.6.1.13.2 Classifier to Host Thread Mapping
                3. 12.2.2.4.6.1.13.3 ALE Classification
                  1. 2.2.4.6.1.13.3.1 Classifier to CPPI Transmit Flow ID Mapping
              14. 12.2.2.4.6.1.14 Mirroring
              15. 12.2.2.4.6.1.15 Trunking
              16. 12.2.2.4.6.1.16 DSCP
              17. 12.2.2.4.6.1.17 Packet Forwarding Processes
                1. 12.2.2.4.6.1.17.1 Ingress Filtering Process
                2. 12.2.2.4.6.1.17.2 VLAN_Aware Lookup Process
                3. 12.2.2.4.6.1.17.3 Egress Process
                4. 12.2.2.4.6.1.17.4 Learning/Updating/Touching Processes
                  1. 2.2.4.6.1.17.4.1 Learning Process
                  2. 2.2.4.6.1.17.4.2 Updating Process
                  3. 2.2.4.6.1.17.4.3 Touching Process
              18. 12.2.2.4.6.1.18 VLAN Aware Mode
              19. 12.2.2.4.6.1.19 VLAN Unaware Mode
            2. 12.2.2.4.6.2  Packet Priority Handling
              1. 12.2.2.4.6.2.1 Priority Mapping and Transmit VLAN Priority
            3. 12.2.2.4.6.3  CPPI Port Ingress
            4. 12.2.2.4.6.4  Packet CRC Handling
              1. 12.2.2.4.6.4.1 Transmit VLAN Processing
                1. 12.2.2.4.6.4.1.1 Untagged Packets (No VLAN or Priority Tag Header)
                2. 12.2.2.4.6.4.1.2 Priority Tagged Packets (VLAN VID == 0 && EN_VID0_MODE ==0h)
                3. 12.2.2.4.6.4.1.3 VLAN Tagged Packets (VLAN VID != 0 || (EN_VID0_MODE ==1h && VLAN VID ==0))
              2. 12.2.2.4.6.4.2 Ethernet Port Ingress Packet CRC
              3. 12.2.2.4.6.4.3 Ethernet Port Egress Packet CRC
              4. 12.2.2.4.6.4.4 CPPI Port Ingress Packet CRC
              5. 12.2.2.4.6.4.5 CPPI Port Egress Packet CRC
            5. 12.2.2.4.6.5  FIFO Memory Control
            6. 12.2.2.4.6.6  FIFO Transmit Queue Control
              1. 12.2.2.4.6.6.1 CPPI Port Receive Rate Limiting
              2. 12.2.2.4.6.6.2 Ethernet Port Transmit Rate Limiting
            7. 12.2.2.4.6.7  Intersperced Express Traffic (IET – P802.3br/D2.0)
              1. 12.2.2.4.6.7.1 IET Configuration
            8. 12.2.2.4.6.8  Enhanced Scheduled Traffic (EST – P802.1Qbv/D2.2)
              1. 12.2.2.4.6.8.1 Enhanced Scheduled Traffic Overview
              2. 12.2.2.4.6.8.2 Enhanced Scheduled Traffic Fetch RAM
              3. 12.2.2.4.6.8.3 Enhanced Scheduled Traffic Time Interval
              4. 12.2.2.4.6.8.4 Enhanced Scheduled Traffic Fetch Values
              5. 12.2.2.4.6.8.5 Enhanced Scheduled Traffic Packet Fill
              6. 12.2.2.4.6.8.6 Enhanced Scheduled Traffic Time Stamp
            9. 12.2.2.4.6.9  Audio Video Bridging
              1. 12.2.2.4.6.9.1 IEEE 802.1AS: Timing and Synchronization for Time-Sensitive Applications in Bridged Local Area Networks (Precision Time Protocol (PTP))
                1. 12.2.2.4.6.9.1.1 IEEE 1722: "Layer 2 Transport Protocol for Time-Sensitive Streams"
                  1. 2.2.4.6.9.1.1.1 Cross-timestamping and Presentation Timestamps
                2. 12.2.2.4.6.9.1.2 IEEE 1733: Extends RTCP for RTP Streaming over AVB-supported Networks
              2. 12.2.2.4.6.9.2 IEEE 802.1Qav: "Virtual Bridged Local Area Networks: Forwarding and Queuing for Time-Sensitive Streams"
                1. 12.2.2.4.6.9.2.1 Configuring the Device for 802.1Qav Operation
            10. 12.2.2.4.6.10 Ethernet MAC Sliver
              1. 12.2.2.4.6.10.1  CRC Insertion
              2. 12.2.2.4.6.10.2  MTXER
              3. 12.2.2.4.6.10.3  Adaptive Performance Optimization (APO)
              4. 12.2.2.4.6.10.4  Inter-Packet-Gap Enforcement
              5. 12.2.2.4.6.10.5  Back Off
              6. 12.2.2.4.6.10.6  Programmable Transmit Inter-Packet Gap
              7. 12.2.2.4.6.10.7  Speed, Duplex and Pause Frame Support Negotiation
              8. 12.2.2.4.6.10.8  RMII Interface
                1. 12.2.2.4.6.10.8.1 Features
                2. 12.2.2.4.6.10.8.2 RMII Receive (RX)
                3. 12.2.2.4.6.10.8.3 RMII Transmit (TX)
              9. 12.2.2.4.6.10.9  RGMII Interface
                1. 12.2.2.4.6.10.9.1 Features
                2. 12.2.2.4.6.10.9.2 RGMII Receive (RX)
                3. 12.2.2.4.6.10.9.3 In-Band Mode of Operation
                4. 12.2.2.4.6.10.9.4 Forced Mode of Operation
                5. 12.2.2.4.6.10.9.5 RGMII Transmit (TX)
              10. 12.2.2.4.6.10.10 Frame Classification
              11. 12.2.2.4.6.10.11 Receive FIFO Architecture
            11. 12.2.2.4.6.11 Embedded Memories
            12. 12.2.2.4.6.12 Memory Error Detection and Correction
              1. 12.2.2.4.6.12.1 Packet Header ECC
              2. 12.2.2.4.6.12.2 Packet Protect CRC
              3. 12.2.2.4.6.12.3 Aggregator RAM Control
            13. 12.2.2.4.6.13 Ethernet Port Flow Control
              1. 12.2.2.4.6.13.1 Ethernet Receive Flow Control
                1. 12.2.2.4.6.13.1.1 Collision Based Receive Buffer Flow Control
                2. 12.2.2.4.6.13.1.2 IEEE 802.3X Based Receive Flow Control
              2. 12.2.2.4.6.13.2 Qbb (10/100/1G/10G) Receive Priority Based Flow Control (PFC)
              3. 12.2.2.4.6.13.3 Ethernet Transmit Flow Control
            14. 12.2.2.4.6.14 PFC Trigger Rules
              1. 12.2.2.4.6.14.1 Destination Based Rule
              2. 12.2.2.4.6.14.2 Sum of Outflows Rule
              3. 12.2.2.4.6.14.3 Sum of Blocks Per Port Rule
              4. 12.2.2.4.6.14.4 Sum of Blocks Total Rule
              5. 12.2.2.4.6.14.5 Top of Receive FIFO Rule
            15. 12.2.2.4.6.15 Energy Efficient Ethernet Support (802.3az)
            16. 12.2.2.4.6.16 Ethernet Switch Latency
            17. 12.2.2.4.6.17 MAC Emulation Control
            18. 12.2.2.4.6.18 MAC Command IDLE
            19. 12.2.2.4.6.19 CPSW Network Statistics
              1. 12.2.2.4.6.19.1  Rx-only Statistics Descriptions
                1. 12.2.2.4.6.19.1.1  Good Rx Frames (Offset = 3A000h)
                2. 12.2.2.4.6.19.1.2  Broadcast Rx Frames (Offset = 3A004h)
                3. 12.2.2.4.6.19.1.3  Multicast Rx Frames (Offset = 3A008h)
                4. 12.2.2.4.6.19.1.4  Pause Rx Frames (Offset = 3A00Ch)
                5. 12.2.2.4.6.19.1.5  Rx CRC Errors (Offset = 3A010h)
                6. 12.2.2.4.6.19.1.6  Rx Align/Code Errors (Offset = 3A014h)
                7. 12.2.2.4.6.19.1.7  Oversize Rx Frames (Offset = 3A018h)
                8. 12.2.2.4.6.19.1.8  Rx Jabbers (Offset = 3A01Ch)
                9. 12.2.2.4.6.19.1.9  Undersize (Short) Rx Frames (Offset = 3A020h)
                10. 12.2.2.4.6.19.1.10 Rx Fragments (Offset = 3A024h)
                11. 12.2.2.4.6.19.1.11 RX IPG Error
                12. 12.2.2.4.6.19.1.12 ALE Drop (Offset = 3A028h)
                13. 12.2.2.4.6.19.1.13 ALE Overrun Drop (Offset = 3A02Ch)
                14. 12.2.2.4.6.19.1.14 Rx Octets (Offset = 3A030h)
                15. 12.2.2.4.6.19.1.15 Rx Bottom of FIFO Drop (Offset = 3A084h)
                16. 12.2.2.4.6.19.1.16 Portmask Drop (Offset = 3A088h)
                17. 12.2.2.4.6.19.1.17 Rx Top of FIFO Drop (Offset = 3A08Ch)
                18. 12.2.2.4.6.19.1.18 ALE Rate Limit Drop (Offset = 3A090h)
                19. 12.2.2.4.6.19.1.19 ALE VLAN Ingress Check Drop (Offset = 3A094h)
                  1. 2.2.4.6.19.1.19.1  ALE DA=SA Drop (Offset = 3A098h)
                  2. 2.2.4.6.19.1.19.2  Block Address Drop (Offset = 3A09Ch)
                  3. 2.2.4.6.19.1.19.3  ALE Secure Drop (Offset = 3A0A0h)
                  4. 2.2.4.6.19.1.19.4  ALE Authentication Drop (Offset = 3A0A4h)
                  5. 2.2.4.6.19.1.19.5  ALE Unknown Unicast (Offset = 3A0A8h)
                  6. 2.2.4.6.19.1.19.6  ALE Unknown Unicast Bytecount (Offset = 3A0ACh)
                  7. 2.2.4.6.19.1.19.7  ALE Unknown Multicast (Offset = 3A0B0h)
                  8. 2.2.4.6.19.1.19.8  ALE Unknown Multicast Bytecount (Offset = 3A0B4h)
                  9. 2.2.4.6.19.1.19.9  ALE Unknown Broadcast (Offset = 3A0B8h)
                  10. 2.2.4.6.19.1.19.10 ALE Unknown Broadcast Bytecount (Offset = 3A0BCh)
                  11. 2.2.4.6.19.1.19.11 ALE Policer/Classifier Match (Offset = 3A0C0h)
              2. 12.2.2.4.6.19.2  ALE Policer Match Red (Offset = 3A0C4h)
              3. 12.2.2.4.6.19.3  ALE Policer Match Yellow (Offset = 3A0C8h)
              4. 12.2.2.4.6.19.4  IET Receive Assembly Error (Offset = 3A140h)
              5. 12.2.2.4.6.19.5  IET Receive Assembly OK (Offset = 3A144h)
              6. 12.2.2.4.6.19.6  IET Receive SMD Error (Offset = 3A148h)
              7. 12.2.2.4.6.19.7  IET Receive Merge Fragment Count (Offset = 3A14Ch)
              8. 12.2.2.4.6.19.8  Tx-only Statistics Descriptions
                1. 12.2.2.4.6.19.8.1  Good Tx Frames (Offset = 3A034h)
                2. 12.2.2.4.6.19.8.2  Broadcast Tx Frames (Offset = 3A038h)
                3. 12.2.2.4.6.19.8.3  Multicast Tx Frames (Offset = 3A03Ch)
                4. 12.2.2.4.6.19.8.4  Pause Tx Frames (Offset = 3A040h)
                5. 12.2.2.4.6.19.8.5  Deferred Tx Frames (Offset = 3A044h)
                6. 12.2.2.4.6.19.8.6  Collisions (Offset = 3A048h)
                7. 12.2.2.4.6.19.8.7  Single Collision Tx Frames (Offset = 3A04Ch)
                8. 12.2.2.4.6.19.8.8  Multiple Collision Tx Frames (Offset = 3A050h)
                9. 12.2.2.4.6.19.8.9  Excessive Collisions (Offset = 3A054h)
                10. 12.2.2.4.6.19.8.10 Late Collisions (Offset = 3A058h)
                11. 12.2.2.4.6.19.8.11 Carrier Sense Errors (Offset = 3A060h)
                12. 12.2.2.4.6.19.8.12 Tx Octets (Offset = 3A064h)
                13. 12.2.2.4.6.19.8.13 Transmit Priority 0-7 (Offset = 3A180h to 3A1A8h)
                14. 12.2.2.4.6.19.8.14 Transmit Priority 0-7 Drop (Offset = 3A1C0h to 3A1E8h)
                15. 12.2.2.4.6.19.8.15 Tx Memory Protect Errors (Offset = 3A17Ch)
                16. 12.2.2.4.6.19.8.16 IET Transmit Merge Fragment Count (Offset = 3A14Ch)
                17. 12.2.2.4.6.19.8.17 IET Transmit Merge Hold Count (Offset = 3A150h)
              9. 12.2.2.4.6.19.9  Rx- and Tx (Shared) Statistics Descriptions
                1. 12.2.2.4.6.19.9.1 Rx + Tx 64 Octet Frames (Offset = 3A068h)
                2. 12.2.2.4.6.19.9.2 Rx + Tx 65–127 Octet Frames (Offset = 3A06Ch)
                3. 12.2.2.4.6.19.9.3 Rx + Tx 128–255 Octet Frames (Offset = 3A070h)
                4. 12.2.2.4.6.19.9.4 Rx + Tx 256–511 Octet Frames (Offset = 3A074h)
                5. 12.2.2.4.6.19.9.5 Rx + Tx 512–1023 Octet Frames (Offset = 3A078h)
                6. 12.2.2.4.6.19.9.6 Rx + Tx 1024_Up Octet Frames (Offset = 3A07Ch)
                7. 12.2.2.4.6.19.9.7 Net Octets (Offset = 3A080h)
              10. 12.2.2.4.6.19.10 2324
          7. 12.2.2.4.7 Common Platform Time Sync (CPTS)
            1. 12.2.2.4.7.1  CPSW0 CPTS Integration
            2. 12.2.2.4.7.2  CPTS Architecture
            3. 12.2.2.4.7.3  CPTS Initialization
            4. 12.2.2.4.7.4  32-bit Time Stamp Value
            5. 12.2.2.4.7.5  64-bit Time Stamp Value
            6. 12.2.2.4.7.6  64-Bit Timestamp Nudge
            7. 12.2.2.4.7.7  64-bit Timestamp PPM
            8. 12.2.2.4.7.8  Event FIFO
            9. 12.2.2.4.7.9  Timestamp Compare Output
              1. 12.2.2.4.7.9.1 Non-Toggle Mode: 32-bit
              2. 12.2.2.4.7.9.2 Non-Toggle Mode: 64-bit
              3. 12.2.2.4.7.9.3 Toggle Mode: 32-bit
              4. 12.2.2.4.7.9.4 Toggle Mode: 64-bit
            10. 12.2.2.4.7.10 Timestamp Sync Output
            11. 12.2.2.4.7.11 Timestamp GENFn Output
              1. 12.2.2.4.7.11.1 GENFn Nudge
              2. 12.2.2.4.7.11.2 GENFn PPM
            12. 12.2.2.4.7.12 Timestamp ESTFn
            13. 12.2.2.4.7.13 Time Sync Events
              1. 12.2.2.4.7.13.1 Time Stamp Push Event
              2. 12.2.2.4.7.13.2 Time Stamp Counter Rollover Event (32-bit mode only)
              3. 12.2.2.4.7.13.3 Time Stamp Counter Half-rollover Event (32-bit mode only)
              4. 12.2.2.4.7.13.4 Hardware Time Stamp Push Event
              5. 12.2.2.4.7.13.5 Ethernet Port Events
                1. 12.2.2.4.7.13.5.1 Ethernet Port Receive Event
                2. 12.2.2.4.7.13.5.2 Ethernet Port Transmit Event
                3. 12.2.2.4.7.13.5.3 2352
            14. 12.2.2.4.7.14 Timestamp Compare Event
              1. 12.2.2.4.7.14.1 32-Bit Mode
              2. 12.2.2.4.7.14.2 64-Bit Mode
            15. 12.2.2.4.7.15 Host Transmit Event
            16. 12.2.2.4.7.16 CPTS Interrupt Handling
          8. 12.2.2.4.8 CPPI Streaming Packet Interface
            1. 12.2.2.4.8.1 Port 0 CPPI Transmit Packet Streaming Interface (CPSW_5X Egress)
            2. 12.2.2.4.8.2 CPPI Receive Packet Streaming Interface (CPSW Ingress)
            3. 12.2.2.4.8.3 CPPI Checksum Offload
              1. 12.2.2.4.8.3.1 CPPI Transmit Checksum Offload
                1. 12.2.2.4.8.3.1.1 IPV4 UDP
                2. 12.2.2.4.8.3.1.2 IPV4 TCP
                3. 12.2.2.4.8.3.1.3 IPV6 UDP
                4. 12.2.2.4.8.3.1.4 IPV6 TCP
            4. 12.2.2.4.8.4 CPPI Receive Checksum Offload
            5. 12.2.2.4.8.5 Egress Packet Operations
          9. 12.2.2.4.9 MII Management Interface (MDIO)
            1. 12.2.2.4.9.1 MDIO Frame Formats
            2. 12.2.2.4.9.2 MDIO Functional Description
        5. 12.2.2.5 CPSW0 Programming Guide
          1. 12.2.2.5.1 Initialization and Configuration of CPSW Subsystem
          2. 12.2.2.5.2 Ethernet MAC Reset or XGMII/GMII Mode Change Configuration
          3. 12.2.2.5.3 MDIO Software Interface
            1. 12.2.2.5.3.1 Initializing the MDIO Module
            2. 12.2.2.5.3.2 Writing Data To a PHY Register
            3. 12.2.2.5.3.3 Reading Data From a PHY Register
        6. 12.2.2.6 CPSW0 Registers
          1. 12.2.2.6.1  CPSW0_NUSS Subsystem (SS) Registers
          2. 12.2.2.6.2  CPSW0_SGMII Registers
          3. 12.2.2.6.3  CPSW0_MDIO Registers
          4. 12.2.2.6.4  CPSW0_CPTS Registers
          5. 12.2.2.6.5  CPSW0_CONTROL Registers
          6. 12.2.2.6.6  CPSW0_CPINT Registers
          7. 12.2.2.6.7  CPSW0_RAM Registers
          8. 12.2.2.6.8  CPSW0_STAT Registers
          9. 12.2.2.6.9  CPSW0_ALE Registers
          10. 12.2.2.6.10 CPSW0_PCSR Registers
          11. 12.2.2.6.11 CPSW0_ECC Registers
      3. 12.2.3 Peripheral Component Interconnect Express (PCIe) Subsystem
        1. 12.2.3.1 PCIe Subsystem Overview
          1. 12.2.3.1.1 PCIe Subsystem Features
          2. 12.2.3.1.2 PCIe Subsystem Not Supported Features
        2. 12.2.3.2 PCIe Subsystem Environment
        3. 12.2.3.3 PCIe Subsystem Integration
        4. 12.2.3.4 PCIe Subsystem Functional Description
          1. 12.2.3.4.1  PCIe Subsystem Block Diagram
            1. 12.2.3.4.1.1 PCIe Core Module
            2. 12.2.3.4.1.2 PCIe PHY Interface
            3. 12.2.3.4.1.3 CBA Infrastructure
            4. 12.2.3.4.1.4 VBUSM to AXI Bridges
            5. 12.2.3.4.1.5 AXI to VBUSM Bridges
            6. 12.2.3.4.1.6 VBUSP to APB Bridge
            7. 12.2.3.4.1.7 Custom Logic
          2. 12.2.3.4.2  PCIe Subsystem Reset Schemes
            1. 12.2.3.4.2.1 PCIe Conventional Reset
            2. 12.2.3.4.2.2 PCIe Function Level Reset
            3. 12.2.3.4.2.3 PCIe Reset Isolation
              1. 12.2.3.4.2.3.1 Root Port Reset with Device Not Reset
              2. 12.2.3.4.2.3.2 Device Reset with Root Port Not Reset
              3. 12.2.3.4.2.3.3 End Point Device Reset with Root Port Not Reset
              4. 12.2.3.4.2.3.4 Device Reset with End Point Device Not Reset
            4. 12.2.3.4.2.4 PCIe Reset Limitations
            5. 12.2.3.4.2.5 PCIe Reset Requirements
          3. 12.2.3.4.3  PCIe Subsystem Power Management
            1. 12.2.3.4.3.1 CBA Power Management
          4. 12.2.3.4.4  PCIe Subsystem Interrupts
            1. 12.2.3.4.4.1 Interrupts Aggregation
            2. 12.2.3.4.4.2 Interrupt Generation in EP Mode
              1. 12.2.3.4.4.2.1 Legacy Interrupt Generation in EP Mode
              2. 12.2.3.4.4.2.2 MSI and MSI-X Interrupt Generation
            3. 12.2.3.4.4.3 Interrupt Reception in EP Mode
              1. 12.2.3.4.4.3.1 PCIe Core Downstream Interrupts
              2. 12.2.3.4.4.3.2 PCIe Core Function Level Reset Interrupts
              3. 12.2.3.4.4.3.3 PCIe Core Power Management Event Interrupts
              4. 12.2.3.4.4.3.4 PCIe Core Hot Reset Request Interrupt
              5. 12.2.3.4.4.3.5 PTM Valid Interrupt
            4. 12.2.3.4.4.4 Interrupt Generation in RP Mode
            5. 12.2.3.4.4.5 Interrupt Reception in RP Mode
              1. 12.2.3.4.4.5.1 PCIe Legacy Interrupt Reception in RP Mode
              2. 12.2.3.4.4.5.2 MSI/MSI-X Interrupt Reception in RP Mode
              3. 12.2.3.4.4.5.3 Advanced Error Reporting Interrupt
            6. 12.2.3.4.4.6 Common Interrupt Reception in RP and EP Modes
              1. 12.2.3.4.4.6.1 PCIe Local Interrupt
              2. 12.2.3.4.4.6.2 PHY Interrupt
              3. 12.2.3.4.4.6.3 Link down Interrupt
              4. 12.2.3.4.4.6.4 Transaction Error Interrupts
              5. 12.2.3.4.4.6.5 Power Management Event Interrupt
              6. 12.2.3.4.4.6.6 Active Internal Diagnostics Interrupts
            7. 12.2.3.4.4.7 ECC Aggregator Interrupts
            8. 12.2.3.4.4.8 CPTS Interrupt
          5. 12.2.3.4.5  PCIe Subsystem DMA Support
            1. 12.2.3.4.5.1 PCIe DMA Support in RP Mode
            2. 12.2.3.4.5.2 PCIe DMA Support in EP Mode
          6. 12.2.3.4.6  PCIe Subsystem Transactions
            1. 12.2.3.4.6.1 PCIe Supported Transactions
            2. 12.2.3.4.6.2 PCIe Transaction Limitations
          7. 12.2.3.4.7  PCIe Subsystem Address Translation
            1. 12.2.3.4.7.1 PCIe Inbound Address Translation
              1. 12.2.3.4.7.1.1 Root Port Inbound PCIe to AXI Address Translation
              2. 12.2.3.4.7.1.2 End Point Inbound PCIe to AXI Address Translation
            2. 12.2.3.4.7.2 PCIe Outbound Address Translation
              1. 12.2.3.4.7.2.1 PCIe Outbound Address Translation Bypass
          8. 12.2.3.4.8  PCIe Subsystem Virtualization Support
            1. 12.2.3.4.8.1 End Point SR-IOV Support
            2. 12.2.3.4.8.2 Root Port ATS Support
            3. 12.2.3.4.8.3 VirtID Mapping
          9. 12.2.3.4.9  PCIe Subsystem Quality-of-Service (QoS)
          10. 12.2.3.4.10 PCIe Subsystem Precision Time Measurement (PTM)
          11. 12.2.3.4.11 PCIe Subsystem Loopback
            1. 12.2.3.4.11.1 PCIe PIPE Loopback
              1. 12.2.3.4.11.1.1 PIPE Loopback Master Mode
              2. 12.2.3.4.11.1.2 PIPE Loopback Slave Mode
          12. 12.2.3.4.12 PCIe Subsystem Error Handling
            1. 12.2.3.4.12.1 PCIe AXI to/from VBUSM Bus Error Mapping
          13. 12.2.3.4.13 PCIe Subsystem Internal Diagnostics Features
            1. 12.2.3.4.13.1 PCIe Parity
            2. 12.2.3.4.13.2 ECC Aggregators
            3. 12.2.3.4.13.3 RAM ECC Inversion
          14. 12.2.3.4.14 LTSSM State Encoding
        5. 12.2.3.5 PCIe Subsystem Registers
          1. 12.2.3.5.1  PCIE_CORE_EP_PF Registers
          2. 12.2.3.5.2  PCIE_CORE_EP_VF Registers
          3. 12.2.3.5.3  PCIE_CORE_RP Registers
          4. 12.2.3.5.4  PCIE_CORE_LM Registers
          5. 12.2.3.5.5  PCIE_CORE_AXI Registers
          6. 12.2.3.5.6  PCIE_INTD Registers
          7. 12.2.3.5.7  PCIE_VMAP Registers
          8. 12.2.3.5.8  PCIE_CPTS Registers
          9. 12.2.3.5.9  PCIE_USER_CFG Registers
          10. 12.2.3.5.10 PCIE_ECC_AGGR0 Registers
          11. 12.2.3.5.11 PCIE_ECC_AGGR1 Registers
          12. 12.2.3.5.12 PCIE_DAT0 Registers
          13. 12.2.3.5.13 PCIE_DAT1 Registers
      4. 12.2.4 Universal Serial Bus (USB) Subsystem
        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
        3. 12.2.4.3 USB Integration
        4. 12.2.4.4 USB Functional Description
          1. 12.2.4.4.1 USB Type-C Connector Support
          2. 12.2.4.4.2 USB Controller Reset
          3. 12.2.4.4.3 Overcurrent Detection
          4. 12.2.4.4.4 Top-Level Initialization Sequence
        5. 12.2.4.5 USB Registers
          1. 12.2.4.5.1 USB3P0SS_MMR_MMRVBP_USBSS_CMN Registers
          2. 12.2.4.5.2 USB_ECC_AGGR_CFG Registers
          3. 12.2.4.5.3 USB_RAMS_INJ_CFG Registers
      5. 12.2.5 Serializer/Deserializer (SerDes)
        1. 12.2.5.1 SerDes Overview
          1. 12.2.5.1.1 SerDes Features
          2. 12.2.5.1.2 Industry Standards Compatibility
        2. 12.2.5.2 SerDes Environment
          1. 12.2.5.2.1 SerDes I/Os
        3. 12.2.5.3 SerDes Integration
          1. 12.2.5.3.1 WIZ Settings
            1. 12.2.5.3.1.1 Interface Selection
            2. 12.2.5.3.1.2 Reference Clock Distribution
            3. 12.2.5.3.1.3 Internal Reference Clock Selection
        4. 12.2.5.4 SerDes Functional Description
          1. 12.2.5.4.1 SerDes Block Diagram
          2. 12.2.5.4.2 SerDes Programming Guide
    3. 12.3 Memory Interfaces
      1. 12.3.1 Flash Subsystem (FSS)
        1. 12.3.1.1 FSS Overview
          1. 12.3.1.1.1 FSS Features
          2. 12.3.1.1.2 FSS Not Supported Features
        2. 12.3.1.2 FSS Environment
          1. 12.3.1.2.1 FSS Typical Application
        3. 12.3.1.3 FSS Integration
          1. 12.3.1.3.1 FSS Integration in MCU Domain
        4. 12.3.1.4 FSS Functional Description
          1. 12.3.1.4.1 FSS Block Diagram
          2. 12.3.1.4.2 FSS ECC Support
            1. 12.3.1.4.2.1 FSS ECC Calculation
          3. 12.3.1.4.3 FSS Modes of Operation
          4. 12.3.1.4.4 FSS Regions
            1. 12.3.1.4.4.1 FSS Regions Boot Size Configuration
          5. 12.3.1.4.5 FSS Memory Regions
        5. 12.3.1.5 FSS Programming Guide
          1. 12.3.1.5.1 FSS Initialization Sequence
          2. 12.3.1.5.2 FSS Real-Time Operation
          3. 12.3.1.5.3 FSS Power Up/Down Sequence
        6. 12.3.1.6 FSS Registers
      2. 12.3.2 Octal Serial Peripheral Interface (OSPI)
        1. 12.3.2.1 OSPI Overview
          1. 12.3.2.1.1 OSPI Features
          2. 12.3.2.1.2 OSPI Not Supported Features
        2. 12.3.2.2 OSPI Environment
        3. 12.3.2.3 OSPI Integration
          1. 12.3.2.3.1 OSPI Integration in MCU Domain
        4. 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
            2. 12.3.2.4.2.2 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
            2. 12.3.2.4.11.2 2576
          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
        5. 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
        6. 12.3.2.6 OSPI Registers
      3. 12.3.3 HyperBus Interface
        1. 12.3.3.1 HyperBus Overview
          1. 12.3.3.1.1 HyperBus Features
          2. 12.3.3.1.2 HyperBus Not Supported Features
        2. 12.3.3.2 HyperBus Environment
        3. 12.3.3.3 HyperBus Integration
          1. 12.3.3.3.1 HyperBus Integration in MCU Domain
        4. 12.3.3.4 HyperBus Functional Description
          1. 12.3.3.4.1 HyperBus Interrupts
          2. 12.3.3.4.2 HyperBus ECC Support
            1. 12.3.3.4.2.1 ECC Aggregator
          3. 12.3.3.4.3 HyperBus Internal FIFOs
          4. 12.3.3.4.4 HyperBus Data Regions
          5. 12.3.3.4.5 HyperBus True Continuous Read (TCR) Mode
        5. 12.3.3.5 HyperBus Programming Guide
          1. 12.3.3.5.1 HyperBus Initialization Sequence
            1. 12.3.3.5.1.1 HyperFlash Access
            2. 12.3.3.5.1.2 HyperRAM Access
          2. 12.3.3.5.2 HyperBus Real-time Operating Requirements
          3. 12.3.3.5.3 HyperBus Power Up/Down Sequence
        6. 12.3.3.6 HyperBus Registers
      4. 12.3.4 General-Purpose Memory Controller (GPMC)
        1. 12.3.4.1 GPMC Overview
          1. 12.3.4.1.1 GPMC Features
          2. 12.3.4.1.2 GPMC Not Supported Features
        2. 12.3.4.2 GPMC Environment
          1. 12.3.4.2.1 GPMC Modes
          2. 12.3.4.2.2 GPMC I/O Signals
        3. 12.3.4.3 GPMC Integration
          1. 12.3.4.3.1 GPMC Integration in MAIN Domain
        4. 12.3.4.4 GPMC Functional Description
          1. 12.3.4.4.1  GPMC Block Diagram
          2. 12.3.4.4.2  GPMC Clock Configuration
          3. 12.3.4.4.3  GPMC Power Management
          4. 12.3.4.4.4  GPMC Interrupt Requests
          5. 12.3.4.4.5  GPMC Interconnect Port Interface
          6. 12.3.4.4.6  GPMC Address and Data Bus
            1. 12.3.4.4.6.1 GPMC I/O Configuration Setting
          7. 12.3.4.4.7  GPMC Address Decoder and Chip-Select Configuration
            1. 12.3.4.4.7.1 Chip-Select Base Address and Region Size
            2. 12.3.4.4.7.2 Access Protocol
              1. 12.3.4.4.7.2.1 Supported Devices
              2. 12.3.4.4.7.2.2 Access Size Adaptation and Device Width
              3. 12.3.4.4.7.2.3 Address/Data-Multiplexing Interface
            3. 12.3.4.4.7.3 External Signals
              1. 12.3.4.4.7.3.1 WAIT Pin Monitoring Control
                1. 12.3.4.4.7.3.1.1 Wait Monitoring During Asynchronous Read Access
                2. 12.3.4.4.7.3.1.2 Wait Monitoring During Asynchronous Write Access
                3. 12.3.4.4.7.3.1.3 Wait Monitoring During Synchronous Read Access
                4. 12.3.4.4.7.3.1.4 Wait Monitoring During Synchronous Write Access
                5. 12.3.4.4.7.3.1.5 Wait With NAND Device
                6. 12.3.4.4.7.3.1.6 Idle Cycle Control Between Successive Accesses
                  1. 3.4.4.7.3.1.6.1 Bus Turnaround (BUSTURNAROUND)
                  2. 3.4.4.7.3.1.6.2 Idle Cycles Between Accesses to Same Chip-Select (CYCLE2CYCLESAMECSEN, CYCLE2CYCLEDELAY)
                  3. 3.4.4.7.3.1.6.3 Idle Cycles Between Accesses to Different Chip-Select (CYCLE2CYCLEDIFFCSEN, CYCLE2CYCLEDELAY)
                7. 12.3.4.4.7.3.1.7 Slow Device Support (TIMEPARAGRANULARITY Parameter)
              2. 12.3.4.4.7.3.2 DIR Pin
              3. 12.3.4.4.7.3.3 Reset
              4. 12.3.4.4.7.3.4 Write Protect Signal (nWP)
              5. 12.3.4.4.7.3.5 Byte Enable (nBE1/nBE0)
            4. 12.3.4.4.7.4 Error Handling
          8. 12.3.4.4.8  GPMC Timing Setting
            1. 12.3.4.4.8.1  Read Cycle Time and Write Cycle Time (RDCYCLETIME / WRCYCLETIME)
            2. 12.3.4.4.8.2  nCS: Chip-Select Signal Control Assertion/Deassertion Time (CSONTIME / CSRDOFFTIME / CSWROFFTIME / CSEXTRADELAY)
            3. 12.3.4.4.8.3  nADV/ALE: Address Valid/Address Latch Enable Signal Control Assertion/Deassertion Time (ADVONTIME / ADVRDOFFTIME / ADVWROFFTIME / ADVEXTRADELAY/ADVAADMUXONTIME/ADVAADMUXRDOFFTIME/ADVAADMUXWROFFTIME)
            4. 12.3.4.4.8.4  nOE/nRE: Output Enable/Read Enable Signal Control Assertion/Deassertion Time (OEONTIME / OEOFFTIME / OEEXTRADELAY / OEAADMUXONTIME / OEAADMUXOFFTIME)
            5. 12.3.4.4.8.5  nWE: Write Enable Signal Control Assertion/Deassertion Time (WEONTIME / WEOFFTIME / WEEXTRADELAY)
            6. 12.3.4.4.8.6  GPMC_CLKOUT
            7. 12.3.4.4.8.7  GPMC Output Clock and Control Signals Setup and Hold
            8. 12.3.4.4.8.8  Access Time (RDACCESSTIME / WRACCESSTIME)
              1. 12.3.4.4.8.8.1 Access Time on Read Access
              2. 12.3.4.4.8.8.2 Access Time on Write Access
            9. 12.3.4.4.8.9  Page Burst Access Time (PAGEBURSTACCESSTIME)
              1. 12.3.4.4.8.9.1 Page Burst Access Time on Read Access
              2. 12.3.4.4.8.9.2 Page Burst Access Time on Write Access
            10. 12.3.4.4.8.10 Bus Keeping Support
          9. 12.3.4.4.9  GPMC NOR Access Description
            1. 12.3.4.4.9.1 Asynchronous Access Description
              1. 12.3.4.4.9.1.1 Access on Address/Data Multiplexed Devices
                1. 12.3.4.4.9.1.1.1 Asynchronous Single-Read Operation on an Address/Data Multiplexed Device
                2. 12.3.4.4.9.1.1.2 Asynchronous Single-Write Operation on an Address/Data-Multiplexed Device
                3. 12.3.4.4.9.1.1.3 Asynchronous Multiple (Page) Write Operation on an Address/Data-Multiplexed Device
              2. 12.3.4.4.9.1.2 Access on Address/Address/Data-Multiplexed Devices
                1. 12.3.4.4.9.1.2.1 Asynchronous Single Read Operation on an AAD-Multiplexed Device
                2. 12.3.4.4.9.1.2.2 Asynchronous Single-Write Operation on an AAD-Multiplexed Device
                3. 12.3.4.4.9.1.2.3 Asynchronous Multiple (Page) Read Operation on an AAD-Multiplexed Device
            2. 12.3.4.4.9.2 Synchronous Access Description
              1. 12.3.4.4.9.2.1 Synchronous Single Read
              2. 12.3.4.4.9.2.2 Synchronous Multiple (Burst) Read (4-, 8-, 16-Word16 Burst With Wraparound Capability)
              3. 12.3.4.4.9.2.3 Synchronous Single Write
              4. 12.3.4.4.9.2.4 Synchronous Multiple (Burst) Write
            3. 12.3.4.4.9.3 Asynchronous and Synchronous Accesses in non-multiplexed Mode
              1. 12.3.4.4.9.3.1 Asynchronous Single-Read Operation on non-multiplexed Device
              2. 12.3.4.4.9.3.2 Asynchronous Single-Write Operation on non-multiplexed Device
              3. 12.3.4.4.9.3.3 Asynchronous Multiple (Page Mode) Read Operation on non-multiplexed Device
              4. 12.3.4.4.9.3.4 Synchronous Operations on a non-multiplexed Device
            4. 12.3.4.4.9.4 Page and Burst Support
            5. 12.3.4.4.9.5 System Burst vs External Device Burst Support
          10. 12.3.4.4.10 GPMC pSRAM Access Specificities
          11. 12.3.4.4.11 GPMC NAND Access Description
            1. 12.3.4.4.11.1 NAND Memory Device in Byte or 16-bit Word Stream Mode
              1. 12.3.4.4.11.1.1 Chip-Select Configuration for NAND Interfacing in Byte or Word Stream Mode
              2. 12.3.4.4.11.1.2 NAND Device Command and Address Phase Control
              3. 12.3.4.4.11.1.3 Command Latch Cycle
              4. 12.3.4.4.11.1.4 Address Latch Cycle
              5. 12.3.4.4.11.1.5 NAND Device Data Read and Write Phase Control in Stream Mode
              6. 12.3.4.4.11.1.6 NAND Device General Chip-Select Timing Control Requirement
              7. 12.3.4.4.11.1.7 Read and Write Access Size Adaptation
                1. 12.3.4.4.11.1.7.1 8-Bit-Wide NAND Device
                2. 12.3.4.4.11.1.7.2 16-Bit-Wide NAND Device
            2. 12.3.4.4.11.2 NAND Device-Ready Pin
              1. 12.3.4.4.11.2.1 Ready Pin Monitored by Software Polling
              2. 12.3.4.4.11.2.2 Ready Pin Monitored by Hardware Interrupt
            3. 12.3.4.4.11.3 ECC Calculator
              1. 12.3.4.4.11.3.1 Hamming Code
                1. 12.3.4.4.11.3.1.1 ECC Result Register and ECC Computation Accumulation Size
                2. 12.3.4.4.11.3.1.2 ECC Enabling
                3. 12.3.4.4.11.3.1.3 ECC Computation
                4. 12.3.4.4.11.3.1.4 ECC Comparison and Correction
                5. 12.3.4.4.11.3.1.5 ECC Calculation Based on 8-Bit Word
                6. 12.3.4.4.11.3.1.6 ECC Calculation Based on 16-Bit Word
              2. 12.3.4.4.11.3.2 BCH Code
                1. 12.3.4.4.11.3.2.1 Requirements
                2. 12.3.4.4.11.3.2.2 Memory Mapping of BCH Codeword
                  1. 3.4.4.11.3.2.2.1 Memory Mapping of Data Message
                  2. 3.4.4.11.3.2.2.2 Memory-Mapping of the ECC
                  3. 3.4.4.11.3.2.2.3 Wrapping Modes
                    1. 4.4.11.3.2.2.3.1  Manual Mode (0x0)
                    2. 4.4.11.3.2.2.3.2  Mode 0x1
                    3. 4.4.11.3.2.2.3.3  Mode 0xA (10)
                    4. 4.4.11.3.2.2.3.4  Mode 0x2
                    5. 4.4.11.3.2.2.3.5  Mode 0x3
                    6. 4.4.11.3.2.2.3.6  Mode 0x7
                    7. 4.4.11.3.2.2.3.7  Mode 0x8
                    8. 4.4.11.3.2.2.3.8  Mode 0x4
                    9. 4.4.11.3.2.2.3.9  Mode 0x9
                    10. 4.4.11.3.2.2.3.10 Mode 0x5
                    11. 4.4.11.3.2.2.3.11 Mode 0xB (11)
                    12. 4.4.11.3.2.2.3.12 Mode 0x6
                3. 12.3.4.4.11.3.2.3 Supported NAND Page Mappings and ECC Schemes
                  1. 3.4.4.11.3.2.3.1 Per-Sector Spare Mappings
                  2. 3.4.4.11.3.2.3.2 Pooled Spare Mapping
                  3. 3.4.4.11.3.2.3.3 Per-Sector Spare Mapping, with ECC Separated at the End of the Page
            4. 12.3.4.4.11.4 Prefetch and Write-Posting Engine
              1. 12.3.4.4.11.4.1 General Facts About the Engine Configuration
              2. 12.3.4.4.11.4.2 Prefetch Mode
              3. 12.3.4.4.11.4.3 FIFO Control in Prefetch Mode
              4. 12.3.4.4.11.4.4 Write-Posting Mode
              5. 12.3.4.4.11.4.5 FIFO Control in Write-Posting Mode
              6. 12.3.4.4.11.4.6 Optimizing NAND Access Using the Prefetch and Write-Posting Engine
              7. 12.3.4.4.11.4.7 Interleaved Accesses Between Prefetch and Write-Posting Engine and Other Chip-Selects
          12. 12.3.4.4.12 GPMC Use Cases and Tips
            1. 12.3.4.4.12.1 How to Set GPMC Timing Parameters for Typical Accesses
              1. 12.3.4.4.12.1.1 External Memory Attached to the GPMC Module
              2. 12.3.4.4.12.1.2 Typical GPMC Setup
                1. 12.3.4.4.12.1.2.1 GPMC Configuration for Synchronous Burst Read Access
                2. 12.3.4.4.12.1.2.2 GPMC Configuration for Asynchronous Read Access
                3. 12.3.4.4.12.1.2.3 GPMC Configuration for Asynchronous Single Write Access
            2. 12.3.4.4.12.2 How to Choose a Suitable Memory to Use With the GPMC
              1. 12.3.4.4.12.2.1 Supported Memories or Devices
                1. 12.3.4.4.12.2.1.1 Memory Pin Multiplexing
                2. 12.3.4.4.12.2.1.2 NAND Interface Protocol
                3. 12.3.4.4.12.2.1.3 NOR Interface Protocol
                4. 12.3.4.4.12.2.1.4 Other Technologies
        5. 12.3.4.5 GPMC Basic Programming Model
          1. 12.3.4.5.1 GPMC High-Level Programming Model Overview
          2. 12.3.4.5.2 GPMC Initialization
          3. 12.3.4.5.3 GPMC Configuration in NOR Mode
          4. 12.3.4.5.4 GPMC Configuration in NAND Mode
          5. 12.3.4.5.5 Set Memory Access
          6. 12.3.4.5.6 GPMC Timing Parameters
            1. 12.3.4.5.6.1 GPMC Timing Parameters Formulas
              1. 12.3.4.5.6.1.1 NAND Flash Interface Timing Parameters Formulas
              2. 12.3.4.5.6.1.2 Synchronous NOR Flash Timing Parameters Formulas
              3. 12.3.4.5.6.1.3 Asynchronous NOR Flash Timing Parameters Formulas
        6. 12.3.4.6 GPMC Registers
      5. 12.3.5 Error Location Module (ELM)
        1. 12.3.5.1 ELM Overview
          1. 12.3.5.1.1 ELM Features
          2. 12.3.5.1.2 ELM Not Supported Features
        2. 12.3.5.2 ELM Integration
          1. 12.3.5.2.1 ELM Integration in MAIN Domain
        3. 12.3.5.3 ELM Functional Description
          1. 12.3.5.3.1 ELM Software Reset
          2. 12.3.5.3.2 ELM Power Management
          3. 12.3.5.3.3 ELM Interrupt Requests
          4. 12.3.5.3.4 ELM Processing Initialization
          5. 12.3.5.3.5 ELM Processing Sequence
          6. 12.3.5.3.6 ELM Processing Completion
        4. 12.3.5.4 ELM Basic Programming Model
          1. 12.3.5.4.1 ELM Low-Level Programming Model
            1. 12.3.5.4.1.1 Processing Initialization
            2. 12.3.5.4.1.2 Read Results
            3. 12.3.5.4.1.3 2786
          2. 12.3.5.4.2 Use Case: ELM Used in Continuous Mode
          3. 12.3.5.4.3 Use Case: ELM Used in Page Mode
        5. 12.3.5.5 ELM Registers
      6. 12.3.6 Multi-Media Card Secure Digital (MMCSD) Interface
        1. 12.3.6.1 MMCSD Overview
          1. 12.3.6.1.1 MMCSD Features
          2. 12.3.6.1.2 MMCSD Not Supported Features
        2. 12.3.6.2 MMCSD Environment
          1. 12.3.6.2.1 Protocol and Data Format
            1. 12.3.6.2.1.1 Protocol
            2. 12.3.6.2.1.2 Data Format
              1. 12.3.6.2.1.2.1 Coding Scheme for Command Token
              2. 12.3.6.2.1.2.2 Coding Scheme for Response Token
              3. 12.3.6.2.1.2.3 Coding Scheme for Data Token
        3. 12.3.6.3 MMCSD Integration
          1. 12.3.6.3.1 MMCSD Integration in MAIN Domain
        4. 12.3.6.4 MMCSD Functional Description
          1. 12.3.6.4.1 Block Diagram
          2. 12.3.6.4.2 Memory Regions
          3. 12.3.6.4.3 Interrupt Requests
          4. 12.3.6.4.4 ECC Support
            1. 12.3.6.4.4.1 ECC Aggregator
          5. 12.3.6.4.5 Advanced DMA
          6. 12.3.6.4.6 eMMC PHY BIST
            1. 12.3.6.4.6.1 BIST Overview
            2. 12.3.6.4.6.2 BIST Modes
              1. 12.3.6.4.6.2.1 DS Mode
              2. 12.3.6.4.6.2.2 HS Mode with TXDLY using DLL
              3. 12.3.6.4.6.2.3 HS Mode with TXDLY using Delay Chain
              4. 12.3.6.4.6.2.4 DDR50 Mode with TXDLY using DLL
              5. 12.3.6.4.6.2.5 DDR50 Mode with TXDLY using Delay Chain
              6. 12.3.6.4.6.2.6 HS200 Mode with TX/RXDLY using DLL
              7. 12.3.6.4.6.2.7 HS200 Mode with TX/RXDLY using Delay Chain
              8. 12.3.6.4.6.2.8 HS400 Mode
            3. 12.3.6.4.6.3 BIST Functionality
            4. 12.3.6.4.6.4 Signal Interface
            5. 12.3.6.4.6.5 Programming Flow
              1. 12.3.6.4.6.5.1 DS Mode
                1. 12.3.6.4.6.5.1.1 Configuration
                2. 12.3.6.4.6.5.1.2 BIST Programming
              2. 12.3.6.4.6.5.2 HS Mode with DLY_CHAIN
                1. 12.3.6.4.6.5.2.1 Configuration
                2. 12.3.6.4.6.5.2.2 BIST Programming
              3. 12.3.6.4.6.5.3 HS Mode with DLL
                1. 12.3.6.4.6.5.3.1 Configuration
                2. 12.3.6.4.6.5.3.2 BIST Programming
              4. 12.3.6.4.6.5.4 DDR52 Mode with DLY_CHAIN
                1. 12.3.6.4.6.5.4.1 Configuration
                2. 12.3.6.4.6.5.4.2 BIST Programming
              5. 12.3.6.4.6.5.5 DDR52 Mode with DLL
                1. 12.3.6.4.6.5.5.1 Configuration
                2. 12.3.6.4.6.5.5.2 BIST Programming
              6. 12.3.6.4.6.5.6 HS200 Mode with DLY_CHAIN
                1. 12.3.6.4.6.5.6.1 Configuration
                2. 12.3.6.4.6.5.6.2 BIST Programming
              7. 12.3.6.4.6.5.7 HS200 Mode with DLL
                1. 12.3.6.4.6.5.7.1 Configuration
                2. 12.3.6.4.6.5.7.2 BIST Programming
              8. 12.3.6.4.6.5.8 HS400 Mode with DLL
                1. 12.3.6.4.6.5.8.1 Configuration
                2. 12.3.6.4.6.5.8.2 BIST Programming
            6. 12.3.6.4.6.6 HS200 BIST Result Check Procedure
        5. 12.3.6.5 MMCSD Programming Guide
          1. 12.3.6.5.1 Sequences
            1. 12.3.6.5.1.1  SD Card Detection
            2. 12.3.6.5.1.2  SD Clock Control
              1. 12.3.6.5.1.2.1 Internal Clock Setup Sequence
              2. 12.3.6.5.1.2.2 SD Clock Supply and Stop Sequence
              3. 12.3.6.5.1.2.3 SD Clock Frequency Change Sequence
            3. 12.3.6.5.1.3  SD Bus Power Control
            4. 12.3.6.5.1.4  Changing Bus Width
            5. 12.3.6.5.1.5  Timeout Setting on DAT Line
            6. 12.3.6.5.1.6  Card Initialization and Identification (for SD I/F)
              1. 12.3.6.5.1.6.1 Signal Voltage Switch Procedure (for UHS-I)
            7. 12.3.6.5.1.7  SD Transaction Generation
              1. 12.3.6.5.1.7.1 Transaction Control without Data Transfer Using DAT Line
                1. 12.3.6.5.1.7.1.1 The Sequence to Issue a SD Command
                2. 12.3.6.5.1.7.1.2 The Sequence to Finalize a Command
                3. 12.3.6.5.1.7.1.3 2865
              2. 12.3.6.5.1.7.2 Transaction Control with Data Transfer Using DAT Line
                1. 12.3.6.5.1.7.2.1 Not using DMA
                2. 12.3.6.5.1.7.2.2 Using SDMA
                3. 12.3.6.5.1.7.2.3 Using ADMA
            8. 12.3.6.5.1.8  Abort Transaction
              1. 12.3.6.5.1.8.1 Asynchronous Abort
              2. 12.3.6.5.1.8.2 Synchronous Abort
            9. 12.3.6.5.1.9  Changing Bus Speed Mode
            10. 12.3.6.5.1.10 Error Recovery
              1. 12.3.6.5.1.10.1 Error Interrupt Recovery
              2. 12.3.6.5.1.10.2 Auto CMD12 Error Recovery
            11. 12.3.6.5.1.11 Wakeup Control (Optional)
            12. 12.3.6.5.1.12 Suspend/Resume (Optional, Not Supported from Version 4.00)
              1. 12.3.6.5.1.12.1 Suspend Sequence
              2. 12.3.6.5.1.12.2 Resume Sequence
              3. 12.3.6.5.1.12.3 Stop At Block Gap/Continue Timing for Read Transaction
              4. 12.3.6.5.1.12.4 Stop At Block Gap/Continue Timing for Write Transaction
          2. 12.3.6.5.2 Driver Flow Sequence
            1. 12.3.6.5.2.1 Host Controller Setup and Card Detection
              1. 12.3.6.5.2.1.1 Host Controller Setup Sequence
              2. 12.3.6.5.2.1.2 Card Interface Detection Sequence
            2. 12.3.6.5.2.2 Boot Operation
              1. 12.3.6.5.2.2.1 Normal Boot Operation: (For Legacy eMMC 5.0)
              2. 12.3.6.5.2.2.2 Alternate Boot Operation (For Legacy eMMC 5.0):
              3. 12.3.6.5.2.2.3 Boot Code Chunk Read Operation (For Legacy eMMC 5.0):
            3. 12.3.6.5.2.3 Retuning procedure (For Legacy Interface)
              1. 12.3.6.5.2.3.1 Sampling Clock Tuning
              2. 12.3.6.5.2.3.2 Tuning Modes
              3. 12.3.6.5.2.3.3 Re-Tuning Mode 2
            4. 12.3.6.5.2.4 Command Queuing Driver Flow Sequence
              1. 12.3.6.5.2.4.1 Command Queuing Initialization Sequence
              2. 12.3.6.5.2.4.2 Task Issuance Sequence
              3. 12.3.6.5.2.4.3 Task Execution and Completion Sequence
              4. 12.3.6.5.2.4.4 Task Discard and Clear Sequence
              5. 12.3.6.5.2.4.5 Error Detect and Recovery when CQ is enabled
        6. 12.3.6.6 MMCSD Registers
          1. 12.3.6.6.1 MMCSD0 Subsystem Registers
          2. 12.3.6.6.2 MMCSD0 RX RAM ECC Aggregator Registers
          3. 12.3.6.6.3 MMCSD0 TX RAM ECC Aggregator Registers
          4. 12.3.6.6.4 MMCSD0 Host Controller Registers
          5. 12.3.6.6.5 MMCSD1 Subsystem Registers
          6. 12.3.6.6.6 MMCSD1 RX RAM ECC Aggregator Registers
          7. 12.3.6.6.7 MMCSD1 TX RAM ECC Aggregator Registers
          8. 12.3.6.6.8 MMCSD1 Host Controller Registers
    4. 12.4 Industrial and Control Interfaces
      1. 12.4.1 Enhanced Capture (ECAP) Module
        1. 12.4.1.1 ECAP Overview
          1. 12.4.1.1.1 ECAP Features
        2. 12.4.1.2 ECAP Environment
          1. 12.4.1.2.1 ECAP I/O Interface
        3. 12.4.1.3 ECAP Integration
          1. 12.4.1.3.1 Daisy-Chain Connectivity between ECAP Modules
        4. 12.4.1.4 ECAP Functional Description
          1. 12.4.1.4.1 Capture and APWM Operating Modes
            1. 12.4.1.4.1.1 ECAP Capture Mode Description
              1. 12.4.1.4.1.1.1 ECAP Event Prescaler
              2. 12.4.1.4.1.1.2 ECAP Edge Polarity Select and Qualifier
              3. 12.4.1.4.1.1.3 ECAP Continuous/One-Shot Control
              4. 12.4.1.4.1.1.4 ECAP 32-Bit Counter and Phase Control
              5. 12.4.1.4.1.1.5 CAP1-CAP4 Registers
              6. 12.4.1.4.1.1.6 ECAP Interrupt Control
              7. 12.4.1.4.1.1.7 ECAP Shadow Load and Lockout Control
            2. 12.4.1.4.1.2 ECAP APWM Mode Operation
          2. 12.4.1.4.2 Summary of ECAP Functional Registers
        5. 12.4.1.5 ECAP Use Cases
          1. 12.4.1.5.1 Absolute Time-Stamp Operation Rising Edge Trigger Example
            1. 12.4.1.5.1.1 Code Snippet for CAP Mode Absolute Time, Rising Edge Trigger
          2. 12.4.1.5.2 Absolute Time-Stamp Operation Rising and Falling Edge Trigger Example
            1. 12.4.1.5.2.1 Code Snippet for CAP Mode Absolute Time, Rising and Falling Edge Trigger
          3. 12.4.1.5.3 Time Difference (Delta) Operation Rising Edge Trigger Example
            1. 12.4.1.5.3.1 Code Snippet for CAP Mode Delta Time, Rising Edge Trigger
          4. 12.4.1.5.4 Time Difference (Delta) Operation Rising and Falling Edge Trigger Example
            1. 12.4.1.5.4.1 Code Snippet for CAP Mode Delta Time, Rising and Falling Edge Triggers
          5. 12.4.1.5.5 Application of the APWM Mode
            1. 12.4.1.5.5.1 Simple PWM Generation (Independent Channel/s) Example
              1. 12.4.1.5.5.1.1 Code Snippet for APWM Mode
            2. 12.4.1.5.5.2 Multichannel PWM Generation with Synchronization Example
              1. 12.4.1.5.5.2.1 Code Snippet for Multichannel PWM Generation with Synchronization
            3. 12.4.1.5.5.3 Multichannel PWM Generation with Phase Control Example
              1. 12.4.1.5.5.3.1 Code Snippet for Multichannel PWM Generation with Phase Control
        6. 12.4.1.6 ECAP Registers
      2. 12.4.2 Enhanced Pulse Width Modulation (EPWM) Module
        1. 12.4.2.1 EPWM Overview
          1. 12.4.2.1.1 EPWM Features
          2. 12.4.2.1.2 EPWM Not Supported Features
          3. 12.4.2.1.3 2951
        2. 12.4.2.2 EPWM Environment
          1. 12.4.2.2.1 EPWM I/O Interface
        3. 12.4.2.3 EPWM Integration
          1. 12.4.2.3.1 Device Specific EPWM Features
          2. 12.4.2.3.2 Daisy-Chain Connectivity between EPWM Modules
          3. 12.4.2.3.3 ADC start of conversion signals (PWM_SOCA and PWM_SOCB)
          4. 12.4.2.3.4 EPWM Modules Time Base Clock Gating
        4. 12.4.2.4 EPWM Functional Description
          1. 12.4.2.4.1  EPWM Submodule Features
            1. 12.4.2.4.1.1 Constant Definitions Used in the EPWM Code Examples
          2. 12.4.2.4.2  EPWM Time-Base (TB) Submodule
            1. 12.4.2.4.2.1 Overview
            2. 12.4.2.4.2.2 2964
            3. 12.4.2.4.2.3 Controlling and Monitoring the EPWM Time-Base Submodule
            4. 12.4.2.4.2.4 Calculating PWM Period and Frequency
              1. 12.4.2.4.2.4.1 EPWM Time-Base Period Shadow Register
              2. 12.4.2.4.2.4.2 EPWM Time-Base Counter Synchronization
            5. 12.4.2.4.2.5 Phase Locking the Time-Base Clocks of Multiple EPWM Modules
            6. 12.4.2.4.2.6 EPWM Time-Base Counter Modes and Timing Waveforms
          3. 12.4.2.4.3  EPWM Counter-Compare (CC) Submodule
            1. 12.4.2.4.3.1 Overview
            2. 12.4.2.4.3.2 Controlling and Monitoring the EPWM Counter-Compare Submodule
            3. 12.4.2.4.3.3 Operational Highlights for the EPWM Counter-Compare Submodule
            4. 12.4.2.4.3.4 EPWM Counter-Compare Submodule Timing Waveforms
          4. 12.4.2.4.4  EPWM Action-Qualifier (AQ) Submodule
            1. 12.4.2.4.4.1 Overview
            2. 12.4.2.4.4.2 Controlling and Monitoring the EPWM Action-Qualifier Submodule
            3. 12.4.2.4.4.3 EPWM Action-Qualifier Event Priority
            4. 12.4.2.4.4.4 Waveforms for Common EPWM Configurations
          5. 12.4.2.4.5  EPWM Dead-Band Generator (DB) Submodule
            1. 12.4.2.4.5.1 Overview
            2. 12.4.2.4.5.2 Controlling and Monitoring the EPWM Dead-Band Submodule
            3. 12.4.2.4.5.3 Operational Highlights for the EPWM Dead-Band Generator Submodule
          6. 12.4.2.4.6  EPWM-Chopper (PC) Submodule
            1. 12.4.2.4.6.1 Overview
            2. 12.4.2.4.6.2 2987
            3. 12.4.2.4.6.3 Controlling the EPWM-Chopper Submodule
            4. 12.4.2.4.6.4 Operational Highlights for the EPWM-Chopper Submodule
            5. 12.4.2.4.6.5 EPWM-Chopper Waveforms
              1. 12.4.2.4.6.5.1 EPWM-Chopper One-Shot Pulse
              2. 12.4.2.4.6.5.2 EPWM-Chopper Duty Cycle Control
          7. 12.4.2.4.7  EPWM Trip-Zone (TZ) Submodule
            1. 12.4.2.4.7.1 Overview
            2. 12.4.2.4.7.2 Controlling and Monitoring the EPWM Trip-Zone Submodule
            3. 12.4.2.4.7.3 Operational Highlights for the EPWM Trip-Zone Submodule
            4. 12.4.2.4.7.4 Generating EPWM Trip-Event Interrupts
          8. 12.4.2.4.8  EPWM Event-Trigger (ET) Submodule
            1. 12.4.2.4.8.1 Overview
            2. 12.4.2.4.8.2 Controlling and Monitoring the EPWM Event-Trigger Submodule
            3. 12.4.2.4.8.3 Operational Overview of the EPWM Event-Trigger Submodule
            4. 12.4.2.4.8.4 3002
          9. 12.4.2.4.9  EPWM High Resolution (HRPWM) Submodule
            1. 12.4.2.4.9.1 Overview
            2. 12.4.2.4.9.2 Architecture of the High-Resolution PWM Submodule
            3. 12.4.2.4.9.3 Controlling and Monitoring the High-Resolution PWM Submodule
            4. 12.4.2.4.9.4 Configuring the High-Resolution PWM Submodule
            5. 12.4.2.4.9.5 Operational Highlights for the High-Resolution PWM Submodule
              1. 12.4.2.4.9.5.1 HRPWM Edge Positioning
              2. 12.4.2.4.9.5.2 HRPWM Scaling Considerations
              3. 12.4.2.4.9.5.3 HRPWM Duty Cycle Range Limitation
          10. 12.4.2.4.10 EPWM / HRPWM Functional Register Groups
          11. 12.4.2.4.11 Proper EPWM Interrupt Initialization Procedure
        5. 12.4.2.5 EPWM Registers
      3. 12.4.3 Enhanced Quadrature Encoder Pulse (EQEP) Module
        1. 12.4.3.1 EQEP Overview
          1. 12.4.3.1.1 EQEP Features
          2. 12.4.3.1.2 EQEP Not Supported Features
        2. 12.4.3.2 EQEP Environment
          1. 12.4.3.2.1 EQEP I/O Interface
        3. 12.4.3.3 EQEP Integration
          1. 12.4.3.3.1 Device Specific EQEP Features
        4. 12.4.3.4 EQEP Functional Description
          1. 12.4.3.4.1 EQEP Inputs
          2. 12.4.3.4.2 EQEP Quadrature Decoder Unit (QDU)
            1. 12.4.3.4.2.1 EQEP Position Counter Input Modes
              1. 12.4.3.4.2.1.1 Quadrature Count Mode
              2. 12.4.3.4.2.1.2 EQEP Direction-count Mode
              3. 12.4.3.4.2.1.3 EQEP Up-Count Mode
              4. 12.4.3.4.2.1.4 EQEP Down-Count Mode
            2. 12.4.3.4.2.2 EQEP Input Polarity Selection
            3. 12.4.3.4.2.3 EQEP Position-Compare Sync Output
          3. 12.4.3.4.3 EQEP Position Counter and Control Unit (PCCU)
            1. 12.4.3.4.3.1 EQEP Position Counter Operating Modes
              1. 12.4.3.4.3.1.1 EQEP Position Counter Reset on Index Event (EQEP_QDEC_QEP_CTL[29-28] PCRM] = 0b00)
              2. 12.4.3.4.3.1.2 EQEP Position Counter Reset on Maximum Position (EQEP_QDEC_QEP_CTL[29-28] PCRM=0b01)
              3. 12.4.3.4.3.1.3 Position Counter Reset on the First Index Event (EQEP_QDEC_QEP_CTL[29-28] PCRM = 0b10)
              4. 12.4.3.4.3.1.4 Position Counter Reset on Unit Time out Event (EQEP_QDEC_QEP_CTL[29-28] PCRM = 0b11)
            2. 12.4.3.4.3.2 EQEP Position Counter Latch
              1. 12.4.3.4.3.2.1 Index Event Latch
              2. 12.4.3.4.3.2.2 EQEP Strobe Event Latch
            3. 12.4.3.4.3.3 EQEP Position Counter Initialization
            4. 12.4.3.4.3.4 EQEP Position-Compare Unit
          4. 12.4.3.4.4 EQEP Edge Capture Unit
          5. 12.4.3.4.5 EQEP Watchdog
          6. 12.4.3.4.6 Unit Timer Base
          7. 12.4.3.4.7 EQEP Interrupt Structure
          8. 12.4.3.4.8 Summary of EQEP Functional Registers
        5. 12.4.3.5 EQEP Registers
      4. 12.4.4 Controller Area Network (MCAN)
        1. 12.4.4.1 MCAN Overview
          1. 12.4.4.1.1 MCAN Features
          2. 12.4.4.1.2 MCAN Not Supported Features
        2. 12.4.4.2 MCAN Environment
          1. 12.4.4.2.1 CAN Network Basics
        3. 12.4.4.3 MCAN Integration
          1. 12.4.4.3.1 MCAN Integration in MCU Domain
          2. 12.4.4.3.2 MCAN Integration in MAIN Domain
        4. 12.4.4.4 MCAN Functional Description
          1. 12.4.4.4.1  Module Clocking Requirements
          2. 12.4.4.4.2  Interrupt and DMA Requests
            1. 12.4.4.4.2.1 Interrupt Requests
            2. 12.4.4.4.2.2 DMA Requests
            3. 12.4.4.4.2.3 3064
          3. 12.4.4.4.3  Operating Modes
            1. 12.4.4.4.3.1 Software Initialization
            2. 12.4.4.4.3.2 Normal Operation
            3. 12.4.4.4.3.3 CAN FD Operation
            4. 12.4.4.4.3.4 Transmitter Delay Compensation
              1. 12.4.4.4.3.4.1 Description
              2. 12.4.4.4.3.4.2 Transmitter Delay Compensation Measurement
            5. 12.4.4.4.3.5 Restricted Operation Mode
            6. 12.4.4.4.3.6 Bus Monitoring Mode
            7. 12.4.4.4.3.7 Disabled Automatic Retransmission (DAR) Mode
              1. 12.4.4.4.3.7.1 Frame Transmission in DAR Mode
            8. 12.4.4.4.3.8 Power Down (Sleep Mode)
              1. 12.4.4.4.3.8.1 External Clock Stop Mode
              2. 12.4.4.4.3.8.2 Suspend Mode
              3. 12.4.4.4.3.8.3 Wakeup request
            9. 12.4.4.4.3.9 Test Modes
              1. 12.4.4.4.3.9.1 Internal Loopback Mode
          4. 12.4.4.4.4  Timestamp Generation
            1. 12.4.4.4.4.1 External Timestamp Counter
          5. 12.4.4.4.5  Timeout Counter
          6. 12.4.4.4.6  ECC Support
            1. 12.4.4.4.6.1 ECC Wrapper
            2. 12.4.4.4.6.2 ECC Aggregator
          7. 12.4.4.4.7  Rx Handling
            1. 12.4.4.4.7.1 Acceptance Filtering
              1. 12.4.4.4.7.1.1 Range Filter
              2. 12.4.4.4.7.1.2 Filter for specific IDs
              3. 12.4.4.4.7.1.3 Classic Bit Mask Filter
              4. 12.4.4.4.7.1.4 Standard Message ID Filtering
              5. 12.4.4.4.7.1.5 Extended Message ID Filtering
            2. 12.4.4.4.7.2 Rx FIFOs
              1. 12.4.4.4.7.2.1 Rx FIFO Blocking Mode
              2. 12.4.4.4.7.2.2 Rx FIFO Overwrite Mode
            3. 12.4.4.4.7.3 Dedicated Rx Buffers
              1. 12.4.4.4.7.3.1 Rx Buffer Handling
            4. 12.4.4.4.7.4 Debug on CAN Support
          8. 12.4.4.4.8  Tx Handling
            1. 12.4.4.4.8.1 Transmit Pause
            2. 12.4.4.4.8.2 Dedicated Tx Buffers
            3. 12.4.4.4.8.3 Tx FIFO
            4. 12.4.4.4.8.4 Tx Queue
            5. 12.4.4.4.8.5 Mixed Dedicated Tx Buffers/Tx FIFO
            6. 12.4.4.4.8.6 Mixed Dedicated Tx Buffers/Tx Queue
            7. 12.4.4.4.8.7 Transmit Cancellation
            8. 12.4.4.4.8.8 Tx Event Handling
          9. 12.4.4.4.9  FIFO Acknowledge Handling
          10. 12.4.4.4.10 Message RAM
            1. 12.4.4.4.10.1 Message RAM Configuration
            2. 12.4.4.4.10.2 Rx Buffer and FIFO Element
            3. 12.4.4.4.10.3 Tx Buffer Element
            4. 12.4.4.4.10.4 Tx Event FIFO Element
            5. 12.4.4.4.10.5 Standard Message ID Filter Element
            6. 12.4.4.4.10.6 Extended Message ID Filter Element
        5. 12.4.4.5 MCAN Registers
          1. 12.4.4.5.1 MCAN Subsystem Registers
          2. 12.4.4.5.2 MCAN Core Registers
          3. 12.4.4.5.3 MCAN ECC Aggregator Registers
    5. 12.5 Audio Interfaces
      1. 12.5.1 Audio Tracking Logic (ATL)
        1. 12.5.1.1 ATL Overview
          1. 12.5.1.1.1 ATL Features Overview
          2. 12.5.1.1.2 ATL Not Supported Features
    6. 12.6 Timer Modules
      1. 12.6.1 Global Timebase Counter (GTC)
        1. 12.6.1.1 GTC Overview
          1. 12.6.1.1.1 GTC Features
          2. 12.6.1.1.2 GTC Not Supported Features
        2. 12.6.1.2 GTC Integration
        3. 12.6.1.3 GTC Functional Description
          1. 12.6.1.3.1 GTC Block Diagram
          2. 12.6.1.3.2 GTC Counter
          3. 12.6.1.3.3 GTC Gray Encoder
          4. 12.6.1.3.4 GTC Push Event Generation
          5. 12.6.1.3.5 GTC Register Partitioning
        4. 12.6.1.4 GTC Registers
          1. 12.6.1.4.1 GTC0_GTC_CFG0 Registers
          2. 12.6.1.4.2 GTC0_GTC_CFG1 Registers
          3. 12.6.1.4.3 GTC0_GTC_CFG2 Registers
          4. 12.6.1.4.4 GTC0_GTC_CFG3 Registers
      2. 12.6.2 Windowed Watchdog Timer (WWDT)
        1. 12.6.2.1 RTI Overview
          1. 12.6.2.1.1 RTI Features
          2. 12.6.2.1.2 RTI Not Supported Features
        2. 12.6.2.2 RTI Integration
          1. 12.6.2.2.1 RTI Integration in MCU Domain
          2. 12.6.2.2.2 RTI Integration in MAIN Domain
        3. 12.6.2.3 RTI Functional Description
          1. 12.6.2.3.1 RTI Counter Operation
          2. 12.6.2.3.2 RTI Digital Watchdog
          3. 12.6.2.3.3 RTI Digital Windowed Watchdog
          4. 12.6.2.3.4 RTI Low Power Mode Operation
          5. 12.6.2.3.5 RTI Debug Mode Behavior
        4. 12.6.2.4 RTI Registers
      3. 12.6.3 Timers
        1. 12.6.3.1 Timers Overview
          1. 12.6.3.1.1 Timers Features
          2. 12.6.3.1.2 Timers Not Supported Features
        2. 12.6.3.2 Timers Environment
          1. 12.6.3.2.1 Timer External System Interface
        3. 12.6.3.3 Timers Integration
          1. 12.6.3.3.1 Timers Integration in MCU Domain
          2. 12.6.3.3.2 Timers Integration in MAIN Domain
        4. 12.6.3.4 Timers Functional Description
          1. 12.6.3.4.1  Timer Block Diagram
          2. 12.6.3.4.2  Timer Power Management
            1. 12.6.3.4.2.1 Wake-Up Capability
          3. 12.6.3.4.3  Timer Software Reset
          4. 12.6.3.4.4  Timer Interrupts
          5. 12.6.3.4.5  Timer Mode Functionality
            1. 12.6.3.4.5.1 1-ms Tick Generation
          6. 12.6.3.4.6  Timer Capture Mode Functionality
          7. 12.6.3.4.7  Timer Compare Mode Functionality
          8. 12.6.3.4.8  Timer Prescaler Functionality
          9. 12.6.3.4.9  Timer Pulse-Width Modulation
          10. 12.6.3.4.10 Timer Counting Rate
          11. 12.6.3.4.11 Timer Under Emulation
          12. 12.6.3.4.12 Accessing Timer Registers
            1. 12.6.3.4.12.1 Writing to Timer Registers
              1. 12.6.3.4.12.1.1 Write Posting Synchronization Mode
              2. 12.6.3.4.12.1.2 Write Nonposting Synchronization Mode
            2. 12.6.3.4.12.2 Reading From Timer Counter Registers
              1. 12.6.3.4.12.2.1 Read Posted
              2. 12.6.3.4.12.2.2 Read Non-Posted
          13. 12.6.3.4.13 Timer Posted Mode Selection
        5. 12.6.3.5 Timers Low-Level Programming Models
          1. 12.6.3.5.1 Timer Global Initialization
            1. 12.6.3.5.1.1 Global Initialization of Surrounding Modules
            2. 12.6.3.5.1.2 Timer Module Global Initialization
              1. 12.6.3.5.1.2.1 Main Sequence – Timer Module Global Initialization
          2. 12.6.3.5.2 Timer Operational Mode Configuration
            1. 12.6.3.5.2.1 Timer Mode
              1. 12.6.3.5.2.1.1 Main Sequence – Timer Mode Configuration
            2. 12.6.3.5.2.2 Timer Compare Mode
              1. 12.6.3.5.2.2.1 Main Sequence – Timer Compare Mode Configuration
            3. 12.6.3.5.2.3 Timer Capture Mode
              1. 12.6.3.5.2.3.1 Main Sequence – Timer Capture Mode Configuration
              2. 12.6.3.5.2.3.2 Subsequence – Initialize Capture Mode
              3. 12.6.3.5.2.3.3 Subsequence – Detect Event
            4. 12.6.3.5.2.4 Timer PWM Mode
              1. 12.6.3.5.2.4.1 Main Sequence – Timer PWM Mode Configuration
        6. 12.6.3.6 Timers Registers
    7. 12.7 Internal Diagnostics Modules
      1. 12.7.1 Dual Clock Comparator (DCC)
        1. 12.7.1.1 DCC Overview
          1. 12.7.1.1.1 DCC Features
          2. 12.7.1.1.2 DCC Not Supported Features
        2. 12.7.1.2 DCC Integration
          1. 12.7.1.2.1 DCC Integration in MCU Domain
          2. 12.7.1.2.2 DCC Integration in MAIN Domain
        3. 12.7.1.3 DCC Functional Description
          1. 12.7.1.3.1 DCC Counter Operation
          2. 12.7.1.3.2 DCC Low Power Mode Operation
          3. 12.7.1.3.3 DCC Suspend Mode Behavior
          4. 12.7.1.3.4 DCC Single-Shot Mode
          5. 12.7.1.3.5 DCC Continuous mode
            1. 12.7.1.3.5.1 DCC Continue on Error
            2. 12.7.1.3.5.2 DCC Error Count
          6. 12.7.1.3.6 DCC Control and count hand-off across clock domains
          7. 12.7.1.3.7 DCC Error Trajectory record
            1. 12.7.1.3.7.1 DCC FIFO capturing for Errors
            2. 12.7.1.3.7.2 DCC FIFO in continuous capture mode
            3. 12.7.1.3.7.3 DCC FIFO Details
            4. 12.7.1.3.7.4 DCC FIFO Debug mode behavior
          8. 12.7.1.3.8 DCC Count read registers
        4. 12.7.1.4 DCC Registers
      2. 12.7.2 Error Signaling Module (ESM)
        1. 12.7.2.1 ESM Overview
          1. 12.7.2.1.1 ESM Features
        2. 12.7.2.2 ESM Environment
        3. 12.7.2.3 ESM Integration
          1. 12.7.2.3.1 ESM Integration in WKUP Domain
          2. 12.7.2.3.2 ESM Integration in MCU Domain
          3. 12.7.2.3.3 ESM Integration in MAIN Domain
        4. 12.7.2.4 ESM Functional Description
          1. 12.7.2.4.1 ESM Interrupt Requests
            1. 12.7.2.4.1.1 ESM Configuration Error Interrupt
            2. 12.7.2.4.1.2 ESM Low Priority Error Interrupt
              1. 12.7.2.4.1.2.1 ESM Low Priority Error Level Event
              2. 12.7.2.4.1.2.2 ESM Low Priority Error Pulse Event
            3. 12.7.2.4.1.3 ESM High Priority Error Interrupt
              1. 12.7.2.4.1.3.1 ESM High Priority Error Level Event
              2. 12.7.2.4.1.3.2 ESM High Priority Error Pulse Event
          2. 12.7.2.4.2 ESM Error Event Inputs
          3. 12.7.2.4.3 ESM Error Pin Output
          4. 12.7.2.4.4 ESM Minimum Time Interval
          5. 12.7.2.4.5 ESM Protection for Registers
          6. 12.7.2.4.6 ESM Clock Stop
        5. 12.7.2.5 ESM Registers
      3. 12.7.3 Memory Cyclic Redundancy Check (MCRC) Controller
        1. 12.7.3.1 MCRC Overview
          1. 12.7.3.1.1 MCRC Features
          2. 12.7.3.1.2 MCRC Not Supported Features
        2. 12.7.3.2 MCRC Integration
        3. 12.7.3.3 MCRC Functional Description
          1. 12.7.3.3.1  MCRC Block Diagram
          2. 12.7.3.3.2  MCRC General Operation
          3. 12.7.3.3.3  MCRC Modes of Operation
            1. 12.7.3.3.3.1 AUTO Mode
            2. 12.7.3.3.3.2 Semi-CPU Mode
            3. 12.7.3.3.3.3 Full-CPU Mode
          4. 12.7.3.3.4  PSA Signature Register
          5. 12.7.3.3.5  PSA Sector Signature Register
          6. 12.7.3.3.6  CRC Value Register
          7. 12.7.3.3.7  Raw Data Register
          8. 12.7.3.3.8  Example DMA Controller Setup
            1. 12.7.3.3.8.1 AUTO Mode Using Hardware Timer Trigger
            2. 12.7.3.3.8.2 AUTO Mode Using Software Trigger
            3. 12.7.3.3.8.3 Semi-CPU Mode Using Hardware Timer Trigger
          9. 12.7.3.3.9  Pattern Count Register
          10. 12.7.3.3.10 Sector Count Register/Current Sector Register
          11. 12.7.3.3.11 Interrupts
            1. 12.7.3.3.11.1 Compression Complete Interrupt
            2. 12.7.3.3.11.2 CRC Fail Interrupt
            3. 12.7.3.3.11.3 Overrun Interrupt
            4. 12.7.3.3.11.4 Underrun Interrupt
            5. 12.7.3.3.11.5 Timeout Interrupt
            6. 12.7.3.3.11.6 Interrupt Offset Register
            7. 12.7.3.3.11.7 Error Handling
          12. 12.7.3.3.12 Power Down Mode
          13. 12.7.3.3.13 Emulation
        4. 12.7.3.4 MCRC Programming Examples
          1. 12.7.3.4.1 Example: Auto Mode Using Time Based Event Triggering
            1. 12.7.3.4.1.1 DMA Setup
            2. 12.7.3.4.1.2 Timer Setup
            3. 12.7.3.4.1.3 CRC Setup
          2. 12.7.3.4.2 Example: Auto Mode Without Using Time Based Triggering
            1. 12.7.3.4.2.1 DMA Setup
            2. 12.7.3.4.2.2 CRC Setup
          3. 12.7.3.4.3 Example: Semi-CPU Mode
            1. 12.7.3.4.3.1 DMA Setup
            2. 12.7.3.4.3.2 Timer Setup
            3. 12.7.3.4.3.3 CRC Setup
          4. 12.7.3.4.4 Example: Full-CPU Mode
            1. 12.7.3.4.4.1 CRC Setup
        5. 12.7.3.5 MCRC Registers
      4. 12.7.4 ECC Aggregator
        1. 12.7.4.1 ECC Aggregator Overview
          1. 12.7.4.1.1 ECC Aggregator Features
        2. 12.7.4.2 ECC Aggregator Integration
        3. 12.7.4.3 ECC Aggregator Functional Description
          1. 12.7.4.3.1 ECC Aggregator Block Diagram
          2. 12.7.4.3.2 ECC Aggregator Register Groups
          3. 12.7.4.3.3 Read Access to the ECC Control and Status Registers
          4. 12.7.4.3.4 Serial Write Operation
          5. 12.7.4.3.5 Interrupts
          6. 12.7.4.3.6 Inject Only Mode
        4. 12.7.4.4 ECC Aggregator Registers
  15. 13On-Chip Debug
  16. 14Revision History

8.2.5.2 DDR Controller Registers

Table 8-192 lists the memory-mapped registers for the DDR controller. All register offset addresses not listed in Table 8-192 should be considered as reserved locations and the register contents should not be modified.

Table 8-191 DDR Controller Instances
InstanceBase Address
COMPUTE_CLUSTER0_CTL_CFG0299 0000h
Table 8-192 DDR Controller Registers
OffsetAcronymRegister NameCOMPUTE_CLUSTER0_CTL_CFG Physical Address
0hDDRSS_CTL_0DDR Controller Register 00299 0000h
4hDDRSS_CTL_1DDR Controller Register 10299 0004h
8hDDRSS_CTL_2DDR Controller Register 20299 0008h
ChDDRSS_CTL_3DDR Controller Register 30299 000Ch
10hDDRSS_CTL_4DDR Controller Register 40299 0010h
14hDDRSS_CTL_5DDR Controller Register 50299 0014h
18hDDRSS_CTL_6DDR Controller Register 60299 0018h
1ChDDRSS_CTL_7DDR Controller Register 70299 001Ch
20hDDRSS_CTL_8DDR Controller Register 80299 0020h
24hDDRSS_CTL_9DDR Controller Register 90299 0024h
28hDDRSS_CTL_10DDR Controller Register 100299 0028h
2ChDDRSS_CTL_11DDR Controller Register 110299 002Ch
30hDDRSS_CTL_12DDR Controller Register 120299 0030h
34hDDRSS_CTL_13DDR Controller Register 130299 0034h
38hDDRSS_CTL_14DDR Controller Register 140299 0038h
3ChDDRSS_CTL_15DDR Controller Register 150299 003Ch
40hDDRSS_CTL_16DDR Controller Register 160299 0040h
44hDDRSS_CTL_17DDR Controller Register 170299 0044h
48hDDRSS_CTL_18DDR Controller Register 180299 0048h
4ChDDRSS_CTL_19DDR Controller Register 190299 004Ch
50hDDRSS_CTL_20DDR Controller Register 200299 0050h
54hDDRSS_CTL_21DDR Controller Register 210299 0054h
58hDDRSS_CTL_22DDR Controller Register 220299 0058h
5ChDDRSS_CTL_23DDR Controller Register 230299 005Ch
60hDDRSS_CTL_24DDR Controller Register 240299 0060h
68hDDRSS_CTL_26DDR Controller Register 260299 0068h
6ChDDRSS_CTL_27DDR Controller Register 270299 006Ch
70hDDRSS_CTL_28DDR Controller Register 280299 0070h
74hDDRSS_CTL_29DDR Controller Register 290299 0074h
78hDDRSS_CTL_30DDR Controller Register 300299 0078h
7ChDDRSS_CTL_31DDR Controller Register 310299 007Ch
80hDDRSS_CTL_32DDR Controller Register 320299 0080h
84hDDRSS_CTL_33DDR Controller Register 330299 0084h
88hDDRSS_CTL_34DDR Controller Register 340299 0088h
8ChDDRSS_CTL_35DDR Controller Register 350299 008Ch
90hDDRSS_CTL_36DDR Controller Register 360299 0090h
94hDDRSS_CTL_37DDR Controller Register 370299 0094h
98hDDRSS_CTL_38DDR Controller Register 380299 0098h
9ChDDRSS_CTL_39DDR Controller Register 390299 009Ch
A0hDDRSS_CTL_40DDR Controller Register 400299 00A0h
A4hDDRSS_CTL_41DDR Controller Register 410299 00A4h
A8hDDRSS_CTL_42DDR Controller Register 420299 00A8h
AChDDRSS_CTL_43DDR Controller Register 430299 00ACh
B0hDDRSS_CTL_44DDR Controller Register 440299 00B0h
B4hDDRSS_CTL_45DDR Controller Register 450299 00B4h
B8hDDRSS_CTL_46DDR Controller Register 460299 00B8h
BChDDRSS_CTL_47DDR Controller Register 470299 00BCh
C0hDDRSS_CTL_48DDR Controller Register 480299 00C0h
C4hDDRSS_CTL_49DDR Controller Register 490299 00C4h
C8hDDRSS_CTL_50DDR Controller Register 500299 00C8h
CChDDRSS_CTL_51DDR Controller Register 510299 00CCh
D0hDDRSS_CTL_52DDR Controller Register 520299 00D0h
D4hDDRSS_CTL_53DDR Controller Register 530299 00D4h
D8hDDRSS_CTL_54DDR Controller Register 540299 00D8h
DChDDRSS_CTL_55DDR Controller Register 550299 00DCh
E0hDDRSS_CTL_56DDR Controller Register 560299 00E0h
E4hDDRSS_CTL_57DDR Controller Register 570299 00E4h
E8hDDRSS_CTL_58DDR Controller Register 580299 00E8h
EChDDRSS_CTL_59DDR Controller Register 590299 00ECh
F0hDDRSS_CTL_60DDR Controller Register 600299 00F0h
F4hDDRSS_CTL_61DDR Controller Register 610299 00F4h
F8hDDRSS_CTL_62DDR Controller Register 620299 00F8h
FChDDRSS_CTL_63DDR Controller Register 630299 00FCh
100hDDRSS_CTL_64DDR Controller Register 640299 0100h
104hDDRSS_CTL_65DDR Controller Register 650299 0104h
108hDDRSS_CTL_66DDR Controller Register 660299 0108h
10ChDDRSS_CTL_67DDR Controller Register 670299 010Ch
110hDDRSS_CTL_68DDR Controller Register 680299 0110h
114hDDRSS_CTL_69DDR Controller Register 690299 0114h
118hDDRSS_CTL_70DDR Controller Register 700299 0118h
11ChDDRSS_CTL_71DDR Controller Register 710299 011Ch
120hDDRSS_CTL_72DDR Controller Register 720299 0120h
124hDDRSS_CTL_73DDR Controller Register 730299 0124h
128hDDRSS_CTL_74DDR Controller Register 740299 0128h
12ChDDRSS_CTL_75DDR Controller Register 750299 012Ch
130hDDRSS_CTL_76DDR Controller Register 760299 0130h
134hDDRSS_CTL_77DDR Controller Register 770299 0134h
138hDDRSS_CTL_78DDR Controller Register 780299 0138h
13ChDDRSS_CTL_79DDR Controller Register 790299 013Ch
140hDDRSS_CTL_80DDR Controller Register 800299 0140h
144hDDRSS_CTL_81DDR Controller Register 810299 0144h
148hDDRSS_CTL_82DDR Controller Register 820299 0148h
14ChDDRSS_CTL_83DDR Controller Register 830299 014Ch
150hDDRSS_CTL_84DDR Controller Register 840299 0150h
154hDDRSS_CTL_85DDR Controller Register 850299 0154h
158hDDRSS_CTL_86DDR Controller Register 860299 0158h
15ChDDRSS_CTL_87DDR Controller Register 870299 015Ch
160hDDRSS_CTL_88DDR Controller Register 880299 0160h
164hDDRSS_CTL_89DDR Controller Register 890299 0164h
168hDDRSS_CTL_90DDR Controller Register 900299 0168h
16ChDDRSS_CTL_91DDR Controller Register 910299 016Ch
170hDDRSS_CTL_92DDR Controller Register 920299 0170h
178hDDRSS_CTL_94DDR Controller Register 940299 0178h
17ChDDRSS_CTL_95DDR Controller Register 950299 017Ch
180hDDRSS_CTL_96DDR Controller Register 960299 0180h
184hDDRSS_CTL_97DDR Controller Register 970299 0184h
188hDDRSS_CTL_98DDR Controller Register 980299 0188h
18ChDDRSS_CTL_99DDR Controller Register 990299 018Ch
190hDDRSS_CTL_100DDR Controller Register 1000299 0190h
194hDDRSS_CTL_101DDR Controller Register 1010299 0194h
198hDDRSS_CTL_102DDR Controller Register 1020299 0198h
19ChDDRSS_CTL_103DDR Controller Register 1030299 019Ch
1A0hDDRSS_CTL_104DDR Controller Register 1040299 01A0h
1A4hDDRSS_CTL_105DDR Controller Register 1050299 01A4h
1A8hDDRSS_CTL_106DDR Controller Register 1060299 01A8h
1AChDDRSS_CTL_107DDR Controller Register 1070299 01ACh
1B0hDDRSS_CTL_108DDR Controller Register 1080299 01B0h
1B4hDDRSS_CTL_109DDR Controller Register 1090299 01B4h
1B8hDDRSS_CTL_110DDR Controller Register 1100299 01B8h
1BChDDRSS_CTL_111DDR Controller Register 1110299 01BCh
1C0hDDRSS_CTL_112DDR Controller Register 1120299 01C0h
1C4hDDRSS_CTL_113DDR Controller Register 1130299 01C4h
1C8hDDRSS_CTL_114DDR Controller Register 1140299 01C8h
1CChDDRSS_CTL_115DDR Controller Register 1150299 01CCh
1D0hDDRSS_CTL_116DDR Controller Register 1160299 01D0h
1D4hDDRSS_CTL_117DDR Controller Register 1170299 01D4h
1D8hDDRSS_CTL_118DDR Controller Register 1180299 01D8h
1DChDDRSS_CTL_119DDR Controller Register 1190299 01DCh
1E0hDDRSS_CTL_120DDR Controller Register 1200299 01E0h
1E4hDDRSS_CTL_121DDR Controller Register 1210299 01E4h
1E8hDDRSS_CTL_122DDR Controller Register 1220299 01E8h
1EChDDRSS_CTL_123DDR Controller Register 1230299 01ECh
1F0hDDRSS_CTL_124DDR Controller Register 1240299 01F0h
1F4hDDRSS_CTL_125DDR Controller Register 1250299 01F4h
1F8hDDRSS_CTL_126DDR Controller Register 1260299 01F8h
1FChDDRSS_CTL_127DDR Controller Register 1270299 01FCh
200hDDRSS_CTL_128DDR Controller Register 1280299 0200h
204hDDRSS_CTL_129DDR Controller Register 1290299 0204h
208hDDRSS_CTL_130DDR Controller Register 1300299 0208h
20ChDDRSS_CTL_131DDR Controller Register 1310299 020Ch
210hDDRSS_CTL_132DDR Controller Register 1320299 0210h
214hDDRSS_CTL_133DDR Controller Register 1330299 0214h
218hDDRSS_CTL_134DDR Controller Register 1340299 0218h
21ChDDRSS_CTL_135DDR Controller Register 1350299 021Ch
220hDDRSS_CTL_136DDR Controller Register 1360299 0220h
224hDDRSS_CTL_137DDR Controller Register 1370299 0224h
228hDDRSS_CTL_138DDR Controller Register 1380299 0228h
22ChDDRSS_CTL_139DDR Controller Register 1390299 022Ch
230hDDRSS_CTL_140DDR Controller Register 1400299 0230h
234hDDRSS_CTL_141DDR Controller Register 1410299 0234h
238hDDRSS_CTL_142DDR Controller Register 1420299 0238h
23ChDDRSS_CTL_143DDR Controller Register 1430299 023Ch
240hDDRSS_CTL_144DDR Controller Register 1440299 0240h
244hDDRSS_CTL_145DDR Controller Register 1450299 0244h
248hDDRSS_CTL_146DDR Controller Register 1460299 0248h
24ChDDRSS_CTL_147DDR Controller Register 1470299 024Ch
250hDDRSS_CTL_148DDR Controller Register 1480299 0250h
254hDDRSS_CTL_149DDR Controller Register 1490299 0254h
258hDDRSS_CTL_150DDR Controller Register 1500299 0258h
25ChDDRSS_CTL_151DDR Controller Register 1510299 025Ch
260hDDRSS_CTL_152DDR Controller Register 1520299 0260h
264hDDRSS_CTL_153DDR Controller Register 1530299 0264h
268hDDRSS_CTL_154DDR Controller Register 1540299 0268h
26ChDDRSS_CTL_155DDR Controller Register 1550299 026Ch
270hDDRSS_CTL_156DDR Controller Register 1560299 0270h
274hDDRSS_CTL_157DDR Controller Register 1570299 0274h
278hDDRSS_CTL_158DDR Controller Register 1580299 0278h
27ChDDRSS_CTL_159DDR Controller Register 1590299 027Ch
280hDDRSS_CTL_160DDR Controller Register 1600299 0280h
284hDDRSS_CTL_161DDR Controller Register 1610299 0284h
288hDDRSS_CTL_162DDR Controller Register 1620299 0288h
28ChDDRSS_CTL_163DDR Controller Register 1630299 028Ch
290hDDRSS_CTL_164DDR Controller Register 1640299 0290h
294hDDRSS_CTL_165DDR Controller Register 1650299 0294h
298hDDRSS_CTL_166DDR Controller Register 1660299 0298h
29ChDDRSS_CTL_167DDR Controller Register 1670299 029Ch
2A0hDDRSS_CTL_168DDR Controller Register 1680299 02A0h
2A4hDDRSS_CTL_169DDR Controller Register 1690299 02A4h
2A8hDDRSS_CTL_170DDR Controller Register 1700299 02A8h
2AChDDRSS_CTL_171DDR Controller Register 1710299 02ACh
2B0hDDRSS_CTL_172DDR Controller Register 1720299 02B0h
2B4hDDRSS_CTL_173DDR Controller Register 1730299 02B4h
2B8hDDRSS_CTL_174DDR Controller Register 1740299 02B8h
2BChDDRSS_CTL_175DDR Controller Register 1750299 02BCh
2C0hDDRSS_CTL_176DDR Controller Register 1760299 02C0h
2C4hDDRSS_CTL_177DDR Controller Register 1770299 02C4h
2C8hDDRSS_CTL_178DDR Controller Register 1780299 02C8h
2CChDDRSS_CTL_179DDR Controller Register 1790299 02CCh
2D0hDDRSS_CTL_180DDR Controller Register 1800299 02D0h
2D4hDDRSS_CTL_181DDR Controller Register 1810299 02D4h
2D8hDDRSS_CTL_182DDR Controller Register 1820299 02D8h
2DChDDRSS_CTL_183DDR Controller Register 1830299 02DCh
2E0hDDRSS_CTL_184DDR Controller Register 1840299 02E0h
2E4hDDRSS_CTL_185DDR Controller Register 1850299 02E4h
2E8hDDRSS_CTL_186DDR Controller Register 1860299 02E8h
2EChDDRSS_CTL_187DDR Controller Register 1870299 02ECh
2F0hDDRSS_CTL_188DDR Controller Register 1880299 02F0h
2F4hDDRSS_CTL_189DDR Controller Register 1890299 02F4h
2F8hDDRSS_CTL_190DDR Controller Register 1900299 02F8h
2FChDDRSS_CTL_191DDR Controller Register 1910299 02FCh
300hDDRSS_CTL_192DDR Controller Register 1920299 0300h
304hDDRSS_CTL_193DDR Controller Register 1930299 0304h
308hDDRSS_CTL_194DDR Controller Register 1940299 0308h
30ChDDRSS_CTL_195DDR Controller Register 1950299 030Ch
310hDDRSS_CTL_196DDR Controller Register 1960299 0310h
314hDDRSS_CTL_197DDR Controller Register 1970299 0314h
318hDDRSS_CTL_198DDR Controller Register 1980299 0318h
31ChDDRSS_CTL_199DDR Controller Register 1990299 031Ch
320hDDRSS_CTL_200DDR Controller Register 2000299 0320h
324hDDRSS_CTL_201DDR Controller Register 2010299 0324h
328hDDRSS_CTL_202DDR Controller Register 2020299 0328h
32ChDDRSS_CTL_203DDR Controller Register 2030299 032Ch
330hDDRSS_CTL_204DDR Controller Register 2040299 0330h
334hDDRSS_CTL_205DDR Controller Register 2050299 0334h
338hDDRSS_CTL_206DDR Controller Register 2060299 0338h
33ChDDRSS_CTL_207DDR Controller Register 2070299 033Ch
340hDDRSS_CTL_208DDR Controller Register 2080299 0340h
344hDDRSS_CTL_209DDR Controller Register 2090299 0344h
348hDDRSS_CTL_210DDR Controller Register 2100299 0348h
34ChDDRSS_CTL_211DDR Controller Register 2110299 034Ch
350hDDRSS_CTL_212DDR Controller Register 2120299 0350h
354hDDRSS_CTL_213DDR Controller Register 2130299 0354h
358hDDRSS_CTL_214DDR Controller Register 2140299 0358h
35ChDDRSS_CTL_215DDR Controller Register 2150299 035Ch
360hDDRSS_CTL_216DDR Controller Register 2160299 0360h
364hDDRSS_CTL_217DDR Controller Register 2170299 0364h
368hDDRSS_CTL_218DDR Controller Register 2180299 0368h
36ChDDRSS_CTL_219DDR Controller Register 2190299 036Ch
370hDDRSS_CTL_220DDR Controller Register 2200299 0370h
374hDDRSS_CTL_221DDR Controller Register 2210299 0374h
378hDDRSS_CTL_222DDR Controller Register 2220299 0378h
37ChDDRSS_CTL_223DDR Controller Register 2230299 037Ch
380hDDRSS_CTL_224DDR Controller Register 2240299 0380h
384hDDRSS_CTL_225DDR Controller Register 2250299 0384h
388hDDRSS_CTL_226DDR Controller Register 2260299 0388h
38ChDDRSS_CTL_227DDR Controller Register 2270299 038Ch
390hDDRSS_CTL_228DDR Controller Register 2280299 0390h
394hDDRSS_CTL_229DDR Controller Register 2290299 0394h
398hDDRSS_CTL_230DDR Controller Register 2300299 0398h
39ChDDRSS_CTL_231DDR Controller Register 2310299 039Ch
3A0hDDRSS_CTL_232DDR Controller Register 2320299 03A0h
3A4hDDRSS_CTL_233DDR Controller Register 2330299 03A4h
3A8hDDRSS_CTL_234DDR Controller Register 2340299 03A8h
3AChDDRSS_CTL_235DDR Controller Register 2350299 03ACh
3B0hDDRSS_CTL_236DDR Controller Register 2360299 03B0h
3B4hDDRSS_CTL_237DDR Controller Register 2370299 03B4h
3B8hDDRSS_CTL_238DDR Controller Register 2380299 03B8h
3BChDDRSS_CTL_239DDR Controller Register 2390299 03BCh
3C0hDDRSS_CTL_240DDR Controller Register 2400299 03C0h
3C4hDDRSS_CTL_241DDR Controller Register 2410299 03C4h
3C8hDDRSS_CTL_242DDR Controller Register 2420299 03C8h
3CChDDRSS_CTL_243DDR Controller Register 2430299 03CCh
3D0hDDRSS_CTL_244DDR Controller Register 2440299 03D0h
3D4hDDRSS_CTL_245DDR Controller Register 2450299 03D4h
3D8hDDRSS_CTL_246DDR Controller Register 2460299 03D8h
3DChDDRSS_CTL_247DDR Controller Register 2470299 03DCh
3E0hDDRSS_CTL_248DDR Controller Register 2480299 03E0h
3E4hDDRSS_CTL_249DDR Controller Register 2490299 03E4h
3E8hDDRSS_CTL_250DDR Controller Register 2500299 03E8h
3EChDDRSS_CTL_251DDR Controller Register 2510299 03ECh
3F0hDDRSS_CTL_252DDR Controller Register 2520299 03F0h
3F4hDDRSS_CTL_253DDR Controller Register 2530299 03F4h
3F8hDDRSS_CTL_254DDR Controller Register 2540299 03F8h
3FChDDRSS_CTL_255DDR Controller Register 2550299 03FCh
400hDDRSS_CTL_256DDR Controller Register 2560299 0400h
404hDDRSS_CTL_257DDR Controller Register 2570299 0404h
408hDDRSS_CTL_258DDR Controller Register 2580299 0408h
40ChDDRSS_CTL_259DDR Controller Register 2590299 040Ch
410hDDRSS_CTL_260DDR Controller Register 2600299 0410h
414hDDRSS_CTL_261DDR Controller Register 2610299 0414h
418hDDRSS_CTL_262DDR Controller Register 2620299 0418h
41ChDDRSS_CTL_263DDR Controller Register 2630299 041Ch
420hDDRSS_CTL_264DDR Controller Register 2640299 0420h
424hDDRSS_CTL_265DDR Controller Register 2650299 0424h
428hDDRSS_CTL_266DDR Controller Register 2660299 0428h
42ChDDRSS_CTL_267DDR Controller Register 2670299 042Ch
430hDDRSS_CTL_268DDR Controller Register 2680299 0430h
434hDDRSS_CTL_269DDR Controller Register 2690299 0434h
438hDDRSS_CTL_270DDR Controller Register 2700299 0438h
43ChDDRSS_CTL_271DDR Controller Register 2710299 043Ch
440hDDRSS_CTL_272DDR Controller Register 2720299 0440h
444hDDRSS_CTL_273DDR Controller Register 2730299 0444h
448hDDRSS_CTL_274DDR Controller Register 2740299 0448h
44ChDDRSS_CTL_275DDR Controller Register 2750299 044Ch
450hDDRSS_CTL_276DDR Controller Register 2760299 0450h
454hDDRSS_CTL_277DDR Controller Register 2770299 0454h
458hDDRSS_CTL_278DDR Controller Register 2780299 0458h
45ChDDRSS_CTL_279DDR Controller Register 2790299 045Ch
460hDDRSS_CTL_280DDR Controller Register 2800299 0460h
464hDDRSS_CTL_281DDR Controller Register 2810299 0464h
468hDDRSS_CTL_282DDR Controller Register 2820299 0468h
46ChDDRSS_CTL_283DDR Controller Register 2830299 046Ch
470hDDRSS_CTL_284DDR Controller Register 2840299 0470h
474hDDRSS_CTL_285DDR Controller Register 2850299 0474h
478hDDRSS_CTL_286DDR Controller Register 2860299 0478h
47ChDDRSS_CTL_287DDR Controller Register 2870299 047Ch
480hDDRSS_CTL_288DDR Controller Register 2880299 0480h
484hDDRSS_CTL_289DDR Controller Register 2890299 0484h
488hDDRSS_CTL_290DDR Controller Register 2900299 0488h
48ChDDRSS_CTL_291DDR Controller Register 2910299 048Ch
490hDDRSS_CTL_292DDR Controller Register 2920299 0490h
494hDDRSS_CTL_293DDR Controller Register 2930299 0494h
498hDDRSS_CTL_294DDR Controller Register 2940299 0498h
49ChDDRSS_CTL_295DDR Controller Register 2950299 049Ch
4A0hDDRSS_CTL_296DDR Controller Register 2960299 04A0h
4A4hDDRSS_CTL_297DDR Controller Register 2970299 04A4h
4A8hDDRSS_CTL_298DDR Controller Register 2980299 04A8h
4AChDDRSS_CTL_299DDR Controller Register 2990299 04ACh
4B0hDDRSS_CTL_300DDR Controller Register 3000299 04B0h
4B4hDDRSS_CTL_301DDR Controller Register 3010299 04B4h
4B8hDDRSS_CTL_302DDR Controller Register 3020299 04B8h
4BChDDRSS_CTL_303DDR Controller Register 3030299 04BCh
4C0hDDRSS_CTL_304DDR Controller Register 3040299 04C0h
4C4hDDRSS_CTL_305DDR Controller Register 3050299 04C4h
4C8hDDRSS_CTL_306DDR Controller Register 3060299 04C8h
4CChDDRSS_CTL_307DDR Controller Register 3070299 04CCh
4D0hDDRSS_CTL_308DDR Controller Register 3080299 04D0h
4D4hDDRSS_CTL_309DDR Controller Register 3090299 04D4h
4D8hDDRSS_CTL_310DDR Controller Register 3100299 04D8h
4DChDDRSS_CTL_311DDR Controller Register 3110299 04DCh
4E0hDDRSS_CTL_312DDR Controller Register 3120299 04E0h
4E4hDDRSS_CTL_313DDR Controller Register 3130299 04E4h
4E8hDDRSS_CTL_314DDR Controller Register 3140299 04E8h
4EChDDRSS_CTL_315DDR Controller Register 3150299 04ECh
4F0hDDRSS_CTL_316DDR Controller Register 3160299 04F0h
4F4hDDRSS_CTL_317DDR Controller Register 3170299 04F4h
4F8hDDRSS_CTL_318DDR Controller Register 3180299 04F8h
4FChDDRSS_CTL_319DDR Controller Register 3190299 04FCh
500hDDRSS_CTL_320DDR Controller Register 3200299 0500h
504hDDRSS_CTL_321DDR Controller Register 3210299 0504h
508hDDRSS_CTL_322DDR Controller Register 3220299 0508h
50ChDDRSS_CTL_323DDR Controller Register 3230299 050Ch
510hDDRSS_CTL_324DDR Controller Register 3240299 0510h
514hDDRSS_CTL_325DDR Controller Register 3250299 0514h
518hDDRSS_CTL_326DDR Controller Register 3260299 0518h
51ChDDRSS_CTL_327DDR Controller Register 3270299 051Ch
520hDDRSS_CTL_328DDR Controller Register 3280299 0520h
524hDDRSS_CTL_329DDR Controller Register 3290299 0524h
528hDDRSS_CTL_330DDR Controller Register 3300299 0528h
52ChDDRSS_CTL_331DDR Controller Register 3310299 052Ch
530hDDRSS_CTL_332DDR Controller Register 3320299 0530h
534hDDRSS_CTL_333DDR Controller Register 3330299 0534h
538hDDRSS_CTL_334DDR Controller Register 3340299 0538h
53ChDDRSS_CTL_335DDR Controller Register 3350299 053Ch
540hDDRSS_CTL_336DDR Controller Register 3360299 0540h
544hDDRSS_CTL_337DDR Controller Register 3370299 0544h
548hDDRSS_CTL_338DDR Controller Register 3380299 0548h
54ChDDRSS_CTL_339DDR Controller Register 3390299 054Ch
550hDDRSS_CTL_340DDR Controller Register 3400299 0550h
554hDDRSS_CTL_341DDR Controller Register 3410299 0554h
558hDDRSS_CTL_342DDR Controller Register 3420299 0558h
55ChDDRSS_CTL_343DDR Controller Register 3430299 055Ch
560hDDRSS_CTL_344DDR Controller Register 3440299 0560h
564hDDRSS_CTL_345DDR Controller Register 3450299 0564h
568hDDRSS_CTL_346DDR Controller Register 3460299 0568h
56ChDDRSS_CTL_347DDR Controller Register 3470299 056Ch
570hDDRSS_CTL_348DDR Controller Register 3480299 0570h
574hDDRSS_CTL_349DDR Controller Register 3490299 0574h
578hDDRSS_CTL_350DDR Controller Register 3500299 0578h
57ChDDRSS_CTL_351DDR Controller Register 3510299 057Ch
580hDDRSS_CTL_352DDR Controller Register 3520299 0580h
584hDDRSS_CTL_353DDR Controller Register 3530299 0584h
588hDDRSS_CTL_354DDR Controller Register 3540299 0588h
58ChDDRSS_CTL_355DDR Controller Register 3550299 058Ch
590hDDRSS_CTL_356DDR Controller Register 3560299 0590h
594hDDRSS_CTL_357DDR Controller Register 3570299 0594h
598hDDRSS_CTL_358DDR Controller Register 3580299 0598h
59ChDDRSS_CTL_359DDR Controller Register 3590299 059Ch
5A0hDDRSS_CTL_360DDR Controller Register 3600299 05A0h
5A4hDDRSS_CTL_361DDR Controller Register 3610299 05A4h
5A8hDDRSS_CTL_362DDR Controller Register 3620299 05A8h
5AChDDRSS_CTL_363DDR Controller Register 3630299 05ACh
5B0hDDRSS_CTL_364DDR Controller Register 3640299 05B0h
5B4hDDRSS_CTL_365DDR Controller Register 3650299 05B4h
5B8hDDRSS_CTL_366DDR Controller Register 3660299 05B8h
5BChDDRSS_CTL_367DDR Controller Register 3670299 05BCh
5C0hDDRSS_CTL_368DDR Controller Register 3680299 05C0h
5C4hDDRSS_CTL_369DDR Controller Register 3690299 05C4h
5C8hDDRSS_CTL_370DDR Controller Register 3700299 05C8h
5CChDDRSS_CTL_371DDR Controller Register 3710299 05CCh
5D0hDDRSS_CTL_372DDR Controller Register 3720299 05D0h
5D4hDDRSS_CTL_373DDR Controller Register 3730299 05D4h
5D8hDDRSS_CTL_374DDR Controller Register 3740299 05D8h
5DChDDRSS_CTL_375DDR Controller Register 3750299 05DCh
5E0hDDRSS_CTL_376DDR Controller Register 3760299 05E0h
5E4hDDRSS_CTL_377DDR Controller Register 3770299 05E4h
5E8hDDRSS_CTL_378DDR Controller Register 3780299 05E8h
5EChDDRSS_CTL_379DDR Controller Register 3790299 05ECh
5F0hDDRSS_CTL_380DDR Controller Register 3800299 05F0h
5F4hDDRSS_CTL_381DDR Controller Register 3810299 05F4h
5F8hDDRSS_CTL_382DDR Controller Register 3820299 05F8h
5FChDDRSS_CTL_383DDR Controller Register 3830299 05FCh
600hDDRSS_CTL_384DDR Controller Register 3840299 0600h
604hDDRSS_CTL_385DDR Controller Register 3850299 0604h
608hDDRSS_CTL_386DDR Controller Register 3860299 0608h
60ChDDRSS_CTL_387DDR Controller Register 3870299 060Ch
610hDDRSS_CTL_388DDR Controller Register 3880299 0610h
614hDDRSS_CTL_389DDR Controller Register 3890299 0614h
618hDDRSS_CTL_390DDR Controller Register 3900299 0618h
61ChDDRSS_CTL_391DDR Controller Register 3910299 061Ch
620hDDRSS_CTL_392DDR Controller Register 3920299 0620h
624hDDRSS_CTL_393DDR Controller Register 3930299 0624h
628hDDRSS_CTL_394DDR Controller Register 3940299 0628h
62ChDDRSS_CTL_395DDR Controller Register 3950299 062Ch
630hDDRSS_CTL_396DDR Controller Register 3960299 0630h
634hDDRSS_CTL_397DDR Controller Register 3970299 0634h
638hDDRSS_CTL_398DDR Controller Register 3980299 0638h
63ChDDRSS_CTL_399DDR Controller Register 3990299 063Ch
640hDDRSS_CTL_400DDR Controller Register 4000299 0640h
644hDDRSS_CTL_401DDR Controller Register 4010299 0644h
648hDDRSS_CTL_402DDR Controller Register 4020299 0648h
64ChDDRSS_CTL_403DDR Controller Register 4030299 064Ch
650hDDRSS_CTL_404DDR Controller Register 4040299 0650h
654hDDRSS_CTL_405DDR Controller Register 4050299 0654h
658hDDRSS_CTL_406DDR Controller Register 4060299 0658h
65ChDDRSS_CTL_407DDR Controller Register 4070299 065Ch
660hDDRSS_CTL_408DDR Controller Register 4080299 0660h
664hDDRSS_CTL_409DDR Controller Register 4090299 0664h
668hDDRSS_CTL_410DDR Controller Register 4100299 0668h
66ChDDRSS_CTL_411DDR Controller Register 4110299 066Ch
670hDDRSS_CTL_412DDR Controller Register 4120299 0670h
674hDDRSS_CTL_413DDR Controller Register 4130299 0674h
678hDDRSS_CTL_414DDR Controller Register 4140299 0678h
67ChDDRSS_CTL_415DDR Controller Register 4150299 067Ch
680hDDRSS_CTL_416DDR Controller Register 4160299 0680h
684hDDRSS_CTL_417DDR Controller Register 4170299 0684h
688hDDRSS_CTL_418DDR Controller Register 4180299 0688h
68ChDDRSS_CTL_419DDR Controller Register 4190299 068Ch
690hDDRSS_CTL_420DDR Controller Register 4200299 0690h
694hDDRSS_CTL_421DDR Controller Register 4210299 0694h
698hDDRSS_CTL_422DDR Controller Register 4220299 0698h
69ChDDRSS_CTL_423DDR Controller Register 4230299 069Ch
6A0hDDRSS_CTL_424DDR Controller Register 4240299 06A0h
6A4hDDRSS_CTL_425DDR Controller Register 4250299 06A4h
6A8hDDRSS_CTL_426DDR Controller Register 4260299 06A8h
6AChDDRSS_CTL_427DDR Controller Register 4270299 06ACh
6B0hDDRSS_CTL_428DDR Controller Register 4280299 06B0h
6B4hDDRSS_CTL_429DDR Controller Register 4290299 06B4h
6B8hDDRSS_CTL_430DDR Controller Register 4300299 06B8h
6D4hDDRSS_CTL_437DDR Controller Register 4370299 06D4h
6D8hDDRSS_CTL_438DDR Controller Register 4380299 06D8h
6DChDDRSS_CTL_439DDR Controller Register 4390299 06DCh
6E0hDDRSS_CTL_440DDR Controller Register 4400299 06E0h
6E4hDDRSS_CTL_441DDR Controller Register 4410299 06E4h
6E8hDDRSS_CTL_442DDR Controller Register 4420299 06E8h
6EChDDRSS_CTL_443DDR Controller Register 4430299 06ECh
6F0hDDRSS_CTL_444DDR Controller Register 4440299 06F0h
6FChDDRSS_CTL_447DDR Controller Register 4470299 06FCh
700hDDRSS_CTL_448DDR Controller Register 4480299 0700h
704hDDRSS_CTL_449DDR Controller Register 4490299 0704h
708hDDRSS_CTL_450DDR Controller Register 4500299 0708h
71ChDDRSS_CTL_455DDR Controller Register 4550299 071Ch
720hDDRSS_CTL_456DDR Controller Register 4560299 0720h
724hDDRSS_CTL_457DDR Controller Register 4570299 0724h
728hDDRSS_CTL_458DDR Controller Register 4580299 0728h

2.5.2.1 DDRSS_CTL_0 Register (Offset = 0h) [reset = X]

DDRSS_CTL_0 is shown in Figure 8-93 and described in Table 8-194.

Return to Summary Table.

Table 8-193 DDRSS_CTL_0 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0000h
Figure 8-93 DDRSS_CTL_0 Register
3130292827262524
CONTROLLER_ID
R-1046h
2322212019181716
CONTROLLER_ID
R-1046h
15141312111098
RESERVEDDRAM_CLASS
R/W-XR/W-0h
76543210
RESERVEDSTART
R/W-XR/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-194 DDRSS_CTL_0 Register Field Descriptions
BitFieldTypeResetDescription
31-16CONTROLLER_IDR1046h

Holds the controller product id number.
READ-ONLY

15-12RESERVEDR/WX
11-8DRAM_CLASSR/W0h

Defines the class of DRAM memory which is connected to the controller.

7h - LPDDR3

Bh - LPDDR4

All other values reserved

7-1RESERVEDR/WX
0STARTR/W0h

Initiate command processing in the controller.
Set to 1 to initiate.

2.5.2.2 DDRSS_CTL_1 Register (Offset = 4h) [reset = 67433A40h]

DDRSS_CTL_1 is shown in Figure 8-94 and described in Table 8-196.

Return to Summary Table.

Table 8-195 DDRSS_CTL_1 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0004h
Figure 8-94 DDRSS_CTL_1 Register
313029282726252423222120191817161514131211109876543210
CONTROLLER_VERSION_0
R-67433A40h
LEGEND: R = Read Only; -n = value after reset
Table 8-196 DDRSS_CTL_1 Register Field Descriptions
BitFieldTypeResetDescription
31-0CONTROLLER_VERSION_0R67433A40h

Holds the controller version id.
READ-ONLY

2.5.2.3 DDRSS_CTL_2 Register (Offset = 8h) [reset = 22117A20h]

DDRSS_CTL_2 is shown in Figure 8-95 and described in Table 8-198.

Return to Summary Table.

Table 8-197 DDRSS_CTL_2 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0008h
Figure 8-95 DDRSS_CTL_2 Register
313029282726252423222120191817161514131211109876543210
CONTROLLER_VERSION_1
R-22117A20h
LEGEND: R = Read Only; -n = value after reset
Table 8-198 DDRSS_CTL_2 Register Field Descriptions
BitFieldTypeResetDescription
31-0CONTROLLER_VERSION_1R22117A20h

Holds the controller version id.
READ-ONLY

2.5.2.4 DDRSS_CTL_3 Register (Offset = Ch) [reset = X]

DDRSS_CTL_3 is shown in Figure 8-96 and described in Table 8-200.

Return to Summary Table.

Table 8-199 DDRSS_CTL_3 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 000Ch
Figure 8-96 DDRSS_CTL_3 Register
3130292827262524
READ_DATA_FIFO_DEPTH
R-40h
2322212019181716
RESERVEDMAX_CS_REG
R-XR-2h
15141312111098
RESERVEDMAX_COL_REG
R-XR-Ch
76543210
RESERVEDMAX_ROW_REG
R-XR-11h
LEGEND: R = Read Only; -n = value after reset
Table 8-200 DDRSS_CTL_3 Register Field Descriptions
BitFieldTypeResetDescription
31-24READ_DATA_FIFO_DEPTHR40h

Reports the depth of the controller core read data queue.
READ-ONLY

23-18RESERVEDRX
17-16MAX_CS_REGR2h

Holds the maximum number of chip selects available.
READ-ONLY

15-12RESERVEDRX
11-8MAX_COL_REGRCh

Holds the maximum width of column address in DRAMs.
READ-ONLY

7-5RESERVEDRX
4-0MAX_ROW_REGR11h

Holds the maximum width of memory address bus.
READ-ONLY

2.5.2.5 DDRSS_CTL_4 Register (Offset = 10h) [reset = X]

DDRSS_CTL_4 is shown in Figure 8-97 and described in Table 8-202.

Return to Summary Table.

Table 8-201 DDRSS_CTL_4 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0010h
Figure 8-97 DDRSS_CTL_4 Register
3130292827262524
RESERVED
R-X
2322212019181716
WRITE_DATA_FIFO_PTR_WIDTH
R-5h
15141312111098
WRITE_DATA_FIFO_DEPTH
R-20h
76543210
READ_DATA_FIFO_PTR_WIDTH
R-6h
LEGEND: R = Read Only; -n = value after reset
Table 8-202 DDRSS_CTL_4 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDRX
23-16WRITE_DATA_FIFO_PTR_WIDTHR5h

Reports the width of the controller core write data latency queue pointer.
READ-ONLY

15-8WRITE_DATA_FIFO_DEPTHR20h

Reports the depth of the controller core write data latency queue.
READ-ONLY

7-0READ_DATA_FIFO_PTR_WIDTHR6h

Reports the width of the controller core read data queue pointer.
READ-ONLY

2.5.2.6 DDRSS_CTL_5 Register (Offset = 14h) [reset = 02050020h]

DDRSS_CTL_5 is shown in Figure 8-98 and described in Table 8-204.

Return to Summary Table.

Table 8-203 DDRSS_CTL_5 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0014h
Figure 8-98 DDRSS_CTL_5 Register
3130292827262524
ASYNC_CDC_STAGES
R-2h
2322212019181716
MEMCD_RMODW_FIFO_PTR_WIDTH
R-5h
15141312111098
MEMCD_RMODW_FIFO_DEPTH
R-20h
76543210
MEMCD_RMODW_FIFO_DEPTH
R-20h
LEGEND: R = Read Only; -n = value after reset
Table 8-204 DDRSS_CTL_5 Register Field Descriptions
BitFieldTypeResetDescription
31-24ASYNC_CDC_STAGESR2h

Reports the number of synchronizer delays specified for the asynchronous boundary crossings.
READ-ONLY

23-16MEMCD_RMODW_FIFO_PTR_WIDTHR5h

Reports the width of the controller core read/modify/write FIFO pointer.
READ-ONLY

15-0MEMCD_RMODW_FIFO_DEPTHR20h

Reports the depth of the controller core read/modify/write FIFO.
READ-ONLY

2.5.2.7 DDRSS_CTL_6 Register (Offset = 18h) [reset = 03070101h]

DDRSS_CTL_6 is shown in Figure 8-99 and described in Table 8-206.

Return to Summary Table.

Table 8-205 DDRSS_CTL_6 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0018h
Figure 8-99 DDRSS_CTL_6 Register
3130292827262524
AXI0_WRCMD_PROC_FIFO_LOG2_DEPTH
R-3h
2322212019181716
AXI0_WR_ARRAY_LOG2_DEPTH
R-7h
15141312111098
AXI0_RDFIFO_LOG2_DEPTH
R-1h
76543210
AXI0_CMDFIFO_LOG2_DEPTH
R-1h
LEGEND: R = Read Only; -n = value after reset
Table 8-206 DDRSS_CTL_6 Register Field Descriptions
BitFieldTypeResetDescription
31-24AXI0_WRCMD_PROC_FIFO_LOG2_DEPTHR3h

Reports the depth of the AXI port 0 write command processing FIFO.
Value is the log2 value of the depth.
READ-ONLY

23-16AXI0_WR_ARRAY_LOG2_DEPTHR7h

Reports the depth of the AXI port 0 write data array.
Value is the log2 value of the depth.
READ-ONLY

15-8AXI0_RDFIFO_LOG2_DEPTHR1h

Reports the depth of the AXI port 0 read data FIFO.
Value is the log2 value of the depth.
READ-ONLY

7-0AXI0_CMDFIFO_LOG2_DEPTHR1h

Reports the depth of the AXI port 0 command FIFO.
Value is the log2 value of the depth.
READ-ONLY

2.5.2.8 DDRSS_CTL_7 Register (Offset = 1Ch) [reset = X]

DDRSS_CTL_7 is shown in Figure 8-100 and described in Table 8-208.

Return to Summary Table.

Table 8-207 DDRSS_CTL_7 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 001Ch
Figure 8-100 DDRSS_CTL_7 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTINIT_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-208 DDRSS_CTL_7 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-0TINIT_F0R/W0h

DRAM TINIT value for frequency copy 0 in cycles.

2.5.2.9 DDRSS_CTL_8 Register (Offset = 20h) [reset = X]

DDRSS_CTL_8 is shown in Figure 8-101 and described in Table 8-210.

Return to Summary Table.

Table 8-209 DDRSS_CTL_8 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0020h
Figure 8-101 DDRSS_CTL_8 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTINIT3_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-210 DDRSS_CTL_8 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-0TINIT3_F0R/W0h

DRAM TINIT3 value for frequency copy 0 in cycles.

2.5.2.10 DDRSS_CTL_9 Register (Offset = 24h) [reset = X]

DDRSS_CTL_9 is shown in Figure 8-102 and described in Table 8-212.

Return to Summary Table.

Table 8-211 DDRSS_CTL_9 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0024h
Figure 8-102 DDRSS_CTL_9 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTINIT4_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-212 DDRSS_CTL_9 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-0TINIT4_F0R/W0h

DRAM TINIT4 value for frequency copy 0 in cycles.

2.5.2.11 DDRSS_CTL_10 Register (Offset = 28h) [reset = X]

DDRSS_CTL_10 is shown in Figure 8-103 and described in Table 8-214.

Return to Summary Table.

Table 8-213 DDRSS_CTL_10 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0028h
Figure 8-103 DDRSS_CTL_10 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTINIT5_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-214 DDRSS_CTL_10 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-0TINIT5_F0R/W0h

DRAM TINIT5 value for frequency copy 0 in cycles.

2.5.2.12 DDRSS_CTL_11 Register (Offset = 2Ch) [reset = X]

DDRSS_CTL_11 is shown in Figure 8-104 and described in Table 8-216.

Return to Summary Table.

Table 8-215 DDRSS_CTL_11 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 002Ch
Figure 8-104 DDRSS_CTL_11 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTINIT_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-216 DDRSS_CTL_11 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-0TINIT_F1R/W0h

DRAM TINIT value for frequency copy 1 in cycles.

2.5.2.13 DDRSS_CTL_12 Register (Offset = 30h) [reset = X]

DDRSS_CTL_12 is shown in Figure 8-105 and described in Table 8-218.

Return to Summary Table.

Table 8-217 DDRSS_CTL_12 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0030h
Figure 8-105 DDRSS_CTL_12 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTINIT3_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-218 DDRSS_CTL_12 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-0TINIT3_F1R/W0h

DRAM TINIT3 value for frequency copy 1 in cycles.

2.5.2.14 DDRSS_CTL_13 Register (Offset = 34h) [reset = X]

DDRSS_CTL_13 is shown in Figure 8-106 and described in Table 8-220.

Return to Summary Table.

Table 8-219 DDRSS_CTL_13 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0034h
Figure 8-106 DDRSS_CTL_13 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTINIT4_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-220 DDRSS_CTL_13 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-0TINIT4_F1R/W0h

DRAM TINIT4 value for frequency copy 1 in cycles.

2.5.2.15 DDRSS_CTL_14 Register (Offset = 38h) [reset = X]

DDRSS_CTL_14 is shown in Figure 8-107 and described in Table 8-222.

Return to Summary Table.

Table 8-221 DDRSS_CTL_14 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0038h
Figure 8-107 DDRSS_CTL_14 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTINIT5_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-222 DDRSS_CTL_14 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-0TINIT5_F1R/W0h

DRAM TINIT5 value for frequency copy 1 in cycles.

2.5.2.16 DDRSS_CTL_15 Register (Offset = 3Ch) [reset = X]

DDRSS_CTL_15 is shown in Figure 8-108 and described in Table 8-224.

Return to Summary Table.

Table 8-223 DDRSS_CTL_15 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 003Ch
Figure 8-108 DDRSS_CTL_15 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTINIT_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-224 DDRSS_CTL_15 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-0TINIT_F2R/W0h

DRAM TINIT value for frequency copy 2 in cycles.

2.5.2.17 DDRSS_CTL_16 Register (Offset = 40h) [reset = X]

DDRSS_CTL_16 is shown in Figure 8-109 and described in Table 8-226.

Return to Summary Table.

Table 8-225 DDRSS_CTL_16 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0040h
Figure 8-109 DDRSS_CTL_16 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTINIT3_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-226 DDRSS_CTL_16 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-0TINIT3_F2R/W0h

DRAM TINIT3 value for frequency copy 2 in cycles.

2.5.2.18 DDRSS_CTL_17 Register (Offset = 44h) [reset = X]

DDRSS_CTL_17 is shown in Figure 8-110 and described in Table 8-228.

Return to Summary Table.

Table 8-227 DDRSS_CTL_17 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0044h
Figure 8-110 DDRSS_CTL_17 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTINIT4_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-228 DDRSS_CTL_17 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-0TINIT4_F2R/W0h

DRAM TINIT4 value for frequency copy 2 in cycles.

2.5.2.19 DDRSS_CTL_18 Register (Offset = 48h) [reset = X]

DDRSS_CTL_18 is shown in Figure 8-111 and described in Table 8-230.

Return to Summary Table.

Table 8-229 DDRSS_CTL_18 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0048h
Figure 8-111 DDRSS_CTL_18 Register
3130292827262524
RESERVEDNO_AUTO_MRR_INIT
R/W-XR/W-0h
2322212019181716
TINIT5_F2
R/W-0h
15141312111098
TINIT5_F2
R/W-0h
76543210
TINIT5_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-230 DDRSS_CTL_18 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24NO_AUTO_MRR_INITR/W0h

Disable MRR commands during initialization.
Set to 1 to disable.

23-0TINIT5_F2R/W0h

DRAM TINIT5 value for frequency copy 2 in cycles.

2.5.2.20 DDRSS_CTL_19 Register (Offset = 4Ch) [reset = X]

DDRSS_CTL_19 is shown in Figure 8-112 and described in Table 8-232.

Return to Summary Table.

Table 8-231 DDRSS_CTL_19 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 004Ch
Figure 8-112 DDRSS_CTL_19 Register
3130292827262524
RESERVEDODT_VALUE
R/W-XR/W-0h
2322212019181716
RESERVEDNO_MRW_INIT
R/W-XR/W-0h
15141312111098
RESERVEDDFI_INV_DATA_CS
R/W-XR/W-0h
76543210
RESERVEDMRR_ERROR_STATUS
R/W-XR-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-232 DDRSS_CTL_19 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24ODT_VALUER/W0h

When using LPDDR4, this value will be driven out on the dfi_odt signal.

23-17RESERVEDR/WX
16NO_MRW_INITR/W0h

Disable MRW commands during initialization.
Set to 1 to disable.

15-9RESERVEDR/WX
8DFI_INV_DATA_CSR/W0h

Forces the inversion of the dfi_rddata_cs_n_X and dfi_wrdata_cs_n_X signals.
Set to 1 to force inversion.

7-1RESERVEDR/WX
0MRR_ERROR_STATUSR0h

Indicates that an MRR was issued while in self-refresh.
Value of 1 indicates a violation.
READ-ONLY

2.5.2.21 DDRSS_CTL_20 Register (Offset = 50h) [reset = X]

DDRSS_CTL_20 is shown in Figure 8-113 and described in Table 8-234.

Return to Summary Table.

Table 8-233 DDRSS_CTL_20 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0050h
Figure 8-113 DDRSS_CTL_20 Register
3130292827262524
RESERVEDDFIBUS_FREQ_INIT
R/W-XR/W-0h
2322212019181716
RESERVEDPHY_INDEP_INIT_MODE
R/W-XR/W-0h
15141312111098
RESERVEDTSREF2PHYMSTR
R/W-XR/W-0h
76543210
RESERVEDPHY_INDEP_TRAIN_MODE
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-234 DDRSS_CTL_20 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-24DFIBUS_FREQ_INITR/W0h

Defines the initial DFI bus frequency.

23-17RESERVEDR/WX
16PHY_INDEP_INIT_MODER/W0h

Enable PHY independent initailization mode commands during initialization.
Set to 1 to enable.

15-14RESERVEDR/WX
13-8TSREF2PHYMSTRR/W0h

Specifies the minimum time after a self-refresh exit command on the DFI bus that the Controller will wait for the PHY to assert the dfi_phymstr_req signal, before completing other commands.
Used when the low power control logic is expected to pass control to the PHY for training when exiting SREF.

7-1RESERVEDR/WX
0PHY_INDEP_TRAIN_MODER/W0h

Enable PHY independent training mode commands during initialization.
Set to 1 to enable.

2.5.2.22 DDRSS_CTL_21 Register (Offset = 54h) [reset = X]

DDRSS_CTL_21 is shown in Figure 8-114 and described in Table 8-236.

Return to Summary Table.

Table 8-235 DDRSS_CTL_21 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0054h
Figure 8-114 DDRSS_CTL_21 Register
3130292827262524
RESERVEDDFIBUS_FREQ_F2
R/W-XR/W-0h
2322212019181716
RESERVEDDFIBUS_FREQ_F1
R/W-XR/W-0h
15141312111098
RESERVEDDFIBUS_FREQ_F0
R/W-XR/W-0h
76543210
RESERVEDDFIBUS_BOOT_FREQ
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-236 DDRSS_CTL_21 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24DFIBUS_FREQ_F2R/W0h

Defines the DFI bus frequency for frequency copy 2.

23-21RESERVEDR/WX
20-16DFIBUS_FREQ_F1R/W0h

Defines the DFI bus frequency for frequency copy 1.

15-13RESERVEDR/WX
12-8DFIBUS_FREQ_F0R/W0h

Defines the DFI bus frequency for frequency copy 0.

7-2RESERVEDR/WX
1-0DFIBUS_BOOT_FREQR/W0h

Defines the DFI bus boot frequency.

2.5.2.23 DDRSS_CTL_22 Register (Offset = 58h) [reset = X]

DDRSS_CTL_22 is shown in Figure 8-115 and described in Table 8-238.

Return to Summary Table.

Table 8-237 DDRSS_CTL_22 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0058h
Figure 8-115 DDRSS_CTL_22 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVEDFREQ_CHANGE_TYPE_F2
R/W-XR/W-0h
15141312111098
RESERVEDFREQ_CHANGE_TYPE_F1
R/W-XR/W-0h
76543210
RESERVEDFREQ_CHANGE_TYPE_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-238 DDRSS_CTL_22 Register Field Descriptions
BitFieldTypeResetDescription
31-18RESERVEDR/WX
17-16FREQ_CHANGE_TYPE_F2R/W0h

Defines the encoded frequency driven out on the cntrl_freq_change_req_type signal during a frequency change operation.

15-10RESERVEDR/WX
9-8FREQ_CHANGE_TYPE_F1R/W0h

Defines the encoded frequency driven out on the cntrl_freq_change_req_type signal during a frequency change operation.

7-2RESERVEDR/WX
1-0FREQ_CHANGE_TYPE_F0R/W0h

Defines the encoded frequency driven out on the cntrl_freq_change_req_type signal during a frequency change operation.

2.5.2.24 DDRSS_CTL_23 Register (Offset = 5Ch) [reset = 0h]

DDRSS_CTL_23 is shown in Figure 8-116 and described in Table 8-240.

Return to Summary Table.

Table 8-239 DDRSS_CTL_23 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 005Ch
Figure 8-116 DDRSS_CTL_23 Register
313029282726252423222120191817161514131211109876543210
TRST_PWRON
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-240 DDRSS_CTL_23 Register Field Descriptions
BitFieldTypeResetDescription
31-0TRST_PWRONR/W0h

Duration of memory reset during power-on initialization.

2.5.2.25 DDRSS_CTL_24 Register (Offset = 60h) [reset = 0h]

DDRSS_CTL_24 is shown in Figure 8-117 and described in Table 8-242.

Return to Summary Table.

Table 8-241 DDRSS_CTL_24 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0060h
Figure 8-117 DDRSS_CTL_24 Register
313029282726252423222120191817161514131211109876543210
CKE_INACTIVE
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-242 DDRSS_CTL_24 Register Field Descriptions
BitFieldTypeResetDescription
31-0CKE_INACTIVER/W0h

Number of cycles after reset before CKE will be active.

2.5.2.26 DDRSS_CTL_26 Register (Offset = 68h) [reset = X]

DDRSS_CTL_26 is shown in Figure 8-118 and described in Table 8-244.

Return to Summary Table.

Table 8-243 DDRSS_CTL_26 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0068h
Figure 8-118 DDRSS_CTL_26 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVEDDQS_OSC_ENABLE
R/W-XR/W-0h
15141312111098
RESERVED
R/W-0h
76543210
RESERVED
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-244 DDRSS_CTL_26 Register Field Descriptions
BitFieldTypeResetDescription
31-17RESERVEDR/WX
16DQS_OSC_ENABLER/W0h

Enable DQS oscillator measurement function in DRAM.
Set to 1 to enable.

15-8RESERVEDR/W0h

Reserved

7-0RESERVEDR/W0h

Reserved

2.5.2.27 DDRSS_CTL_27 Register (Offset = 6Ch) [reset = X]

DDRSS_CTL_27 is shown in Figure 8-119 and described in Table 8-246.

Return to Summary Table.

Table 8-245 DDRSS_CTL_27 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 006Ch
Figure 8-119 DDRSS_CTL_27 Register
3130292827262524
TOSCO_F0
R/W-0h
2322212019181716
RESERVEDFUNC_VALID_CYCLES
R/W-XR/W-0h
15141312111098
RESERVEDDQS_OSC_PERIOD
R/W-XR/W-0h
76543210
DQS_OSC_PERIOD
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-246 DDRSS_CTL_27 Register Field Descriptions
BitFieldTypeResetDescription
31-24TOSCO_F0R/W0h

Number of cycles for tOSCO timing parameter for frequency copy 0.
tOSCO is the time for the DQS Oscillator measurement to be available in the mode registers.

23-20RESERVEDR/WX
19-16FUNC_VALID_CYCLESR/W0h

Number of cycles to hold dfi_function_valid asserted.

15RESERVEDR/WX
14-0DQS_OSC_PERIODR/W0h

Number of cycles to run the oscillator measurement.
Must reflect cycles programmed into mode register.

2.5.2.28 DDRSS_CTL_28 Register (Offset = 70h) [reset = 0h]

DDRSS_CTL_28 is shown in Figure 8-120 and described in Table 8-248.

Return to Summary Table.

Table 8-247 DDRSS_CTL_28 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0070h
Figure 8-120 DDRSS_CTL_28 Register
31302928272625242322212019181716
DQS_OSC_HIGH_THRESHOLDDQS_OSC_NORM_THRESHOLD
R/W-0hR/W-0h
1514131211109876543210
TOSCO_F2TOSCO_F1
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-248 DDRSS_CTL_28 Register Field Descriptions
BitFieldTypeResetDescription
31-24DQS_OSC_HIGH_THRESHOLDR/W0h

Number of long counts until the high priority request is asserted for DQS Oscillator.

23-16DQS_OSC_NORM_THRESHOLDR/W0h

Number of long counts until the normal priority request is asserted for DQS Oscillator.

15-8TOSCO_F2R/W0h

Number of cycles for tOSCO timing parameter for frequency copy 2.
tOSCO is the time for the DQS Oscillator measurement to be available in the mode registers.

7-0TOSCO_F1R/W0h

Number of cycles for tOSCO timing parameter for frequency copy 1.
tOSCO is the time for the DQS Oscillator measurement to be available in the mode registers.

2.5.2.29 DDRSS_CTL_29 Register (Offset = 74h) [reset = 0h]

DDRSS_CTL_29 is shown in Figure 8-121 and described in Table 8-250.

Return to Summary Table.

Table 8-249 DDRSS_CTL_29 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0074h
Figure 8-121 DDRSS_CTL_29 Register
3130292827262524
OSC_VARIANCE_LIMIT
R/W-0h
2322212019181716
OSC_VARIANCE_LIMIT
R/W-0h
15141312111098
DQS_OSC_PROMOTE_THRESHOLD
R/W-0h
76543210
DQS_OSC_TIMEOUT
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-250 DDRSS_CTL_29 Register Field Descriptions
BitFieldTypeResetDescription
31-16OSC_VARIANCE_LIMITR/W0h

Allowed difference between base value and DQS Oscillator measurement.

15-8DQS_OSC_PROMOTE_THRESHOLDR/W0h

Number of long counts until a software request for the DQS Oscillator is promoted to high priority.

7-0DQS_OSC_TIMEOUTR/W0h

Number of long counts until the timeout is asserted for DQS Oscillator.

2.5.2.30 DDRSS_CTL_30 Register (Offset = 78h) [reset = X]

DDRSS_CTL_30 is shown in Figure 8-122 and described in Table 8-252.

Return to Summary Table.

Table 8-251 DDRSS_CTL_30 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0078h
Figure 8-122 DDRSS_CTL_30 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
OSC_BASE_VALUE_0_CS0
R-0h
15141312111098
OSC_BASE_VALUE_0_CS0
R-0h
76543210
RESERVEDDQS_OSC_REQUEST
R/W-XW-0h
LEGEND: R = Read Only; R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-252 DDRSS_CTL_30 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-8OSC_BASE_VALUE_0_CS0R0h

Base value for device 0 on chip 0.
READ-ONLY

7-1RESERVEDR/WX
0DQS_OSC_REQUESTW0h

Software request for DQS Oscillator measurement function in DRAM.
WRITE-ONLY

2.5.2.31 DDRSS_CTL_31 Register (Offset = 7Ch) [reset = 0h]

DDRSS_CTL_31 is shown in Figure 8-123 and described in Table 8-254.

Return to Summary Table.

Table 8-253 DDRSS_CTL_31 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 007Ch
Figure 8-123 DDRSS_CTL_31 Register
31302928272625242322212019181716
OSC_BASE_VALUE_2_CS0
R-0h
1514131211109876543210
OSC_BASE_VALUE_1_CS0
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-254 DDRSS_CTL_31 Register Field Descriptions
BitFieldTypeResetDescription
31-16OSC_BASE_VALUE_2_CS0R0h

Base value for device 2 on chip 0.
READ-ONLY

15-0OSC_BASE_VALUE_1_CS0R0h

Base value for device 1 on chip 0.
READ-ONLY

2.5.2.32 DDRSS_CTL_32 Register (Offset = 80h) [reset = 0h]

DDRSS_CTL_32 is shown in Figure 8-124 and described in Table 8-256.

Return to Summary Table.

Table 8-255 DDRSS_CTL_32 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0080h
Figure 8-124 DDRSS_CTL_32 Register
31302928272625242322212019181716
OSC_BASE_VALUE_0_CS1
R-0h
1514131211109876543210
OSC_BASE_VALUE_3_CS0
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-256 DDRSS_CTL_32 Register Field Descriptions
BitFieldTypeResetDescription
31-16OSC_BASE_VALUE_0_CS1R0h

Base value for device 0 on chip 1.
READ-ONLY

15-0OSC_BASE_VALUE_3_CS0R0h

Base value for device 3 on chip 0.
READ-ONLY

2.5.2.33 DDRSS_CTL_33 Register (Offset = 84h) [reset = 0h]

DDRSS_CTL_33 is shown in Figure 8-125 and described in Table 8-258.

Return to Summary Table.

Table 8-257 DDRSS_CTL_33 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0084h
Figure 8-125 DDRSS_CTL_33 Register
31302928272625242322212019181716
OSC_BASE_VALUE_2_CS1
R-0h
1514131211109876543210
OSC_BASE_VALUE_1_CS1
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-258 DDRSS_CTL_33 Register Field Descriptions
BitFieldTypeResetDescription
31-16OSC_BASE_VALUE_2_CS1R0h

Base value for device 2 on chip 1.
READ-ONLY

15-0OSC_BASE_VALUE_1_CS1R0h

Base value for device 1 on chip 1.
READ-ONLY

2.5.2.34 DDRSS_CTL_34 Register (Offset = 88h) [reset = X]

DDRSS_CTL_34 is shown in Figure 8-126 and described in Table 8-260.

Return to Summary Table.

Table 8-259 DDRSS_CTL_34 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0088h
Figure 8-126 DDRSS_CTL_34 Register
3130292827262524
RESERVEDWRLAT_F0
R/W-XR/W-0h
2322212019181716
RESERVEDCASLAT_LIN_F0
R/W-XR/W-0h
15141312111098
OSC_BASE_VALUE_3_CS1
R-0h
76543210
OSC_BASE_VALUE_3_CS1
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-260 DDRSS_CTL_34 Register Field Descriptions
BitFieldTypeResetDescription
31RESERVEDR/WX
30-24WRLAT_F0R/W0h

DRAM WRLAT value for frequency copy 0 in cycles.

23RESERVEDR/WX
22-16CASLAT_LIN_F0R/W0h

Sets latency from read command send to data receive from/to controller for frequency copy 0.
Bit (0) is half-cycle increment and the upper bits define memory CAS latency for the controller.

15-0OSC_BASE_VALUE_3_CS1R0h

Base value for device 3 on chip 1.
READ-ONLY

2.5.2.35 DDRSS_CTL_35 Register (Offset = 8Ch) [reset = X]

DDRSS_CTL_35 is shown in Figure 8-127 and described in Table 8-262.

Return to Summary Table.

Table 8-261 DDRSS_CTL_35 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 008Ch
Figure 8-127 DDRSS_CTL_35 Register
3130292827262524
RESERVEDWRLAT_F2
R/W-XR/W-0h
2322212019181716
RESERVEDCASLAT_LIN_F2
R/W-XR/W-0h
15141312111098
RESERVEDWRLAT_F1
R/W-XR/W-0h
76543210
RESERVEDCASLAT_LIN_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-262 DDRSS_CTL_35 Register Field Descriptions
BitFieldTypeResetDescription
31RESERVEDR/WX
30-24WRLAT_F2R/W0h

DRAM WRLAT value for frequency copy 2 in cycles.

23RESERVEDR/WX
22-16CASLAT_LIN_F2R/W0h

Sets latency from read command send to data receive from/to controller for frequency copy 2.
Bit (0) is half-cycle increment and the upper bits define memory CAS latency for the controller.

15RESERVEDR/WX
14-8WRLAT_F1R/W0h

DRAM WRLAT value for frequency copy 1 in cycles.

7RESERVEDR/WX
6-0CASLAT_LIN_F1R/W0h

Sets latency from read command send to data receive from/to controller for frequency copy 1.
Bit (0) is half-cycle increment and the upper bits define memory CAS latency for the controller.

2.5.2.36 DDRSS_CTL_36 Register (Offset = 90h) [reset = X]

DDRSS_CTL_36 is shown in Figure 8-128 and described in Table 8-264.

Return to Summary Table.

Table 8-263 DDRSS_CTL_36 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0090h
Figure 8-128 DDRSS_CTL_36 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
TRRD_F0
R/W-0h
15141312111098
RESERVEDTCCD
R/W-XR/W-0h
76543210
RESERVEDTBST_INT_INTERVAL
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-264 DDRSS_CTL_36 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-16TRRD_F0R/W0h

DRAM TRRD value for frequency copy 0 in cycles.

15-13RESERVEDR/WX
12-8TCCDR/W0h

DRAM CAS-to-CAS value in cycles.

7-3RESERVEDR/WX
2-0TBST_INT_INTERVALR/W0h

DRAM burst interrupt interval value in cycles.

2.5.2.37 DDRSS_CTL_37 Register (Offset = 94h) [reset = X]

DDRSS_CTL_37 is shown in Figure 8-129 and described in Table 8-266.

Return to Summary Table.

Table 8-265 DDRSS_CTL_37 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0094h
Figure 8-129 DDRSS_CTL_37 Register
31302928272625242322212019181716
RESERVEDTWTR_F0TRAS_MIN_F0
R/W-XR/W-0hR/W-0h
1514131211109876543210
RESERVEDTRC_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-266 DDRSS_CTL_37 Register Field Descriptions
BitFieldTypeResetDescription
31-30RESERVEDR/WX
29-24TWTR_F0R/W0h

DRAM TWTR value for frequency copy 0 in cycles.

23-16TRAS_MIN_F0R/W0h

DRAM TRAS_MIN value for frequency copy 0 in cycles.

15-9RESERVEDR/WX
8-0TRC_F0R/W0h

DRAM TRC value for frequency copy 0 in cycles.

2.5.2.38 DDRSS_CTL_38 Register (Offset = 98h) [reset = X]

DDRSS_CTL_38 is shown in Figure 8-130 and described in Table 8-268.

Return to Summary Table.

Table 8-267 DDRSS_CTL_38 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0098h
Figure 8-130 DDRSS_CTL_38 Register
31302928272625242322212019181716
TRRD_F1RESERVEDTFAW_F0
R/W-0hR/W-XR/W-0h
1514131211109876543210
TFAW_F0TRP_F0
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-268 DDRSS_CTL_38 Register Field Descriptions
BitFieldTypeResetDescription
31-24TRRD_F1R/W0h

DRAM TRRD value for frequency copy 1 in cycles.

23-17RESERVEDR/WX
16-8TFAW_F0R/W0h

DRAM TFAW value for frequency copy 0 in cycles.

7-0TRP_F0R/W0h

DRAM TRP value for frequency copy 0 in cycles.

2.5.2.39 DDRSS_CTL_39 Register (Offset = 9Ch) [reset = X]

DDRSS_CTL_39 is shown in Figure 8-131 and described in Table 8-270.

Return to Summary Table.

Table 8-269 DDRSS_CTL_39 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 009Ch
Figure 8-131 DDRSS_CTL_39 Register
31302928272625242322212019181716
RESERVEDTWTR_F1TRAS_MIN_F1
R/W-XR/W-0hR/W-0h
1514131211109876543210
RESERVEDTRC_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-270 DDRSS_CTL_39 Register Field Descriptions
BitFieldTypeResetDescription
31-30RESERVEDR/WX
29-24TWTR_F1R/W0h

DRAM TWTR value for frequency copy 1 in cycles.

23-16TRAS_MIN_F1R/W0h

DRAM TRAS_MIN value for frequency copy 1 in cycles.

15-9RESERVEDR/WX
8-0TRC_F1R/W0h

DRAM TRC value for frequency copy 1 in cycles.

2.5.2.40 DDRSS_CTL_40 Register (Offset = A0h) [reset = X]

DDRSS_CTL_40 is shown in Figure 8-132 and described in Table 8-272.

Return to Summary Table.

Table 8-271 DDRSS_CTL_40 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00A0h
Figure 8-132 DDRSS_CTL_40 Register
31302928272625242322212019181716
TRRD_F2RESERVEDTFAW_F1
R/W-0hR/W-XR/W-0h
1514131211109876543210
TFAW_F1TRP_F1
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-272 DDRSS_CTL_40 Register Field Descriptions
BitFieldTypeResetDescription
31-24TRRD_F2R/W0h

DRAM TRRD value for frequency copy 2 in cycles.

23-17RESERVEDR/WX
16-8TFAW_F1R/W0h

DRAM TFAW value for frequency copy 1 in cycles.

7-0TRP_F1R/W0h

DRAM TRP value for frequency copy 1 in cycles.

2.5.2.41 DDRSS_CTL_41 Register (Offset = A4h) [reset = X]

DDRSS_CTL_41 is shown in Figure 8-133 and described in Table 8-274.

Return to Summary Table.

Table 8-273 DDRSS_CTL_41 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00A4h
Figure 8-133 DDRSS_CTL_41 Register
31302928272625242322212019181716
RESERVEDTWTR_F2TRAS_MIN_F2
R/W-XR/W-0hR/W-0h
1514131211109876543210
RESERVEDTRC_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-274 DDRSS_CTL_41 Register Field Descriptions
BitFieldTypeResetDescription
31-30RESERVEDR/WX
29-24TWTR_F2R/W0h

DRAM TWTR value for frequency copy 2 in cycles.

23-16TRAS_MIN_F2R/W0h

DRAM TRAS_MIN value for frequency copy 2 in cycles.

15-9RESERVEDR/WX
8-0TRC_F2R/W0h

DRAM TRC value for frequency copy 2 in cycles.

2.5.2.42 DDRSS_CTL_42 Register (Offset = A8h) [reset = X]

DDRSS_CTL_42 is shown in Figure 8-134 and described in Table 8-276.

Return to Summary Table.

Table 8-275 DDRSS_CTL_42 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00A8h
Figure 8-134 DDRSS_CTL_42 Register
31302928272625242322212019181716
RESERVEDTCCDMWRESERVEDTFAW_F2
R/W-XR/W-20hR/W-XR/W-0h
1514131211109876543210
TFAW_F2TRP_F2
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-276 DDRSS_CTL_42 Register Field Descriptions
BitFieldTypeResetDescription
31-30RESERVEDR/WX
29-24TCCDMWR/W20h

DRAM CAS-to-CAS masked write value in cycles.

23-17RESERVEDR/WX
16-8TFAW_F2R/W0h

DRAM TFAW value for frequency copy 2 in cycles.

7-0TRP_F2R/W0h

DRAM TRP value for frequency copy 2 in cycles.

2.5.2.43 DDRSS_CTL_43 Register (Offset = ACh) [reset = X]

DDRSS_CTL_43 is shown in Figure 8-135 and described in Table 8-278.

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Table 8-277 DDRSS_CTL_43 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00ACh
Figure 8-135 DDRSS_CTL_43 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTMOD_F0TMRD_F0TRTP_F0
R/W-XR/W-0hR/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-278 DDRSS_CTL_43 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-16TMOD_F0R/W0h

DRAM TMOD value for frequency copy 0 in cycles.

15-8TMRD_F0R/W0h

DRAM TMRD value for frequency copy 0 in cycles.

7-0TRTP_F0R/W0h

DRAM TRTP value for frequency copy 0 in cycles.

2.5.2.44 DDRSS_CTL_44 Register (Offset = B0h) [reset = X]

DDRSS_CTL_44 is shown in Figure 8-136 and described in Table 8-280.

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Table 8-279 DDRSS_CTL_44 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00B0h
Figure 8-136 DDRSS_CTL_44 Register
31302928272625242322212019181716
RESERVEDTCKE_F0RESERVEDTRAS_MAX_F0
R/W-XR/W-0hR/W-XR/W-0h
1514131211109876543210
TRAS_MAX_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-280 DDRSS_CTL_44 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24TCKE_F0R/W0h

Minimum CKE pulse width for frequency copy 0.

23-17RESERVEDR/WX
16-0TRAS_MAX_F0R/W0h

DRAM TRAS_MAX value for frequency copy 0 in cycles.

2.5.2.45 DDRSS_CTL_45 Register (Offset = B4h) [reset = 0h]

DDRSS_CTL_45 is shown in Figure 8-137 and described in Table 8-282.

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Table 8-281 DDRSS_CTL_45 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00B4h
Figure 8-137 DDRSS_CTL_45 Register
31302928272625242322212019181716
TMOD_F1TMRD_F1
R/W-0hR/W-0h
1514131211109876543210
TRTP_F1TCKESR_F0
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-282 DDRSS_CTL_45 Register Field Descriptions
BitFieldTypeResetDescription
31-24TMOD_F1R/W0h

DRAM TMOD value for frequency copy 1 in cycles.

23-16TMRD_F1R/W0h

DRAM TMRD value for frequency copy 1 in cycles.

15-8TRTP_F1R/W0h

DRAM TRTP value for frequency copy 1 in cycles.

7-0TCKESR_F0R/W0h

Minimum CKE low pulse width during a self-refresh for frequency copy 0.

2.5.2.46 DDRSS_CTL_46 Register (Offset = B8h) [reset = X]

DDRSS_CTL_46 is shown in Figure 8-138 and described in Table 8-284.

Return to Summary Table.

Table 8-283 DDRSS_CTL_46 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00B8h
Figure 8-138 DDRSS_CTL_46 Register
31302928272625242322212019181716
RESERVEDTCKE_F1RESERVEDTRAS_MAX_F1
R/W-XR/W-0hR/W-XR/W-0h
1514131211109876543210
TRAS_MAX_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-284 DDRSS_CTL_46 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24TCKE_F1R/W0h

Minimum CKE pulse width for frequency copy 1.

23-17RESERVEDR/WX
16-0TRAS_MAX_F1R/W0h

DRAM TRAS_MAX value for frequency copy 1 in cycles.

2.5.2.47 DDRSS_CTL_47 Register (Offset = BCh) [reset = 0h]

DDRSS_CTL_47 is shown in Figure 8-139 and described in Table 8-286.

Return to Summary Table.

Table 8-285 DDRSS_CTL_47 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00BCh
Figure 8-139 DDRSS_CTL_47 Register
31302928272625242322212019181716
TMOD_F2TMRD_F2
R/W-0hR/W-0h
1514131211109876543210
TRTP_F2TCKESR_F1
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-286 DDRSS_CTL_47 Register Field Descriptions
BitFieldTypeResetDescription
31-24TMOD_F2R/W0h

DRAM TMOD value for frequency copy 2 in cycles.

23-16TMRD_F2R/W0h

DRAM TMRD value for frequency copy 2 in cycles.

15-8TRTP_F2R/W0h

DRAM TRTP value for frequency copy 2 in cycles.

7-0TCKESR_F1R/W0h

Minimum CKE low pulse width during a self-refresh for frequency copy 1.

2.5.2.48 DDRSS_CTL_48 Register (Offset = C0h) [reset = X]

DDRSS_CTL_48 is shown in Figure 8-140 and described in Table 8-288.

Return to Summary Table.

Table 8-287 DDRSS_CTL_48 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00C0h
Figure 8-140 DDRSS_CTL_48 Register
31302928272625242322212019181716
RESERVEDTCKE_F2RESERVEDTRAS_MAX_F2
R/W-XR/W-0hR/W-XR/W-0h
1514131211109876543210
TRAS_MAX_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-288 DDRSS_CTL_48 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24TCKE_F2R/W0h

Minimum CKE pulse width for frequency copy 2.

23-17RESERVEDR/WX
16-0TRAS_MAX_F2R/W0h

DRAM TRAS_MAX value for frequency copy 2 in cycles.

2.5.2.49 DDRSS_CTL_49 Register (Offset = C4h) [reset = X]

DDRSS_CTL_49 is shown in Figure 8-141 and described in Table 8-290.

Return to Summary Table.

Table 8-289 DDRSS_CTL_49 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00C4h
Figure 8-141 DDRSS_CTL_49 Register
31302928272625242322212019181716
RESERVEDRESERVEDRESERVEDRESERVED
R/W-XR/W-0hR/W-XR/W-0h
1514131211109876543210
RESERVEDTPPDTCKESR_F2
R/W-XR/W-4hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-290 DDRSS_CTL_49 Register Field Descriptions
BitFieldTypeResetDescription
31-27RESERVEDR/WX
26-24RESERVEDR/W0h

Reserved

23-19RESERVEDR/WX
18-16RESERVEDR/W0h

Reserved

15-11RESERVEDR/WX
10-8TPPDR/W4h

DRAM TPPD value in cycles.

7-0TCKESR_F2R/W0h

Minimum CKE low pulse width during a self-refresh for frequency copy 2.

2.5.2.50 DDRSS_CTL_50 Register (Offset = C8h) [reset = X]

DDRSS_CTL_50 is shown in Figure 8-142 and described in Table 8-292.

Return to Summary Table.

Table 8-291 DDRSS_CTL_50 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00C8h
Figure 8-142 DDRSS_CTL_50 Register
3130292827262524
TRCD_F1
R/W-0h
2322212019181716
TWR_F0
R/W-0h
15141312111098
TRCD_F0
R/W-0h
76543210
RESERVEDWRITEINTERP
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-292 DDRSS_CTL_50 Register Field Descriptions
BitFieldTypeResetDescription
31-24TRCD_F1R/W0h

DRAM TRCD value for frequency copy 1 in cycles.

23-16TWR_F0R/W0h

DRAM TWR value for frequency copy 0 in cycles.

15-8TRCD_F0R/W0h

DRAM TRCD value for frequency copy 0 in cycles.

7-1RESERVEDR/WX
0WRITEINTERPR/W0h

Allow controller to interrupt a write burst to the DRAMs with a read command.
Set to 1 to allow interruption.

2.5.2.51 DDRSS_CTL_51 Register (Offset = CCh) [reset = X]

DDRSS_CTL_51 is shown in Figure 8-143 and described in Table 8-294.

Return to Summary Table.

Table 8-293 DDRSS_CTL_51 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00CCh
Figure 8-143 DDRSS_CTL_51 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTMRRTWR_F2TRCD_F2TWR_F1
R/W-XR/W-0hR/W-0hR/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-294 DDRSS_CTL_51 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24TMRRR/W0h

DRAM TMRR value in cycles.

23-16TWR_F2R/W0h

DRAM TWR value for frequency copy 2 in cycles.

15-8TRCD_F2R/W0h

DRAM TRCD value for frequency copy 2 in cycles.

7-0TWR_F1R/W0h

DRAM TWR value for frequency copy 1 in cycles.

2.5.2.52 DDRSS_CTL_52 Register (Offset = D0h) [reset = X]

DDRSS_CTL_52 is shown in Figure 8-144 and described in Table 8-296.

Return to Summary Table.

Table 8-295 DDRSS_CTL_52 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00D0h
Figure 8-144 DDRSS_CTL_52 Register
31302928272625242322212019181716
RESERVEDTCAMRDRESERVEDTCAENT
R/W-XR/W-0hR/W-XR/W-0h
1514131211109876543210
TCAENTRESERVEDTCACKEL
R/W-0hR/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-296 DDRSS_CTL_52 Register Field Descriptions
BitFieldTypeResetDescription
31-30RESERVEDR/WX
29-24TCAMRDR/W0h

DRAM TCAMRD value in cycles.

23-18RESERVEDR/WX
17-8TCAENTR/W0h

DRAM TCAENT value in cycles.

7-5RESERVEDR/WX
4-0TCACKELR/W0h

DRAM TCACKEL value in cycles.

2.5.2.53 DDRSS_CTL_53 Register (Offset = D4h) [reset = X]

DDRSS_CTL_53 is shown in Figure 8-145 and described in Table 8-298.

Return to Summary Table.

Table 8-297 DDRSS_CTL_53 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00D4h
Figure 8-145 DDRSS_CTL_53 Register
31302928272625242322212019181716
RESERVEDTMRZ_F1RESERVEDTMRZ_F0
R/W-XR/W-0hR/W-XR/W-0h
1514131211109876543210
RESERVEDTCACKEHRESERVEDTCAEXT
R/W-XR/W-0hR/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-298 DDRSS_CTL_53 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24TMRZ_F1R/W0h

DRAM TMRZ value for frequency copy 1 in cycles.

23-21RESERVEDR/WX
20-16TMRZ_F0R/W0h

DRAM TMRZ value for frequency copy 0 in cycles.

15-13RESERVEDR/WX
12-8TCACKEHR/W0h

DRAM TCACKEH value in cycles.

7-5RESERVEDR/WX
4-0TCAEXTR/W0h

DRAM TCAEXT value in cycles.

2.5.2.54 DDRSS_CTL_54 Register (Offset = D8h) [reset = X]

DDRSS_CTL_54 is shown in Figure 8-146 and described in Table 8-300.

Return to Summary Table.

Table 8-299 DDRSS_CTL_54 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00D8h
Figure 8-146 DDRSS_CTL_54 Register
3130292827262524
RESERVEDTRAS_LOCKOUT
R/W-XR/W-0h
2322212019181716
RESERVEDCONCURRENTAP
R/W-XR/W-0h
15141312111098
RESERVEDAP
R/W-XR/W-0h
76543210
RESERVEDTMRZ_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-300 DDRSS_CTL_54 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24TRAS_LOCKOUTR/W0h

IF the DRAM supports it, this allows the controller to execute auto pre-charge commands before the TRAS_MIN parameter expires.
Set to 1 to enable.

23-17RESERVEDR/WX
16CONCURRENTAPR/W0h

IF the DRAM supports it, this allows the controller to issue commands to other banks while a bank is in auto pre-charge.
Set to 1 to enable.

15-9RESERVEDR/WX
8APR/W0h

Enable auto pre-charge mode of controller.
Set to 1 to enable.

7-5RESERVEDR/WX
4-0TMRZ_F2R/W0h

DRAM TMRZ value for frequency copy 2 in cycles.

2.5.2.55 DDRSS_CTL_55 Register (Offset = DCh) [reset = X]

DDRSS_CTL_55 is shown in Figure 8-147 and described in Table 8-302.

Return to Summary Table.

Table 8-301 DDRSS_CTL_55 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00DCh
Figure 8-147 DDRSS_CTL_55 Register
31302928272625242322212019181716
RESERVEDBSTLENTDAL_F2
R/W-XR/W-2hR/W-0h
1514131211109876543210
TDAL_F1TDAL_F0
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-302 DDRSS_CTL_55 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24BSTLENR/W2h

Encoded burst length sent to DRAMs during initialization.
Program to 1 for BL2, program to 2 for BL4, program to 3 for BL8, program to 4 for BL16, or program to 5 for BL32.
All other settings are reserved.

23-16TDAL_F2R/W0h

DRAM TDAL value for frequency copy 2 in cycles.

15-8TDAL_F1R/W0h

DRAM TDAL value for frequency copy 1 in cycles.

7-0TDAL_F0R/W0h

DRAM TDAL value for frequency copy 0 in cycles.

2.5.2.56 DDRSS_CTL_56 Register (Offset = E0h) [reset = 0h]

DDRSS_CTL_56 is shown in Figure 8-148 and described in Table 8-304.

Return to Summary Table.

Table 8-303 DDRSS_CTL_56 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00E0h
Figure 8-148 DDRSS_CTL_56 Register
31302928272625242322212019181716
TRP_AB_F0_1TRP_AB_F2_0
R/W-0hR/W-0h
1514131211109876543210
TRP_AB_F1_0TRP_AB_F0_0
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-304 DDRSS_CTL_56 Register Field Descriptions
BitFieldTypeResetDescription
31-24TRP_AB_F0_1R/W0h

DRAM TRP all bank value for frequency copy 0 in cycles for chip select 1.

23-16TRP_AB_F2_0R/W0h

DRAM TRP all bank value for frequency copy 2 in cycles for chip select 0.

15-8TRP_AB_F1_0R/W0h

DRAM TRP all bank value for frequency copy 1 in cycles for chip select 0.

7-0TRP_AB_F0_0R/W0h

DRAM TRP all bank value for frequency copy 0 in cycles for chip select 0.

2.5.2.57 DDRSS_CTL_57 Register (Offset = E4h) [reset = X]

DDRSS_CTL_57 is shown in Figure 8-149 and described in Table 8-306.

Return to Summary Table.

Table 8-305 DDRSS_CTL_57 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00E4h
Figure 8-149 DDRSS_CTL_57 Register
3130292827262524
RESERVEDRESERVED
R/W-XR/W-0h
2322212019181716
RESERVEDREG_DIMM_ENABLE
R/W-XR/W-0h
15141312111098
TRP_AB_F2_1
R/W-0h
76543210
TRP_AB_F1_1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-306 DDRSS_CTL_57 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-24RESERVEDR/W0h

Reserved

23-17RESERVEDR/WX
16REG_DIMM_ENABLER/W0h

Enable registered DIMM operation of the controller.
Set to 1 to enable.

15-8TRP_AB_F2_1R/W0h

DRAM TRP all bank value for frequency copy 2 in cycles for chip select 1.

7-0TRP_AB_F1_1R/W0h

DRAM TRP all bank value for frequency copy 1 in cycles for chip select 1.

2.5.2.58 DDRSS_CTL_58 Register (Offset = E8h) [reset = X]

DDRSS_CTL_58 is shown in Figure 8-150 and described in Table 8-308.

Return to Summary Table.

Table 8-307 DDRSS_CTL_58 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00E8h
Figure 8-150 DDRSS_CTL_58 Register
3130292827262524
RESERVEDNO_MEMORY_DM
R/W-XR/W-0h
2322212019181716
RESERVEDRESERVED
R/W-XR/W-0h
15141312111098
RESERVEDOPTIMAL_RMODW_EN
R/W-XR/W-0h
76543210
RESERVEDRESERVED
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-308 DDRSS_CTL_58 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24NO_MEMORY_DMR/W0h

Indicates that the external DRAM does not support DM masking.
Set to 1 for no DM masking at the DRAM.

23-17RESERVEDR/WX
16RESERVEDR/W0h

Reserved

15-9RESERVEDR/WX
8OPTIMAL_RMODW_ENR/W0h

Enables optimized RMODW logic in the controller.
A value of 1 enables optimized RMODW operation.
All RMODW operations are still supported in a non-optimal manner when the value is 0.

7RESERVEDR/WX
6-0RESERVEDR/W0h

Reserved

2.5.2.59 DDRSS_CTL_59 Register (Offset = ECh) [reset = X]

DDRSS_CTL_59 is shown in Figure 8-151 and described in Table 8-310.

Return to Summary Table.

Table 8-309 DDRSS_CTL_59 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00ECh
Figure 8-151 DDRSS_CTL_59 Register
3130292827262524
RESERVEDRESERVED
R/W-XR/W-0h
2322212019181716
RESERVEDTREF_ENABLE
R/W-XR/W-0h
15141312111098
RESERVEDAREF_STATUS
R/W-XR-0h
76543210
RESERVEDAREFRESH
R/W-XW-0h
LEGEND: R = Read Only; R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-310 DDRSS_CTL_59 Register Field Descriptions
BitFieldTypeResetDescription
31-27RESERVEDR/WX
26-24RESERVEDR/W0h

Reserved

23-17RESERVEDR/WX
16TREF_ENABLER/W0h

Issue auto-refresh commands to the DRAMs at the interval defined in the TREF parameter.
Set to 1 to enable.

15-9RESERVEDR/WX
8AREF_STATUSR0h

Indicates a SR error associated with the AREF interrupt.
Value of 1 indicates a violation.
READ-ONLY

7-1RESERVEDR/WX
0AREFRESHW0h

Initiate auto-refresh at the end of the current burst boundary.
Set to 1 to trigger.
WRITE-ONLY

2.5.2.60 DDRSS_CTL_60 Register (Offset = F0h) [reset = X]

DDRSS_CTL_60 is shown in Figure 8-152 and described in Table 8-312.

Return to Summary Table.

Table 8-311 DDRSS_CTL_60 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00F0h
Figure 8-152 DDRSS_CTL_60 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVEDTRFC_F0
R/W-XR/W-0h
15141312111098
TRFC_F0
R/W-0h
76543210
RESERVEDCS_COMPARISON_FOR_REFRESH_DEPTH
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-312 DDRSS_CTL_60 Register Field Descriptions
BitFieldTypeResetDescription
31-18RESERVEDR/WX
17-8TRFC_F0R/W0h

DRAM TRFC value for frequency copy 0 in cycles.

7-6RESERVEDR/WX
5-0CS_COMPARISON_FOR_REFRESH_DEPTHR/W0h

Defines the number of entries of the command queue that the refresh logic will consider for sending a refresh command.
A non-zero value limits the decode to a subset of the full command pipeline.

2.5.2.61 DDRSS_CTL_61 Register (Offset = F4h) [reset = X]

DDRSS_CTL_61 is shown in Figure 8-153 and described in Table 8-314.

Return to Summary Table.

Table 8-313 DDRSS_CTL_61 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00F4h
Figure 8-153 DDRSS_CTL_61 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTREF_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-314 DDRSS_CTL_61 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-0TREF_F0R/W0h

DRAM TREF value for frequency copy 0 in cycles.

2.5.2.62 DDRSS_CTL_62 Register (Offset = F8h) [reset = X]

DDRSS_CTL_62 is shown in Figure 8-154 and described in Table 8-316.

Return to Summary Table.

Table 8-315 DDRSS_CTL_62 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00F8h
Figure 8-154 DDRSS_CTL_62 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTRFC_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-316 DDRSS_CTL_62 Register Field Descriptions
BitFieldTypeResetDescription
31-10RESERVEDR/WX
9-0TRFC_F1R/W0h

DRAM TRFC value for frequency copy 1 in cycles.

2.5.2.63 DDRSS_CTL_63 Register (Offset = FCh) [reset = X]

DDRSS_CTL_63 is shown in Figure 8-155 and described in Table 8-318.

Return to Summary Table.

Table 8-317 DDRSS_CTL_63 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 00FCh
Figure 8-155 DDRSS_CTL_63 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTREF_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-318 DDRSS_CTL_63 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-0TREF_F1R/W0h

DRAM TREF value for frequency copy 1 in cycles.

2.5.2.64 DDRSS_CTL_64 Register (Offset = 100h) [reset = X]

DDRSS_CTL_64 is shown in Figure 8-156 and described in Table 8-320.

Return to Summary Table.

Table 8-319 DDRSS_CTL_64 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0100h
Figure 8-156 DDRSS_CTL_64 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTRFC_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-320 DDRSS_CTL_64 Register Field Descriptions
BitFieldTypeResetDescription
31-10RESERVEDR/WX
9-0TRFC_F2R/W0h

DRAM TRFC value for frequency copy 2 in cycles.

2.5.2.65 DDRSS_CTL_65 Register (Offset = 104h) [reset = X]

DDRSS_CTL_65 is shown in Figure 8-157 and described in Table 8-322.

Return to Summary Table.

Table 8-321 DDRSS_CTL_65 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0104h
Figure 8-157 DDRSS_CTL_65 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTREF_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-322 DDRSS_CTL_65 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-0TREF_F2R/W0h

DRAM TREF value for frequency copy 2 in cycles.

2.5.2.66 DDRSS_CTL_66 Register (Offset = 108h) [reset = X]

DDRSS_CTL_66 is shown in Figure 8-158 and described in Table 8-324.

Return to Summary Table.

Table 8-323 DDRSS_CTL_66 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0108h
Figure 8-158 DDRSS_CTL_66 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTREF_INTERVAL
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-324 DDRSS_CTL_66 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-0TREF_INTERVALR/W0h

Defines the cycles between refreshes to different chip selects.

2.5.2.67 DDRSS_CTL_67 Register (Offset = 10Ch) [reset = X]

DDRSS_CTL_67 is shown in Figure 8-159 and described in Table 8-326.

Return to Summary Table.

Table 8-325 DDRSS_CTL_67 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 010Ch
Figure 8-159 DDRSS_CTL_67 Register
3130292827262524
RESERVEDTRFC_PB_F0
R/W-XR/W-0h
2322212019181716
TRFC_PB_F0
R/W-0h
15141312111098
RESERVEDPBR_NUMERIC_ORDER
R/W-XR/W-0h
76543210
RESERVEDPBR_EN
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-326 DDRSS_CTL_67 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-16TRFC_PB_F0R/W0h

DRAM TRFC_PB value for frequency copy 0 in cycles.

15-9RESERVEDR/WX
8PBR_NUMERIC_ORDERR/W0h

Enables the PBR to run REFpb commands in numeric bank order (0,1,2,3, etc.) When disabled, the order may be modified if supported by the memory type.
Set to 1 to enable.

7-1RESERVEDR/WX
0PBR_ENR/W0h

Enables the per-bank refresh feature.
Set to 1 to enable.

2.5.2.68 DDRSS_CTL_68 Register (Offset = 110h) [reset = X]

DDRSS_CTL_68 is shown in Figure 8-160 and described in Table 8-328.

Return to Summary Table.

Table 8-327 DDRSS_CTL_68 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0110h
Figure 8-160 DDRSS_CTL_68 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTRFC_PB_F1TREFI_PB_F0
R/W-XR/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-328 DDRSS_CTL_68 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-16TRFC_PB_F1R/W0h

DRAM TRFC_PB value for frequency copy 1 in cycles.

15-0TREFI_PB_F0R/W0h

DRAM TREFI_PB value for frequency copy 0 in cycles.

2.5.2.69 DDRSS_CTL_69 Register (Offset = 114h) [reset = X]

DDRSS_CTL_69 is shown in Figure 8-161 and described in Table 8-330.

Return to Summary Table.

Table 8-329 DDRSS_CTL_69 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0114h
Figure 8-161 DDRSS_CTL_69 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTRFC_PB_F2TREFI_PB_F1
R/W-XR/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-330 DDRSS_CTL_69 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-16TRFC_PB_F2R/W0h

DRAM TRFC_PB value for frequency copy 2 in cycles.

15-0TREFI_PB_F1R/W0h

DRAM TREFI_PB value for frequency copy 1 in cycles.

2.5.2.70 DDRSS_CTL_70 Register (Offset = 118h) [reset = 0h]

DDRSS_CTL_70 is shown in Figure 8-162 and described in Table 8-332.

Return to Summary Table.

Table 8-331 DDRSS_CTL_70 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0118h
Figure 8-162 DDRSS_CTL_70 Register
31302928272625242322212019181716
PBR_MAX_BANK_WAIT
R/W-0h
1514131211109876543210
TREFI_PB_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-332 DDRSS_CTL_70 Register Field Descriptions
BitFieldTypeResetDescription
31-16PBR_MAX_BANK_WAITR/W0h

Defines the maximum number of cycles that the PBR module will wait for Strategy to release the target bank until the PBR will assert the inhibit and close the target bank.

15-0TREFI_PB_F2R/W0h

DRAM TREFI_PB value for frequency copy 2 in cycles.

2.5.2.71 DDRSS_CTL_71 Register (Offset = 11Ch) [reset = X]

DDRSS_CTL_71 is shown in Figure 8-163 and described in Table 8-334.

Return to Summary Table.

Table 8-333 DDRSS_CTL_71 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 011Ch
Figure 8-163 DDRSS_CTL_71 Register
3130292827262524
RESERVEDAREF_PBR_CONT_DIS_THRESHOLD
R/W-XR/W-0h
2322212019181716
RESERVEDAREF_PBR_CONT_EN_THRESHOLD
R/W-XR/W-0h
15141312111098
RESERVEDPBR_CONT_REQ_EN
R/W-XR/W-0h
76543210
RESERVEDPBR_BANK_SELECT_DELAY
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-334 DDRSS_CTL_71 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24AREF_PBR_CONT_DIS_THRESHOLDR/W0h

Sets the auto-refresh request count threshold when the PBR continuous refresh request enable will be deasserted.

23-21RESERVEDR/WX
20-16AREF_PBR_CONT_EN_THRESHOLDR/W0h

Sets the auto-refresh request count threshold when the PBR continuous refresh request enable will be asserted.

15-9RESERVEDR/WX
8PBR_CONT_REQ_ENR/W0h

Enables the per-bank refresh continuous request feature.
Set to 1 to enable.

7-4RESERVEDR/WX
3-0PBR_BANK_SELECT_DELAYR/W0h

Defines the PBR bank select to command delay, the time from bank selection to when the command queue bank selection logic is guaranteed to have blocked the bank.

2.5.2.72 DDRSS_CTL_72 Register (Offset = 120h) [reset = 0h]

DDRSS_CTL_72 is shown in Figure 8-164 and described in Table 8-336.

Return to Summary Table.

Table 8-335 DDRSS_CTL_72 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0120h
Figure 8-164 DDRSS_CTL_72 Register
313029282726252423222120191817161514131211109876543210
TPDEX_F1TPDEX_F0
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-336 DDRSS_CTL_72 Register Field Descriptions
BitFieldTypeResetDescription
31-16TPDEX_F1R/W0h

DRAM TPDEX value for frequency copy 1 in cycles.

15-0TPDEX_F0R/W0h

DRAM TPDEX value for frequency copy 0 in cycles.

2.5.2.73 DDRSS_CTL_73 Register (Offset = 124h) [reset = 0h]

DDRSS_CTL_73 is shown in Figure 8-165 and described in Table 8-338.

Return to Summary Table.

Table 8-337 DDRSS_CTL_73 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0124h
Figure 8-165 DDRSS_CTL_73 Register
313029282726252423222120191817161514131211109876543210
TMRRI_F1TMRRI_F0TPDEX_F2
R/W-0hR/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-338 DDRSS_CTL_73 Register Field Descriptions
BitFieldTypeResetDescription
31-24TMRRI_F1R/W0h

DRAM TMRRI value for frequency copy 1 in cycles.

23-16TMRRI_F0R/W0h

DRAM TMRRI value for frequency copy 0 in cycles.

15-0TPDEX_F2R/W0h

DRAM TPDEX value for frequency copy 2 in cycles.

2.5.2.74 DDRSS_CTL_74 Register (Offset = 128h) [reset = X]

DDRSS_CTL_74 is shown in Figure 8-166 and described in Table 8-340.

Return to Summary Table.

Table 8-339 DDRSS_CTL_74 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0128h
Figure 8-166 DDRSS_CTL_74 Register
31302928272625242322212019181716
RESERVEDTCKEHCS_F0RESERVEDTCKELCS_F0
R/W-XR/W-0hR/W-XR/W-0h
1514131211109876543210
RESERVEDTCSCKE_F0TMRRI_F2
R/W-XR/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-340 DDRSS_CTL_74 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24TCKEHCS_F0R/W0h

DRAM TCKEHCS value for frequency copy 0 in cycles.

23-21RESERVEDR/WX
20-16TCKELCS_F0R/W0h

DRAM TCKELCS value for frequency copy 0 in cycles.

15-13RESERVEDR/WX
12-8TCSCKE_F0R/W0h

DRAM TCSCKE value for frequency copy 0 in cycles.

7-0TMRRI_F2R/W0h

DRAM TMRRI value for frequency copy 2 in cycles.

2.5.2.75 DDRSS_CTL_75 Register (Offset = 12Ch) [reset = X]

DDRSS_CTL_75 is shown in Figure 8-167 and described in Table 8-342.

Return to Summary Table.

Table 8-341 DDRSS_CTL_75 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 012Ch
Figure 8-167 DDRSS_CTL_75 Register
3130292827262524
RESERVEDTCSCKE_F1
R/W-XR/W-0h
2322212019181716
RESERVEDCA_DEFAULT_VAL_F0
R/W-XR/W-0h
15141312111098
RESERVEDTZQCKE_F0
R/W-XR/W-0h
76543210
RESERVEDTMRWCKEL_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-342 DDRSS_CTL_75 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24TCSCKE_F1R/W0h

DRAM TCSCKE value for frequency copy 1 in cycles.

23-17RESERVEDR/WX
16CA_DEFAULT_VAL_F0R/W0h

Defines how unused address/command bits are driven for frequency copy 0.
Set to 1 to use last value or clear to 0 to drive low.

15-12RESERVEDR/WX
11-8TZQCKE_F0R/W0h

DRAM TZQCKE value for frequency copy 0 in cycles.

7-5RESERVEDR/WX
4-0TMRWCKEL_F0R/W0h

DRAM TMRWCKEL value for frequency copy 0 in cycles.

2.5.2.76 DDRSS_CTL_76 Register (Offset = 130h) [reset = X]

DDRSS_CTL_76 is shown in Figure 8-168 and described in Table 8-344.

Return to Summary Table.

Table 8-343 DDRSS_CTL_76 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0130h
Figure 8-168 DDRSS_CTL_76 Register
31302928272625242322212019181716
RESERVEDTZQCKE_F1RESERVEDTMRWCKEL_F1
R/W-XR/W-0hR/W-XR/W-0h
1514131211109876543210
RESERVEDTCKEHCS_F1RESERVEDTCKELCS_F1
R/W-XR/W-0hR/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-344 DDRSS_CTL_76 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24TZQCKE_F1R/W0h

DRAM TZQCKE value for frequency copy 1 in cycles.

23-21RESERVEDR/WX
20-16TMRWCKEL_F1R/W0h

DRAM TMRWCKEL value for frequency copy 1 in cycles.

15-13RESERVEDR/WX
12-8TCKEHCS_F1R/W0h

DRAM TCKEHCS value for frequency copy 1 in cycles.

7-5RESERVEDR/WX
4-0TCKELCS_F1R/W0h

DRAM TCKELCS value for frequency copy 1 in cycles.

2.5.2.77 DDRSS_CTL_77 Register (Offset = 134h) [reset = X]

DDRSS_CTL_77 is shown in Figure 8-169 and described in Table 8-346.

Return to Summary Table.

Table 8-345 DDRSS_CTL_77 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0134h
Figure 8-169 DDRSS_CTL_77 Register
3130292827262524
RESERVEDTCKEHCS_F2
R/W-XR/W-0h
2322212019181716
RESERVEDTCKELCS_F2
R/W-XR/W-0h
15141312111098
RESERVEDTCSCKE_F2
R/W-XR/W-0h
76543210
RESERVEDCA_DEFAULT_VAL_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-346 DDRSS_CTL_77 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24TCKEHCS_F2R/W0h

DRAM TCKEHCS value for frequency copy 2 in cycles.

23-21RESERVEDR/WX
20-16TCKELCS_F2R/W0h

DRAM TCKELCS value for frequency copy 2 in cycles.

15-13RESERVEDR/WX
12-8TCSCKE_F2R/W0h

DRAM TCSCKE value for frequency copy 2 in cycles.

7-1RESERVEDR/WX
0CA_DEFAULT_VAL_F1R/W0h

Defines how unused address/command bits are driven for frequency copy 1.
Set to 1 to use last value or clear to 0 to drive low.

2.5.2.78 DDRSS_CTL_78 Register (Offset = 138h) [reset = X]

DDRSS_CTL_78 is shown in Figure 8-170 and described in Table 8-348.

Return to Summary Table.

Table 8-347 DDRSS_CTL_78 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0138h
Figure 8-170 DDRSS_CTL_78 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVEDCA_DEFAULT_VAL_F2
R/W-XR/W-0h
15141312111098
RESERVEDTZQCKE_F2
R/W-XR/W-0h
76543210
RESERVEDTMRWCKEL_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-348 DDRSS_CTL_78 Register Field Descriptions
BitFieldTypeResetDescription
31-17RESERVEDR/WX
16CA_DEFAULT_VAL_F2R/W0h

Defines how unused address/command bits are driven for frequency copy 2.
Set to 1 to use last value or clear to 0 to drive low.

15-12RESERVEDR/WX
11-8TZQCKE_F2R/W0h

DRAM TZQCKE value for frequency copy 2 in cycles.

7-5RESERVEDR/WX
4-0TMRWCKEL_F2R/W0h

DRAM TMRWCKEL value for frequency copy 2 in cycles.

2.5.2.79 DDRSS_CTL_79 Register (Offset = 13Ch) [reset = 0h]

DDRSS_CTL_79 is shown in Figure 8-171 and described in Table 8-350.

Return to Summary Table.

Table 8-349 DDRSS_CTL_79 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 013Ch
Figure 8-171 DDRSS_CTL_79 Register
313029282726252423222120191817161514131211109876543210
TXSNR_F0TXSR_F0
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-350 DDRSS_CTL_79 Register Field Descriptions
BitFieldTypeResetDescription
31-16TXSNR_F0R/W0h

DRAM TXSNR value for frequency copy 0 in cycles.

15-0TXSR_F0R/W0h

DRAM TXSR value for frequency copy 0 in cycles.

2.5.2.80 DDRSS_CTL_80 Register (Offset = 140h) [reset = 0h]

DDRSS_CTL_80 is shown in Figure 8-172 and described in Table 8-352.

Return to Summary Table.

Table 8-351 DDRSS_CTL_80 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0140h
Figure 8-172 DDRSS_CTL_80 Register
313029282726252423222120191817161514131211109876543210
TXSNR_F1TXSR_F1
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-352 DDRSS_CTL_80 Register Field Descriptions
BitFieldTypeResetDescription
31-16TXSNR_F1R/W0h

DRAM TXSNR value for frequency copy 1 in cycles.

15-0TXSR_F1R/W0h

DRAM TXSR value for frequency copy 1 in cycles.

2.5.2.81 DDRSS_CTL_81 Register (Offset = 144h) [reset = 0h]

DDRSS_CTL_81 is shown in Figure 8-173 and described in Table 8-354.

Return to Summary Table.

Table 8-353 DDRSS_CTL_81 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0144h
Figure 8-173 DDRSS_CTL_81 Register
313029282726252423222120191817161514131211109876543210
TXSNR_F2TXSR_F2
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-354 DDRSS_CTL_81 Register Field Descriptions
BitFieldTypeResetDescription
31-16TXSNR_F2R/W0h

DRAM TXSNR value for frequency copy 2 in cycles.

15-0TXSR_F2R/W0h

DRAM TXSR value for frequency copy 2 in cycles.

2.5.2.82 DDRSS_CTL_82 Register (Offset = 148h) [reset = X]

DDRSS_CTL_82 is shown in Figure 8-174 and described in Table 8-356.

Return to Summary Table.

Table 8-355 DDRSS_CTL_82 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0148h
Figure 8-174 DDRSS_CTL_82 Register
31302928272625242322212019181716
TSR_F0RESERVEDTCKCKEL_F0
R/W-0hR/W-XR/W-0h
1514131211109876543210
RESERVEDTCKEHCMD_F0RESERVEDTCKELCMD_F0
R/W-XR/W-0hR/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-356 DDRSS_CTL_82 Register Field Descriptions
BitFieldTypeResetDescription
31-24TSR_F0R/W0h

DRAM TSR value for frequency copy 0 in cycles.

23-21RESERVEDR/WX
20-16TCKCKEL_F0R/W0h

DRAM TCKCKEL value for frequency copy 0 in cycles.

15-13RESERVEDR/WX
12-8TCKEHCMD_F0R/W0h

DRAM TCKEHCMD value for frequency copy 0 in cycles.

7-5RESERVEDR/WX
4-0TCKELCMD_F0R/W0h

DRAM TCKELCMD value for frequency copy 0 in cycles.

2.5.2.83 DDRSS_CTL_83 Register (Offset = 14Ch) [reset = X]

DDRSS_CTL_83 is shown in Figure 8-175 and described in Table 8-358.

Return to Summary Table.

Table 8-357 DDRSS_CTL_83 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 014Ch
Figure 8-175 DDRSS_CTL_83 Register
31302928272625242322212019181716
RESERVEDTCMDCKE_F0RESERVEDTCSCKEH_F0
R/W-XR/W-0hR/W-XR/W-0h
1514131211109876543210
RESERVEDTCKELPD_F0RESERVEDTESCKE_F0
R/W-XR/W-0hR/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-358 DDRSS_CTL_83 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24TCMDCKE_F0R/W0h

DRAM TCMDCKE value for frequency copy 0 in cycles.

23-21RESERVEDR/WX
20-16TCSCKEH_F0R/W0h

DRAM TCSCKEH value for frequency copy 0 in cycles.

15-13RESERVEDR/WX
12-8TCKELPD_F0R/W0h

DRAM TCKELPD value for frequency copy 0 in cycles.

7-3RESERVEDR/WX
2-0TESCKE_F0R/W0h

DRAM TESCKE value for frequency copy 0 in cycles.

2.5.2.84 DDRSS_CTL_84 Register (Offset = 150h) [reset = X]

DDRSS_CTL_84 is shown in Figure 8-176 and described in Table 8-360.

Return to Summary Table.

Table 8-359 DDRSS_CTL_84 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0150h
Figure 8-176 DDRSS_CTL_84 Register
31302928272625242322212019181716
TSR_F1RESERVEDTCKCKEL_F1
R/W-0hR/W-XR/W-0h
1514131211109876543210
RESERVEDTCKEHCMD_F1RESERVEDTCKELCMD_F1
R/W-XR/W-0hR/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-360 DDRSS_CTL_84 Register Field Descriptions
BitFieldTypeResetDescription
31-24TSR_F1R/W0h

DRAM TSR value for frequency copy 1 in cycles.

23-21RESERVEDR/WX
20-16TCKCKEL_F1R/W0h

DRAM TCKCKEL value for frequency copy 1 in cycles.

15-13RESERVEDR/WX
12-8TCKEHCMD_F1R/W0h

DRAM TCKEHCMD value for frequency copy 1 in cycles.

7-5RESERVEDR/WX
4-0TCKELCMD_F1R/W0h

DRAM TCKELCMD value for frequency copy 1 in cycles.

2.5.2.85 DDRSS_CTL_85 Register (Offset = 154h) [reset = X]

DDRSS_CTL_85 is shown in Figure 8-177 and described in Table 8-362.

Return to Summary Table.

Table 8-361 DDRSS_CTL_85 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0154h
Figure 8-177 DDRSS_CTL_85 Register
31302928272625242322212019181716
RESERVEDTCMDCKE_F1RESERVEDTCSCKEH_F1
R/W-XR/W-0hR/W-XR/W-0h
1514131211109876543210
RESERVEDTCKELPD_F1RESERVEDTESCKE_F1
R/W-XR/W-0hR/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-362 DDRSS_CTL_85 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24TCMDCKE_F1R/W0h

DRAM TCMDCKE value for frequency copy 1 in cycles.

23-21RESERVEDR/WX
20-16TCSCKEH_F1R/W0h

DRAM TCSCKEH value for frequency copy 1 in cycles.

15-13RESERVEDR/WX
12-8TCKELPD_F1R/W0h

DRAM TCKELPD value for frequency copy 1 in cycles.

7-3RESERVEDR/WX
2-0TESCKE_F1R/W0h

DRAM TESCKE value for frequency copy 1 in cycles.

2.5.2.86 DDRSS_CTL_86 Register (Offset = 158h) [reset = X]

DDRSS_CTL_86 is shown in Figure 8-178 and described in Table 8-364.

Return to Summary Table.

Table 8-363 DDRSS_CTL_86 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0158h
Figure 8-178 DDRSS_CTL_86 Register
31302928272625242322212019181716
TSR_F2RESERVEDTCKCKEL_F2
R/W-0hR/W-XR/W-0h
1514131211109876543210
RESERVEDTCKEHCMD_F2RESERVEDTCKELCMD_F2
R/W-XR/W-0hR/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-364 DDRSS_CTL_86 Register Field Descriptions
BitFieldTypeResetDescription
31-24TSR_F2R/W0h

DRAM TSR value for frequency copy 2 in cycles.

23-21RESERVEDR/WX
20-16TCKCKEL_F2R/W0h

DRAM TCKCKEL value for frequency copy 2 in cycles.

15-13RESERVEDR/WX
12-8TCKEHCMD_F2R/W0h

DRAM TCKEHCMD value for frequency copy 2 in cycles.

7-5RESERVEDR/WX
4-0TCKELCMD_F2R/W0h

DRAM TCKELCMD value for frequency copy 2 in cycles.

2.5.2.87 DDRSS_CTL_87 Register (Offset = 15Ch) [reset = X]

DDRSS_CTL_87 is shown in Figure 8-179 and described in Table 8-366.

Return to Summary Table.

Table 8-365 DDRSS_CTL_87 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 015Ch
Figure 8-179 DDRSS_CTL_87 Register
31302928272625242322212019181716
RESERVEDTCMDCKE_F2RESERVEDTCSCKEH_F2
R/W-XR/W-0hR/W-XR/W-0h
1514131211109876543210
RESERVEDTCKELPD_F2RESERVEDTESCKE_F2
R/W-XR/W-0hR/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-366 DDRSS_CTL_87 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24TCMDCKE_F2R/W0h

DRAM TCMDCKE value for frequency copy 2 in cycles.

23-21RESERVEDR/WX
20-16TCSCKEH_F2R/W0h

DRAM TCSCKEH value for frequency copy 2 in cycles.

15-13RESERVEDR/WX
12-8TCKELPD_F2R/W0h

DRAM TCKELPD value for frequency copy 2 in cycles.

7-3RESERVEDR/WX
2-0TESCKE_F2R/W0h

DRAM TESCKE value for frequency copy 2 in cycles.

2.5.2.88 DDRSS_CTL_88 Register (Offset = 160h) [reset = X]

DDRSS_CTL_88 is shown in Figure 8-180 and described in Table 8-368.

Return to Summary Table.

Table 8-367 DDRSS_CTL_88 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0160h
Figure 8-180 DDRSS_CTL_88 Register
3130292827262524
RESERVEDCKE_DELAY
R/W-XR/W-0h
2322212019181716
RESERVEDENABLE_QUICK_SREFRESH
R/W-XR/W-0h
15141312111098
RESERVEDRESERVED
R/W-XR/W-0h
76543210
RESERVEDPWRUP_SREFRESH_EXIT
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-368 DDRSS_CTL_88 Register Field Descriptions
BitFieldTypeResetDescription
31-27RESERVEDR/WX
26-24CKE_DELAYR/W0h

Additional cycles to delay CKE for status reporting.

23-17RESERVEDR/WX
16ENABLE_QUICK_SREFRESHR/W0h

Allow user to interrupt memory initialization to enter self-refresh mode.
Set to 1 to allow interruption.

15-9RESERVEDR/WX
8RESERVEDR/W0h

Reserved

7-1RESERVEDR/WX
0PWRUP_SREFRESH_EXITR/W0h

Allow powerup via self-refresh instead of full memory initialization.
Set to 1 to enable.

2.5.2.89 DDRSS_CTL_89 Register (Offset = 164h) [reset = X]

DDRSS_CTL_89 is shown in Figure 8-181 and described in Table 8-370.

Return to Summary Table.

Table 8-369 DDRSS_CTL_89 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0164h
Figure 8-181 DDRSS_CTL_89 Register
3130292827262524
RESERVEDDFS_CALVL_EN
R/W-XR/W-0h
2322212019181716
RESERVEDDFS_ZQ_EN
R/W-XR/W-0h
15141312111098
RESERVEDDFS_STATUS
R/W-XR-0h
76543210
RESERVEDRESERVED
R/W-XW-0h
LEGEND: R = Read Only; R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-370 DDRSS_CTL_89 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24DFS_CALVL_ENR/W0h

Enables CA training during a DFS exit.
Set to 1 to enable.

23-17RESERVEDR/WX
16DFS_ZQ_ENR/W0h

Enables ZQ calibration during a DFS exit.
Set to 1 to enable.

15-10RESERVEDR/WX
9-8DFS_STATUSR0h

Holds the error associated with the DFS interrupt.
Bit (0) set indicates an illegal command and bit (1) set indicates that a shutdown occurred during DFS.
READ-ONLY

7-5RESERVEDR/WX
4-0RESERVEDW0h

Reserved

2.5.2.90 DDRSS_CTL_90 Register (Offset = 168h) [reset = X]

DDRSS_CTL_90 is shown in Figure 8-182 and described in Table 8-372.

Return to Summary Table.

Table 8-371 DDRSS_CTL_90 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0168h
Figure 8-182 DDRSS_CTL_90 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVEDDFS_RDLVL_GATE_EN
R/W-XR/W-0h
15141312111098
RESERVEDDFS_RDLVL_EN
R/W-XR/W-0h
76543210
RESERVEDDFS_WRLVL_EN
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-372 DDRSS_CTL_90 Register Field Descriptions
BitFieldTypeResetDescription
31-17RESERVEDR/WX
16DFS_RDLVL_GATE_ENR/W0h

Enables read gate training during a DFS exit.
Set to 1 to enable.

15-9RESERVEDR/WX
8DFS_RDLVL_ENR/W0h

Enables read data eye training during a DFS exit.
Set to 1 to enable.

7-1RESERVEDR/WX
0DFS_WRLVL_ENR/W0h

Enables write leveling during a DFS exit.
Set to 1 to enable.

2.5.2.91 DDRSS_CTL_91 Register (Offset = 16Ch) [reset = 0h]

DDRSS_CTL_91 is shown in Figure 8-183 and described in Table 8-374.

Return to Summary Table.

Table 8-373 DDRSS_CTL_91 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 016Ch
Figure 8-183 DDRSS_CTL_91 Register
31302928272625242322212019181716
DFS_PROMOTE_THRESHOLD_F1
R/W-0h
1514131211109876543210
DFS_PROMOTE_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-374 DDRSS_CTL_91 Register Field Descriptions
BitFieldTypeResetDescription
31-16DFS_PROMOTE_THRESHOLD_F1R/W0h

DFS promotion number of long counts until the high priority request is asserted for frequency copy 1.
Applies to SW and HW DFS commands.

15-0DFS_PROMOTE_THRESHOLD_F0R/W0h

DFS promotion number of long counts until the high priority request is asserted for frequency copy 0.
Applies to SW and HW DFS commands.

2.5.2.92 DDRSS_CTL_92 Register (Offset = 170h) [reset = X]

DDRSS_CTL_92 is shown in Figure 8-184 and described in Table 8-376.

Return to Summary Table.

Table 8-375 DDRSS_CTL_92 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0170h
Figure 8-184 DDRSS_CTL_92 Register
3130292827262524
RESERVEDRESERVED
R/W-XR/W-0h
2322212019181716
RESERVEDZQ_STATUS_LOG
R/W-XR-0h
15141312111098
DFS_PROMOTE_THRESHOLD_F2
R/W-0h
76543210
DFS_PROMOTE_THRESHOLD_F2
R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-376 DDRSS_CTL_92 Register Field Descriptions
BitFieldTypeResetDescription
31-27RESERVEDR/WX
26-24RESERVEDR/W0h

Reserved

23-19RESERVEDR/WX
18-16ZQ_STATUS_LOGR0h

Indicates what kind of ZQ command was terminated without execution that caused the ZQ status interrupt to assert.
Bit (0) correlates to a ZQ cal init, reset, short or long command.
Bit (1) correlates to a ZQ cal start command.
Bit (2) correlates to a ZQ cal latch command.
Value of 1 indicates that that type of command was received, but terminated without execution.
READ_ONLY

15-0DFS_PROMOTE_THRESHOLD_F2R/W0h

DFS promotion number of long counts until the high priority request is asserted for frequency copy 2.
Applies to SW and HW DFS commands.

2.5.2.93 DDRSS_CTL_94 Register (Offset = 178h) [reset = 0h]

DDRSS_CTL_94 is shown in Figure 8-185 and described in Table 8-378.

Return to Summary Table.

Table 8-377 DDRSS_CTL_94 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0178h
Figure 8-185 DDRSS_CTL_94 Register
31302928272625242322212019181716
UPD_CTRLUPD_HIGH_THRESHOLD_F0
R/W-0h
1514131211109876543210
UPD_CTRLUPD_NORM_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-378 DDRSS_CTL_94 Register Field Descriptions
BitFieldTypeResetDescription
31-16UPD_CTRLUPD_HIGH_THRESHOLD_F0R/W0h

DFI control update number of long counts until the high priority request is asserted for frequency copy 0.

15-0UPD_CTRLUPD_NORM_THRESHOLD_F0R/W0h

DFI control update number of long counts until the normal priority request is asserted for frequency copy 0.

2.5.2.94 DDRSS_CTL_95 Register (Offset = 17Ch) [reset = 0h]

DDRSS_CTL_95 is shown in Figure 8-186 and described in Table 8-380.

Return to Summary Table.

Table 8-379 DDRSS_CTL_95 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 017Ch
Figure 8-186 DDRSS_CTL_95 Register
31302928272625242322212019181716
UPD_CTRLUPD_SW_PROMOTE_THRESHOLD_F0
R/W-0h
1514131211109876543210
UPD_CTRLUPD_TIMEOUT_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-380 DDRSS_CTL_95 Register Field Descriptions
BitFieldTypeResetDescription
31-16UPD_CTRLUPD_SW_PROMOTE_THRESHOLD_F0R/W0h

DFI control update SW promotion number of long counts until the high priority request is asserted for frequency copy 0.

15-0UPD_CTRLUPD_TIMEOUT_F0R/W0h

DFI control update number of long counts until the timeout is asserted for frequency copy 0.

2.5.2.95 DDRSS_CTL_96 Register (Offset = 180h) [reset = 0h]

DDRSS_CTL_96 is shown in Figure 8-187 and described in Table 8-382.

Return to Summary Table.

Table 8-381 DDRSS_CTL_96 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0180h
Figure 8-187 DDRSS_CTL_96 Register
31302928272625242322212019181716
UPD_CTRLUPD_NORM_THRESHOLD_F1
R/W-0h
1514131211109876543210
UPD_PHYUPD_DFI_PROMOTE_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-382 DDRSS_CTL_96 Register Field Descriptions
BitFieldTypeResetDescription
31-16UPD_CTRLUPD_NORM_THRESHOLD_F1R/W0h

DFI control update number of long counts until the normal priority request is asserted for frequency copy 1.

15-0UPD_PHYUPD_DFI_PROMOTE_THRESHOLD_F0R/W0h

DFI PHY update DFI promotion number of long counts until the high priority request is asserted for frequency copy 0.

2.5.2.96 DDRSS_CTL_97 Register (Offset = 184h) [reset = 0h]

DDRSS_CTL_97 is shown in Figure 8-188 and described in Table 8-384.

Return to Summary Table.

Table 8-383 DDRSS_CTL_97 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0184h
Figure 8-188 DDRSS_CTL_97 Register
31302928272625242322212019181716
UPD_CTRLUPD_TIMEOUT_F1
R/W-0h
1514131211109876543210
UPD_CTRLUPD_HIGH_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-384 DDRSS_CTL_97 Register Field Descriptions
BitFieldTypeResetDescription
31-16UPD_CTRLUPD_TIMEOUT_F1R/W0h

DFI control update number of long counts until the timeout is asserted for frequency copy 1.

15-0UPD_CTRLUPD_HIGH_THRESHOLD_F1R/W0h

DFI control update number of long counts until the high priority request is asserted for frequency copy 1.

2.5.2.97 DDRSS_CTL_98 Register (Offset = 188h) [reset = 0h]

DDRSS_CTL_98 is shown in Figure 8-189 and described in Table 8-386.

Return to Summary Table.

Table 8-385 DDRSS_CTL_98 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0188h
Figure 8-189 DDRSS_CTL_98 Register
31302928272625242322212019181716
UPD_PHYUPD_DFI_PROMOTE_THRESHOLD_F1
R/W-0h
1514131211109876543210
UPD_CTRLUPD_SW_PROMOTE_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-386 DDRSS_CTL_98 Register Field Descriptions
BitFieldTypeResetDescription
31-16UPD_PHYUPD_DFI_PROMOTE_THRESHOLD_F1R/W0h

DFI PHY update DFI promotion number of long counts until the high priority request is asserted for frequency copy 1.

15-0UPD_CTRLUPD_SW_PROMOTE_THRESHOLD_F1R/W0h

DFI control update SW promotion number of long counts until the high priority request is asserted for frequency copy 1.

2.5.2.98 DDRSS_CTL_99 Register (Offset = 18Ch) [reset = 0h]

DDRSS_CTL_99 is shown in Figure 8-190 and described in Table 8-388.

Return to Summary Table.

Table 8-387 DDRSS_CTL_99 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 018Ch
Figure 8-190 DDRSS_CTL_99 Register
31302928272625242322212019181716
UPD_CTRLUPD_HIGH_THRESHOLD_F2
R/W-0h
1514131211109876543210
UPD_CTRLUPD_NORM_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-388 DDRSS_CTL_99 Register Field Descriptions
BitFieldTypeResetDescription
31-16UPD_CTRLUPD_HIGH_THRESHOLD_F2R/W0h

DFI control update number of long counts until the high priority request is asserted for frequency copy 2.

15-0UPD_CTRLUPD_NORM_THRESHOLD_F2R/W0h

DFI control update number of long counts until the normal priority request is asserted for frequency copy 2.

2.5.2.99 DDRSS_CTL_100 Register (Offset = 190h) [reset = 0h]

DDRSS_CTL_100 is shown in Figure 8-191 and described in Table 8-390.

Return to Summary Table.

Table 8-389 DDRSS_CTL_100 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0190h
Figure 8-191 DDRSS_CTL_100 Register
31302928272625242322212019181716
UPD_CTRLUPD_SW_PROMOTE_THRESHOLD_F2
R/W-0h
1514131211109876543210
UPD_CTRLUPD_TIMEOUT_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-390 DDRSS_CTL_100 Register Field Descriptions
BitFieldTypeResetDescription
31-16UPD_CTRLUPD_SW_PROMOTE_THRESHOLD_F2R/W0h

DFI control update SW promotion number of long counts until the high priority request is asserted for frequency copy 2.

15-0UPD_CTRLUPD_TIMEOUT_F2R/W0h

DFI control update number of long counts until the timeout is asserted for frequency copy 2.

2.5.2.100 DDRSS_CTL_101 Register (Offset = 194h) [reset = X]

DDRSS_CTL_101 is shown in Figure 8-192 and described in Table 8-392.

Return to Summary Table.

Table 8-391 DDRSS_CTL_101 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0194h
Figure 8-192 DDRSS_CTL_101 Register
31302928272625242322212019181716
RESERVED
R/W-X
1514131211109876543210
UPD_PHYUPD_DFI_PROMOTE_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-392 DDRSS_CTL_101 Register Field Descriptions
BitFieldTypeResetDescription
31-16RESERVEDR/WX
15-0UPD_PHYUPD_DFI_PROMOTE_THRESHOLD_F2R/W0h

DFI PHY update DFI promotion number of long counts until the high priority request is asserted for frequency copy 2.

2.5.2.101 DDRSS_CTL_102 Register (Offset = 198h) [reset = 0h]

DDRSS_CTL_102 is shown in Figure 8-193 and described in Table 8-394.

Return to Summary Table.

Table 8-393 DDRSS_CTL_102 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0198h
Figure 8-193 DDRSS_CTL_102 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYMSTR_MAX_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-394 DDRSS_CTL_102 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYMSTR_MAX_F0R/W0h

Defines the DFI tPHYMSTR_MAX timing parameter (in DFI clocks), the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack, for frequency copy 0.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.102 DDRSS_CTL_103 Register (Offset = 19Ch) [reset = 0h]

DDRSS_CTL_103 is shown in Figure 8-194 and described in Table 8-396.

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Table 8-395 DDRSS_CTL_103 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 019Ch
Figure 8-194 DDRSS_CTL_103 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYMSTR_MAX_TYPE0_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-396 DDRSS_CTL_103 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYMSTR_MAX_TYPE0_F0R/W0h

Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE0 timing parameter (in DFI clocks), the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=0, for frequency copy 0.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.103 DDRSS_CTL_104 Register (Offset = 1A0h) [reset = 0h]

DDRSS_CTL_104 is shown in Figure 8-195 and described in Table 8-398.

Return to Summary Table.

Table 8-397 DDRSS_CTL_104 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01A0h
Figure 8-195 DDRSS_CTL_104 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYMSTR_MAX_TYPE1_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-398 DDRSS_CTL_104 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYMSTR_MAX_TYPE1_F0R/W0h

Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE1 timing parameter (in DFI clocks), the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=1, for frequency copy 0.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.104 DDRSS_CTL_105 Register (Offset = 1A4h) [reset = 0h]

DDRSS_CTL_105 is shown in Figure 8-196 and described in Table 8-400.

Return to Summary Table.

Table 8-399 DDRSS_CTL_105 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01A4h
Figure 8-196 DDRSS_CTL_105 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYMSTR_MAX_TYPE2_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-400 DDRSS_CTL_105 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYMSTR_MAX_TYPE2_F0R/W0h

Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE2 timing parameter (in DFI clocks), the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=2, for frequency copy 0.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.105 DDRSS_CTL_106 Register (Offset = 1A8h) [reset = 0h]

DDRSS_CTL_106 is shown in Figure 8-197 and described in Table 8-402.

Return to Summary Table.

Table 8-401 DDRSS_CTL_106 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01A8h
Figure 8-197 DDRSS_CTL_106 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYMSTR_MAX_TYPE3_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-402 DDRSS_CTL_106 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYMSTR_MAX_TYPE3_F0R/W0h

Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE3 timing parameter (in DFI clocks), the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=3, for frequency copy 0.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.106 DDRSS_CTL_107 Register (Offset = 1ACh) [reset = X]

DDRSS_CTL_107 is shown in Figure 8-198 and described in Table 8-404.

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Table 8-403 DDRSS_CTL_107 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01ACh
Figure 8-198 DDRSS_CTL_107 Register
31302928272625242322212019181716
RESERVED
R/W-X
1514131211109876543210
PHYMSTR_DFI4_PROMOTE_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-404 DDRSS_CTL_107 Register Field Descriptions
BitFieldTypeResetDescription
31-16RESERVEDR/WX
15-0PHYMSTR_DFI4_PROMOTE_THRESHOLD_F0R/W0h

Defines the DFI(4.0 and 4.0v2) PHY master request promotion number of regular (not long) counts until the high priority request is asserted for frequency copy 0.

2.5.2.107 DDRSS_CTL_108 Register (Offset = 1B0h) [reset = X]

DDRSS_CTL_108 is shown in Figure 8-199 and described in Table 8-406.

Return to Summary Table.

Table 8-405 DDRSS_CTL_108 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01B0h
Figure 8-199 DDRSS_CTL_108 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTDFI_PHYMSTR_RESP_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-406 DDRSS_CTL_108 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-0TDFI_PHYMSTR_RESP_F0R/W0h

Defines the DFI tPHYMSTR_RESP timing parameter (in DFI clocks), the maximum cycles between a dfi_phymstr_req assertion and a dfi_phymstr_ack assertion, for frequency copy 0.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (1) to be set to 1 in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.108 DDRSS_CTL_109 Register (Offset = 1B4h) [reset = 0h]

DDRSS_CTL_109 is shown in Figure 8-200 and described in Table 8-408.

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Table 8-407 DDRSS_CTL_109 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01B4h
Figure 8-200 DDRSS_CTL_109 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYMSTR_MAX_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-408 DDRSS_CTL_109 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYMSTR_MAX_F1R/W0h

Defines the DFI tPHYMSTR_MAX timing parameter (in DFI clocks), the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack, for frequency copy 1.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.109 DDRSS_CTL_110 Register (Offset = 1B8h) [reset = 0h]

DDRSS_CTL_110 is shown in Figure 8-201 and described in Table 8-410.

Return to Summary Table.

Table 8-409 DDRSS_CTL_110 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01B8h
Figure 8-201 DDRSS_CTL_110 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYMSTR_MAX_TYPE0_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-410 DDRSS_CTL_110 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYMSTR_MAX_TYPE0_F1R/W0h

Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE0 timing parameter (in DFI clocks), the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=0, for frequency copy 1.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.110 DDRSS_CTL_111 Register (Offset = 1BCh) [reset = 0h]

DDRSS_CTL_111 is shown in Figure 8-202 and described in Table 8-412.

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Table 8-411 DDRSS_CTL_111 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01BCh
Figure 8-202 DDRSS_CTL_111 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYMSTR_MAX_TYPE1_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-412 DDRSS_CTL_111 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYMSTR_MAX_TYPE1_F1R/W0h

Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE1 timing parameter (in DFI clocks), the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=1, for frequency copy 1.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.111 DDRSS_CTL_112 Register (Offset = 1C0h) [reset = 0h]

DDRSS_CTL_112 is shown in Figure 8-203 and described in Table 8-414.

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Table 8-413 DDRSS_CTL_112 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01C0h
Figure 8-203 DDRSS_CTL_112 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYMSTR_MAX_TYPE2_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-414 DDRSS_CTL_112 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYMSTR_MAX_TYPE2_F1R/W0h

Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE2 timing parameter (in DFI clocks), the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=2, for frequency copy 1.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.112 DDRSS_CTL_113 Register (Offset = 1C4h) [reset = 0h]

DDRSS_CTL_113 is shown in Figure 8-204 and described in Table 8-416.

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Table 8-415 DDRSS_CTL_113 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01C4h
Figure 8-204 DDRSS_CTL_113 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYMSTR_MAX_TYPE3_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-416 DDRSS_CTL_113 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYMSTR_MAX_TYPE3_F1R/W0h

Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE3 timing parameter (in DFI clocks), the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=3, for frequency copy 1.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.113 DDRSS_CTL_114 Register (Offset = 1C8h) [reset = X]

DDRSS_CTL_114 is shown in Figure 8-205 and described in Table 8-418.

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Table 8-417 DDRSS_CTL_114 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01C8h
Figure 8-205 DDRSS_CTL_114 Register
31302928272625242322212019181716
RESERVED
R/W-X
1514131211109876543210
PHYMSTR_DFI4_PROMOTE_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-418 DDRSS_CTL_114 Register Field Descriptions
BitFieldTypeResetDescription
31-16RESERVEDR/WX
15-0PHYMSTR_DFI4_PROMOTE_THRESHOLD_F1R/W0h

Defines the DFI(4.0 and 4.0v2) PHY master request promotion number of regular (not long) counts until the high priority request is asserted for frequency copy 1.

2.5.2.114 DDRSS_CTL_115 Register (Offset = 1CCh) [reset = X]

DDRSS_CTL_115 is shown in Figure 8-206 and described in Table 8-420.

Return to Summary Table.

Table 8-419 DDRSS_CTL_115 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01CCh
Figure 8-206 DDRSS_CTL_115 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTDFI_PHYMSTR_RESP_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-420 DDRSS_CTL_115 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-0TDFI_PHYMSTR_RESP_F1R/W0h

Defines the DFI tPHYMSTR_RESP timing parameter (in DFI clocks), the maximum cycles between a dfi_phymstr_req assertion and a dfi_phymstr_ack assertion, for frequency copy 1.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (1) to be set to 1 in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.115 DDRSS_CTL_116 Register (Offset = 1D0h) [reset = 0h]

DDRSS_CTL_116 is shown in Figure 8-207 and described in Table 8-422.

Return to Summary Table.

Table 8-421 DDRSS_CTL_116 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01D0h
Figure 8-207 DDRSS_CTL_116 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYMSTR_MAX_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-422 DDRSS_CTL_116 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYMSTR_MAX_F2R/W0h

Defines the DFI tPHYMSTR_MAX timing parameter (in DFI clocks), the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack, for frequency copy 2.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.116 DDRSS_CTL_117 Register (Offset = 1D4h) [reset = 0h]

DDRSS_CTL_117 is shown in Figure 8-208 and described in Table 8-424.

Return to Summary Table.

Table 8-423 DDRSS_CTL_117 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01D4h
Figure 8-208 DDRSS_CTL_117 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYMSTR_MAX_TYPE0_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-424 DDRSS_CTL_117 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYMSTR_MAX_TYPE0_F2R/W0h

Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE0 timing parameter (in DFI clocks), the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=0, for frequency copy 2.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.117 DDRSS_CTL_118 Register (Offset = 1D8h) [reset = 0h]

DDRSS_CTL_118 is shown in Figure 8-209 and described in Table 8-426.

Return to Summary Table.

Table 8-425 DDRSS_CTL_118 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01D8h
Figure 8-209 DDRSS_CTL_118 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYMSTR_MAX_TYPE1_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-426 DDRSS_CTL_118 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYMSTR_MAX_TYPE1_F2R/W0h

Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE1 timing parameter (in DFI clocks), the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=1, for frequency copy 2.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.118 DDRSS_CTL_119 Register (Offset = 1DCh) [reset = 0h]

DDRSS_CTL_119 is shown in Figure 8-210 and described in Table 8-428.

Return to Summary Table.

Table 8-427 DDRSS_CTL_119 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01DCh
Figure 8-210 DDRSS_CTL_119 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYMSTR_MAX_TYPE2_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-428 DDRSS_CTL_119 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYMSTR_MAX_TYPE2_F2R/W0h

Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE2 timing parameter (in DFI clocks), the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=2, for frequency copy 2.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.119 DDRSS_CTL_120 Register (Offset = 1E0h) [reset = 0h]

DDRSS_CTL_120 is shown in Figure 8-211 and described in Table 8-430.

Return to Summary Table.

Table 8-429 DDRSS_CTL_120 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01E0h
Figure 8-211 DDRSS_CTL_120 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYMSTR_MAX_TYPE3_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-430 DDRSS_CTL_120 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYMSTR_MAX_TYPE3_F2R/W0h

Defines the DFI 4.0v2 tPHYMSTR_MAX_TYPE3 timing parameter (in DFI clocks), the maximum cycles that dfi_phymstr_req can be asserted following the assertion of dfi_phymstr_ack for dfi_phymstr_type=3, for frequency copy 2.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.120 DDRSS_CTL_121 Register (Offset = 1E4h) [reset = X]

DDRSS_CTL_121 is shown in Figure 8-212 and described in Table 8-432.

Return to Summary Table.

Table 8-431 DDRSS_CTL_121 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01E4h
Figure 8-212 DDRSS_CTL_121 Register
31302928272625242322212019181716
RESERVED
R/W-X
1514131211109876543210
PHYMSTR_DFI4_PROMOTE_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-432 DDRSS_CTL_121 Register Field Descriptions
BitFieldTypeResetDescription
31-16RESERVEDR/WX
15-0PHYMSTR_DFI4_PROMOTE_THRESHOLD_F2R/W0h

Defines the DFI(4.0 and 4.0v2) PHY master request promotion number of regular (not long) counts until the high priority request is asserted for frequency copy 2.

2.5.2.121 DDRSS_CTL_122 Register (Offset = 1E8h) [reset = X]

DDRSS_CTL_122 is shown in Figure 8-213 and described in Table 8-434.

Return to Summary Table.

Table 8-433 DDRSS_CTL_122 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01E8h
Figure 8-213 DDRSS_CTL_122 Register
3130292827262524
RESERVEDPHYMSTR_NO_AREF
R/W-XR/W-0h
2322212019181716
RESERVEDTDFI_PHYMSTR_RESP_F2
R/W-XR/W-0h
15141312111098
TDFI_PHYMSTR_RESP_F2
R/W-0h
76543210
TDFI_PHYMSTR_RESP_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-434 DDRSS_CTL_122 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24PHYMSTR_NO_AREFR/W0h

Disables refreshes during the PHY master interface sequence.
Set to 1 to disable.
Refreshes during reset are only supported for DFI 4.0 and this parameter may be set or cleared for DFI 4.0.
For all other DFI versions, this parameter must be set to 1.

23-20RESERVEDR/WX
19-0TDFI_PHYMSTR_RESP_F2R/W0h

Defines the DFI tPHYMSTR_RESP timing parameter (in DFI clocks), the maximum cycles between a dfi_phymstr_req assertion and a dfi_phymstr_ack assertion, for frequency copy 2.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (1) to be set to 1 in the PHYMSTR_ERROR_STATUS parameter.

2.5.2.122 DDRSS_CTL_123 Register (Offset = 1ECh) [reset = X]

DDRSS_CTL_123 is shown in Figure 8-214 and described in Table 8-436.

Return to Summary Table.

Table 8-435 DDRSS_CTL_123 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01ECh
Figure 8-214 DDRSS_CTL_123 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVEDPHYMSTR_TRAIN_AFTER_INIT_COMPLETE
R/W-XR/W-0h
15141312111098
RESERVEDPHYMSTR_DFI_VERSION_4P0V1
R/W-XR/W-0h
76543210
RESERVEDPHYMSTR_ERROR_STATUS
R/W-XR-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-436 DDRSS_CTL_123 Register Field Descriptions
BitFieldTypeResetDescription
31-17RESERVEDR/WX
16PHYMSTR_TRAIN_AFTER_INIT_COMPLETER/W0h

Defines how the PHY will use the PHY Master Interface for training.
Clear to 0 to perform training without the PHY Master Interface, or set to 1 to use the PHY Master Interface to gain control over the DFI bus after the dfi_init_complete signal assertion for the initial training.
Default is cleared to 0.

15-9RESERVEDR/WX
8PHYMSTR_DFI_VERSION_4P0V1R/W0h

Defines the version of the DFI 4.0 specification supported.
Clear to 0 for DFI 4.0 version 2 PHY Master Interface, or set to 1 for DFI 4.0 version 1 PHY Master Interface.
Default is cleared to 0 for version 2.

7-2RESERVEDR/WX
1-0PHYMSTR_ERROR_STATUSR0h

Identifies the source of any DFI PHY Master Interface errors.
Value of 1 indicates a timing violation of the associated timing parameter.
Bit (0) set indicates a TDFI_PHYMSTR_MAX or TDFI_PHYMSTR_TYPEn_MAX parmaeter violation and bit (1) set indicates a TDFI_PHYMSTR_RESP parameter violation.
READ-ONLY

2.5.2.123 DDRSS_CTL_124 Register (Offset = 1F0h) [reset = 0h]

DDRSS_CTL_124 is shown in Figure 8-215 and described in Table 8-438.

Return to Summary Table.

Table 8-437 DDRSS_CTL_124 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01F0h
Figure 8-215 DDRSS_CTL_124 Register
31302928272625242322212019181716
MRR_TEMPCHK_HIGH_THRESHOLD_F0
R/W-0h
1514131211109876543210
MRR_TEMPCHK_NORM_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-438 DDRSS_CTL_124 Register Field Descriptions
BitFieldTypeResetDescription
31-16MRR_TEMPCHK_HIGH_THRESHOLD_F0R/W0h

MRR temp check number of long counts until the high priority request is asserted for frequency copy 0.

15-0MRR_TEMPCHK_NORM_THRESHOLD_F0R/W0h

MRR temp check number of long counts until the normal priority request is asserted for frequency copy 0.

2.5.2.124 DDRSS_CTL_125 Register (Offset = 1F4h) [reset = 0h]

DDRSS_CTL_125 is shown in Figure 8-216 and described in Table 8-440.

Return to Summary Table.

Table 8-439 DDRSS_CTL_125 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01F4h
Figure 8-216 DDRSS_CTL_125 Register
31302928272625242322212019181716
MRR_TEMPCHK_NORM_THRESHOLD_F1
R/W-0h
1514131211109876543210
MRR_TEMPCHK_TIMEOUT_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-440 DDRSS_CTL_125 Register Field Descriptions
BitFieldTypeResetDescription
31-16MRR_TEMPCHK_NORM_THRESHOLD_F1R/W0h

MRR temp check number of long counts until the normal priority request is asserted for frequency copy 1.

15-0MRR_TEMPCHK_TIMEOUT_F0R/W0h

MRR temp check number of long counts until the timeout is asserted for frequency copy 0.

2.5.2.125 DDRSS_CTL_126 Register (Offset = 1F8h) [reset = 0h]

DDRSS_CTL_126 is shown in Figure 8-217 and described in Table 8-442.

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Table 8-441 DDRSS_CTL_126 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01F8h
Figure 8-217 DDRSS_CTL_126 Register
31302928272625242322212019181716
MRR_TEMPCHK_TIMEOUT_F1
R/W-0h
1514131211109876543210
MRR_TEMPCHK_HIGH_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-442 DDRSS_CTL_126 Register Field Descriptions
BitFieldTypeResetDescription
31-16MRR_TEMPCHK_TIMEOUT_F1R/W0h

MRR temp check number of long counts until the timeout is asserted for frequency copy 1.

15-0MRR_TEMPCHK_HIGH_THRESHOLD_F1R/W0h

MRR temp check number of long counts until the high priority request is asserted for frequency copy 1.

2.5.2.126 DDRSS_CTL_127 Register (Offset = 1FCh) [reset = 0h]

DDRSS_CTL_127 is shown in Figure 8-218 and described in Table 8-444.

Return to Summary Table.

Table 8-443 DDRSS_CTL_127 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 01FCh
Figure 8-218 DDRSS_CTL_127 Register
31302928272625242322212019181716
MRR_TEMPCHK_HIGH_THRESHOLD_F2
R/W-0h
1514131211109876543210
MRR_TEMPCHK_NORM_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-444 DDRSS_CTL_127 Register Field Descriptions
BitFieldTypeResetDescription
31-16MRR_TEMPCHK_HIGH_THRESHOLD_F2R/W0h

MRR temp check number of long counts until the high priority request is asserted for frequency copy 2.

15-0MRR_TEMPCHK_NORM_THRESHOLD_F2R/W0h

MRR temp check number of long counts until the normal priority request is asserted for frequency copy 2.

2.5.2.127 DDRSS_CTL_128 Register (Offset = 200h) [reset = X]

DDRSS_CTL_128 is shown in Figure 8-219 and described in Table 8-446.

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Table 8-445 DDRSS_CTL_128 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0200h
Figure 8-219 DDRSS_CTL_128 Register
3130292827262524
RESERVEDPPR_COMMAND
R/W-XW-0h
2322212019181716
RESERVEDPPR_CONTROL
R/W-XR/W-0h
15141312111098
MRR_TEMPCHK_TIMEOUT_F2
R/W-0h
76543210
MRR_TEMPCHK_TIMEOUT_F2
R/W-0h
LEGEND: R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-446 DDRSS_CTL_128 Register Field Descriptions
BitFieldTypeResetDescription
31-27RESERVEDR/WX
26-24PPR_COMMANDW0h

Specifies the type of PPR command.
Program to 1 for pre-charge all, program to 2 for MRW, program to 3 for activate, or program to 5 for write.
All other values are reserved.
WRITE-ONLY

23-17RESERVEDR/WX
16PPR_CONTROLR/W0h

Enables the post-package repair feature.
Set to 1 to enable.
This parameter may only be programmed before initialization begins.

15-0MRR_TEMPCHK_TIMEOUT_F2R/W0h

MRR temp check number of long counts until the timeout is asserted for frequency copy 2.

2.5.2.128 DDRSS_CTL_129 Register (Offset = 204h) [reset = X]

DDRSS_CTL_129 is shown in Figure 8-220 and described in Table 8-448.

Return to Summary Table.

Table 8-447 DDRSS_CTL_129 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0204h
Figure 8-220 DDRSS_CTL_129 Register
31302928272625242322212019181716
RESERVEDPPR_ROW_ADDRESS
R/W-XR/W-0h
1514131211109876543210
PPR_ROW_ADDRESSPPR_COMMAND_MRW
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-448 DDRSS_CTL_129 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24-8PPR_ROW_ADDRESSR/W0h

Specifies the encoded row address to be repaired.

7-0PPR_COMMAND_MRWR/W0h

Specifies the mode register to be used.
Clear to 0 for MRW0 or program to 4 for MRW4.
All other values are reserved.

2.5.2.129 DDRSS_CTL_130 Register (Offset = 208h) [reset = X]

DDRSS_CTL_130 is shown in Figure 8-221 and described in Table 8-450.

Return to Summary Table.

Table 8-449 DDRSS_CTL_130 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0208h
Figure 8-221 DDRSS_CTL_130 Register
3130292827262524
RESERVEDFM_OVRIDE_CONTROL
R/W-XR/W-0h
2322212019181716
RESERVEDPPR_STATUS
R/W-XR-0h
15141312111098
RESERVEDPPR_CS_ADDRESS
R/W-XR/W-0h
76543210
RESERVEDPPR_BANK_ADDRESS
R/W-XR/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-450 DDRSS_CTL_130 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24FM_OVRIDE_CONTROLR/W0h

Enables the FM Override feature.
Set to 1 to enable.

23-18RESERVEDR/WX
17-16PPR_STATUSR0h

Reports the status of the PPR operation.
Bit (0) set indicates that PPR operations are now allowed and bit (1) set indicates if the last PPR command is complete.
READ-ONLY

15-9RESERVEDR/WX
8PPR_CS_ADDRESSR/W0h

Specifies the chip select for the row to be repaired.

7-3RESERVEDR/WX
2-0PPR_BANK_ADDRESSR/W0h

Specifies the bank for the row to be repaired.

2.5.2.130 DDRSS_CTL_131 Register (Offset = 20Ch) [reset = X]

DDRSS_CTL_131 is shown in Figure 8-222 and described in Table 8-452.

Return to Summary Table.

Table 8-451 DDRSS_CTL_131 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 020Ch
Figure 8-222 DDRSS_CTL_131 Register
3130292827262524
CKSRE_F1
R/W-0h
2322212019181716
CKSRX_F0
R/W-0h
15141312111098
CKSRE_F0
R/W-0h
76543210
RESERVEDLOWPOWER_REFRESH_ENABLE
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-452 DDRSS_CTL_131 Register Field Descriptions
BitFieldTypeResetDescription
31-24CKSRE_F1R/W0h

Clock hold delay on self-refresh entry for frequency copy 1.

23-16CKSRX_F0R/W0h

Clock stable delay on self-refresh exit for frequency copy 0.

15-8CKSRE_F0R/W0h

Clock hold delay on self-refresh entry for frequency copy 0.

7-2RESERVEDR/WX
1-0LOWPOWER_REFRESH_ENABLER/W0h

Enable refreshes while in low power mode.
Bit (0) controls cs0, bit (1) controls cs1, etc.
Set each bit to 1 to disable.

2.5.2.131 DDRSS_CTL_132 Register (Offset = 210h) [reset = X]

DDRSS_CTL_132 is shown in Figure 8-223 and described in Table 8-454.

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Table 8-453 DDRSS_CTL_132 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0210h
Figure 8-223 DDRSS_CTL_132 Register
313029282726252423222120191817161514131211109876543210
RESERVEDLP_CMDCKSRX_F2CKSRE_F2CKSRX_F1
R/W-XW-0hR/W-0hR/W-0hR/W-0h
LEGEND: R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-454 DDRSS_CTL_132 Register Field Descriptions
BitFieldTypeResetDescription
31RESERVEDR/WX
30-24LP_CMDW0h

Low power software command request interface.
Bit (0) controls exit, bit (1) controls entry, bits (
4:2) define the low power state, bit (5) controls memory clock gating, bit (6) controls controller clock gating, and bit (7) controls lock.
WRITE-ONLY

23-16CKSRX_F2R/W0h

Clock stable delay on self-refresh exit for frequency copy 2.

15-8CKSRE_F2R/W0h

Clock hold delay on self-refresh entry for frequency copy 2.

7-0CKSRX_F1R/W0h

Clock stable delay on self-refresh exit for frequency copy 1.

2.5.2.132 DDRSS_CTL_133 Register (Offset = 214h) [reset = X]

DDRSS_CTL_133 is shown in Figure 8-224 and described in Table 8-456.

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Table 8-455 DDRSS_CTL_133 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0214h
Figure 8-224 DDRSS_CTL_133 Register
3130292827262524
RESERVEDLPI_SR_LONG_MCCLK_GATE_WAKEUP_F0
R/W-XR/W-0h
2322212019181716
RESERVEDLPI_SR_LONG_WAKEUP_F0
R/W-XR/W-0h
15141312111098
RESERVEDLPI_SR_SHORT_WAKEUP_F0
R/W-XR/W-0h
76543210
RESERVEDLPI_CTRL_IDLE_WAKEUP_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-456 DDRSS_CTL_133 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24LPI_SR_LONG_MCCLK_GATE_WAKEUP_F0R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in the self-refresh long with memory and controller clock gating state, for frequency copy 0.

23-20RESERVEDR/WX
19-16LPI_SR_LONG_WAKEUP_F0R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in the self-refresh long state (with or without memory clock gating) for frequency copy 0.

15-12RESERVEDR/WX
11-8LPI_SR_SHORT_WAKEUP_F0R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when LPDDR4 memory is in the self-refresh short state (with or without memory clock gating) for frequency copy 0.
For LPDDR4, SR_SHORT is used to send few commands so this wakeup time must be cleared to ZERO and no LPI request needs to be asserted.

7-4RESERVEDR/WX
3-0LPI_CTRL_IDLE_WAKEUP_F0R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when controller is idle for frequency copy 0.

2.5.2.133 DDRSS_CTL_134 Register (Offset = 218h) [reset = X]

DDRSS_CTL_134 is shown in Figure 8-225 and described in Table 8-458.

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Table 8-457 DDRSS_CTL_134 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0218h
Figure 8-225 DDRSS_CTL_134 Register
3130292827262524
RESERVEDLPI_SRPD_LONG_MCCLK_GATE_WAKEUP_F0
R/W-XR/W-0h
2322212019181716
RESERVEDLPI_SRPD_LONG_WAKEUP_F0
R/W-XR/W-0h
15141312111098
RESERVEDLPI_SRPD_SHORT_WAKEUP_F0
R/W-XR/W-0h
76543210
RESERVEDLPI_PD_WAKEUP_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-458 DDRSS_CTL_134 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24LPI_SRPD_LONG_MCCLK_GATE_WAKEUP_F0R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in the self-refresh power-down long with memory and controller clock gating state, for frequency copy 0.

23-20RESERVEDR/WX
19-16LPI_SRPD_LONG_WAKEUP_F0R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in the self-refresh power-down long state (with or without memory clock gating), for frequency copy 0.

15-12RESERVEDR/WX
11-8LPI_SRPD_SHORT_WAKEUP_F0R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in the self-refresh power-down short state (with or without memory clock gating), for frequency copy 0.

7-4RESERVEDR/WX
3-0LPI_PD_WAKEUP_F0R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in any of the power-down states (with or without memory clock gating) for frequency copy 0.

2.5.2.134 DDRSS_CTL_135 Register (Offset = 21Ch) [reset = X]

DDRSS_CTL_135 is shown in Figure 8-226 and described in Table 8-460.

Return to Summary Table.

Table 8-459 DDRSS_CTL_135 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 021Ch
Figure 8-226 DDRSS_CTL_135 Register
3130292827262524
RESERVEDLPI_SR_LONG_WAKEUP_F1
R/W-XR/W-0h
2322212019181716
RESERVEDLPI_SR_SHORT_WAKEUP_F1
R/W-XR/W-0h
15141312111098
RESERVEDLPI_CTRL_IDLE_WAKEUP_F1
R/W-XR/W-0h
76543210
RESERVEDLPI_TIMER_WAKEUP_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-460 DDRSS_CTL_135 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24LPI_SR_LONG_WAKEUP_F1R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in the self-refresh long state (with or without memory clock gating) for frequency copy 1.

23-20RESERVEDR/WX
19-16LPI_SR_SHORT_WAKEUP_F1R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when LPDDR4 memory is in the self-refresh short state (with or without memory clock gating) for frequency copy 1.
For LPDDR4, SR_SHORT is used to send few commands so this wakeup time must be cleared to ZERO and no LPI request needs to be asserted.

15-12RESERVEDR/WX
11-8LPI_CTRL_IDLE_WAKEUP_F1R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when controller is idle for frequency copy 1.

7-4RESERVEDR/WX
3-0LPI_TIMER_WAKEUP_F0R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when the LPI timer expires for frequency copy 0.

2.5.2.135 DDRSS_CTL_136 Register (Offset = 220h) [reset = X]

DDRSS_CTL_136 is shown in Figure 8-227 and described in Table 8-462.

Return to Summary Table.

Table 8-461 DDRSS_CTL_136 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0220h
Figure 8-227 DDRSS_CTL_136 Register
3130292827262524
RESERVEDLPI_SRPD_LONG_WAKEUP_F1
R/W-XR/W-0h
2322212019181716
RESERVEDLPI_SRPD_SHORT_WAKEUP_F1
R/W-XR/W-0h
15141312111098
RESERVEDLPI_PD_WAKEUP_F1
R/W-XR/W-0h
76543210
RESERVEDLPI_SR_LONG_MCCLK_GATE_WAKEUP_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-462 DDRSS_CTL_136 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24LPI_SRPD_LONG_WAKEUP_F1R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in the self-refresh power-down long state (with or without memory clock gating), for frequency copy 1.

23-20RESERVEDR/WX
19-16LPI_SRPD_SHORT_WAKEUP_F1R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in the self-refresh power-down short state (with or without memory clock gating), for frequency copy 1.

15-12RESERVEDR/WX
11-8LPI_PD_WAKEUP_F1R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in any of the power-down states (with or without memory clock gating) for frequency copy 1.

7-4RESERVEDR/WX
3-0LPI_SR_LONG_MCCLK_GATE_WAKEUP_F1R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in the self-refresh long with memory and controller clock gating state, for frequency copy 1.

2.5.2.136 DDRSS_CTL_137 Register (Offset = 224h) [reset = X]

DDRSS_CTL_137 is shown in Figure 8-228 and described in Table 8-464.

Return to Summary Table.

Table 8-463 DDRSS_CTL_137 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0224h
Figure 8-228 DDRSS_CTL_137 Register
3130292827262524
RESERVEDLPI_SR_SHORT_WAKEUP_F2
R/W-XR/W-0h
2322212019181716
RESERVEDLPI_CTRL_IDLE_WAKEUP_F2
R/W-XR/W-0h
15141312111098
RESERVEDLPI_TIMER_WAKEUP_F1
R/W-XR/W-0h
76543210
RESERVEDLPI_SRPD_LONG_MCCLK_GATE_WAKEUP_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-464 DDRSS_CTL_137 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24LPI_SR_SHORT_WAKEUP_F2R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when LPDDR4 memory is in the self-refresh short state (with or without memory clock gating) for frequency copy 2.
For LPDDR4, SR_SHORT is used to send few commands so this wakeup time must be cleared to ZERO and no LPI request needs to be asserted.

23-20RESERVEDR/WX
19-16LPI_CTRL_IDLE_WAKEUP_F2R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when controller is idle for frequency copy 2.

15-12RESERVEDR/WX
11-8LPI_TIMER_WAKEUP_F1R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when the LPI timer expires for frequency copy 1.

7-4RESERVEDR/WX
3-0LPI_SRPD_LONG_MCCLK_GATE_WAKEUP_F1R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in the self-refresh power-down long with memory and controller clock gating state, for frequency copy 1.

2.5.2.137 DDRSS_CTL_138 Register (Offset = 228h) [reset = X]

DDRSS_CTL_138 is shown in Figure 8-229 and described in Table 8-466.

Return to Summary Table.

Table 8-465 DDRSS_CTL_138 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0228h
Figure 8-229 DDRSS_CTL_138 Register
3130292827262524
RESERVEDLPI_SRPD_SHORT_WAKEUP_F2
R/W-XR/W-0h
2322212019181716
RESERVEDLPI_PD_WAKEUP_F2
R/W-XR/W-0h
15141312111098
RESERVEDLPI_SR_LONG_MCCLK_GATE_WAKEUP_F2
R/W-XR/W-0h
76543210
RESERVEDLPI_SR_LONG_WAKEUP_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-466 DDRSS_CTL_138 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24LPI_SRPD_SHORT_WAKEUP_F2R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in the self-refresh power-down short state (with or without memory clock gating), for frequency copy 2.

23-20RESERVEDR/WX
19-16LPI_PD_WAKEUP_F2R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in any of the power-down states (with or without memory clock gating) for frequency copy 2.

15-12RESERVEDR/WX
11-8LPI_SR_LONG_MCCLK_GATE_WAKEUP_F2R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in the self-refresh long with memory and controller clock gating state, for frequency copy 2.

7-4RESERVEDR/WX
3-0LPI_SR_LONG_WAKEUP_F2R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in the self-refresh long state (with or without memory clock gating) for frequency copy 2.

2.5.2.138 DDRSS_CTL_139 Register (Offset = 22Ch) [reset = X]

DDRSS_CTL_139 is shown in Figure 8-230 and described in Table 8-468.

Return to Summary Table.

Table 8-467 DDRSS_CTL_139 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 022Ch
Figure 8-230 DDRSS_CTL_139 Register
3130292827262524
RESERVEDLPI_WAKEUP_EN
R/W-XR/W-0h
2322212019181716
RESERVEDLPI_TIMER_WAKEUP_F2
R/W-XR/W-0h
15141312111098
RESERVEDLPI_SRPD_LONG_MCCLK_GATE_WAKEUP_F2
R/W-XR/W-0h
76543210
RESERVEDLPI_SRPD_LONG_WAKEUP_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-468 DDRSS_CTL_139 Register Field Descriptions
BitFieldTypeResetDescription
31-30RESERVEDR/WX
29-24LPI_WAKEUP_ENR/W0h

Enables the various low power state wakeup parameters for LPI request uses.
Bit (0) enables controller idle wakeup, bit (1) enables power-down wakeup, bit (2) enables either self-refresh short, self-refresh long with or without mem clk gating, either self-refresh power-down short, or self-refresh power-down long with or without mem clk gating, bit (3) enables self-refresh long with mem and ctlr clk gating or self-refresh power-down long with mem and ctlr clk gating, bit (4) enables the LPI timer expiry wakeup, and bit (5) is reserved.
Set each bit to 1 to enable the respective LP_WAKEUP value for the LPI request.

23-20RESERVEDR/WX
19-16LPI_TIMER_WAKEUP_F2R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when the LPI timer expires for frequency copy 2.

15-12RESERVEDR/WX
11-8LPI_SRPD_LONG_MCCLK_GATE_WAKEUP_F2R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in the self-refresh power-down long with memory and controller clock gating state, for frequency copy 2.

7-4RESERVEDR/WX
3-0LPI_SRPD_LONG_WAKEUP_F2R/W0h

Defines the DFI tLP_WAKEUP timing parameter (in DFI clocks) to be driven when memory is in the self-refresh power-down long state (with or without memory clock gating), for frequency copy 2.

2.5.2.139 DDRSS_CTL_140 Register (Offset = 230h) [reset = X]

DDRSS_CTL_140 is shown in Figure 8-231 and described in Table 8-470.

Return to Summary Table.

Table 8-469 DDRSS_CTL_140 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0230h
Figure 8-231 DDRSS_CTL_140 Register
3130292827262524
RESERVEDTDFI_LP_RESP
R/W-XR/W-0h
2322212019181716
RESERVEDLPI_WAKEUP_TIMEOUT
R/W-XR/W-0h
15141312111098
LPI_WAKEUP_TIMEOUT
R/W-0h
76543210
RESERVEDLPI_CTRL_REQ_EN
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-470 DDRSS_CTL_140 Register Field Descriptions
BitFieldTypeResetDescription
31-27RESERVEDR/WX
26-24TDFI_LP_RESPR/W0h

Defines the DFI tLP_RESP timing parameter (in DFI clocks), the maximum cycles between a dfi_lp_req assertion and a dfi_lp_ack assertion.

23-20RESERVEDR/WX
19-8LPI_WAKEUP_TIMEOUTR/W0h

Defines the LPI timeout time, the maximum cycles between a dfi_lp_req de-assertion and a dfi_lp_ack de-assertion.
If this value is exceeded, an interrupt will occur.

7-1RESERVEDR/WX
0LPI_CTRL_REQ_ENR/W0h

Enables the dfi_lpi_ctrl_req signal for the LPI.
This signal is only relevant for DFI versions 3.1 and beyond.
Set to 1 to enable or clear to 0 to disable.

2.5.2.140 DDRSS_CTL_141 Register (Offset = 234h) [reset = X]

DDRSS_CTL_141 is shown in Figure 8-232 and described in Table 8-472.

Return to Summary Table.

Table 8-471 DDRSS_CTL_141 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0234h
Figure 8-232 DDRSS_CTL_141 Register
3130292827262524
RESERVEDLP_AUTO_EXIT_EN
R/W-XR/W-0h
2322212019181716
RESERVEDLP_AUTO_ENTRY_EN
R/W-XR/W-0h
15141312111098
RESERVEDLP_STATE_CS1
R/W-XR-40h
76543210
RESERVEDLP_STATE_CS0
R/W-XR-40h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-472 DDRSS_CTL_141 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24LP_AUTO_EXIT_ENR/W0h

Enable auto exit from each of the low power states when a read or write command enters the command queue.
Bit (0) controls power-down, bit (1) controls self-refresh long or self-refresh power-down long, bit (2) controls self-refresh long with memory and controller clock gating or self-refresh power-down long with memory and controller clock gating, and bit (3) controls self-refresh short or self-refresh power-down short.
Set each bit to 1 to enable.

23-20RESERVEDR/WX
19-16LP_AUTO_ENTRY_ENR/W0h

Enable auto entry into each of the low power states when the associated idle timer expires.
Bit (0) controls power-down, bit (1) controls self-refresh long or self-refresh power-down long, bit (2) controls self-refresh long with memory and controller clock gating or self-refresh power-down long with memory and controller clock gating, and bit (3) controls self-refresh short or self-refresh power-down short.
Set each bit to 1 to enable.

15RESERVEDR/WX
14-8LP_STATE_CS1R40h

Low power state status parameter for chip select 1.
Bits (
5:0) indicate the current low power state and bit (6) set indicates that status bits are valid.
READ-ONLY

7RESERVEDR/WX
6-0LP_STATE_CS0R40h

Low power state status parameter for chip select 0.
Bits (
5:0) indicate the current low power state and bit (6) set indicates that status bits are valid.
READ-ONLY

2.5.2.141 DDRSS_CTL_142 Register (Offset = 238h) [reset = X]

DDRSS_CTL_142 is shown in Figure 8-233 and described in Table 8-474.

Return to Summary Table.

Table 8-473 DDRSS_CTL_142 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0238h
Figure 8-233 DDRSS_CTL_142 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVEDLP_AUTO_PD_IDLE
R/W-XR/W-0h
15141312111098
LP_AUTO_PD_IDLE
R/W-0h
76543210
RESERVEDLP_AUTO_MEM_GATE_EN
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-474 DDRSS_CTL_142 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-8LP_AUTO_PD_IDLER/W0h

Defines the idle time (in controller clocks) until the controller will automatically issue an entry into one of the power-down low power states.

7-3RESERVEDR/WX
2-0LP_AUTO_MEM_GATE_ENR/W0h

Enable memory clock gating when entering a low power state via the auto low power counters.
Bit (0) controls power-down, bit (1) controls self-refresh long or self-refresh power-down long, and bit (2) controls self-refresh short or self-refresh power-down short.
Set each bit to 1 to enable.

2.5.2.142 DDRSS_CTL_143 Register (Offset = 23Ch) [reset = X]

DDRSS_CTL_143 is shown in Figure 8-234 and described in Table 8-476.

Return to Summary Table.

Table 8-475 DDRSS_CTL_143 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 023Ch
Figure 8-234 DDRSS_CTL_143 Register
3130292827262524
LP_AUTO_SR_LONG_MC_GATE_IDLE
R/W-0h
2322212019181716
LP_AUTO_SR_LONG_IDLE
R/W-0h
15141312111098
RESERVEDLP_AUTO_SR_SHORT_IDLE
R/W-XR/W-0h
76543210
LP_AUTO_SR_SHORT_IDLE
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-476 DDRSS_CTL_143 Register Field Descriptions
BitFieldTypeResetDescription
31-24LP_AUTO_SR_LONG_MC_GATE_IDLER/W0h

Defines the idle time (in long counts) until the controller will automatically issue an entry into the self-refresh long with memory and controller clock gating or self-refresh power-down long with memory and controller clock gating low power states.

23-16LP_AUTO_SR_LONG_IDLER/W0h

Defines the idle time (in long counts) until the controller will automatically issue an entry into the self-refresh long or self-refresh power-down long (with or without memory clock gating) low power states.

15-12RESERVEDR/WX
11-0LP_AUTO_SR_SHORT_IDLER/W0h

Defines the idle time (in controller clocks) until the controller will automatically issue an entry into the self-refresh short or self-refresh power-down short (with or without memory clock gating) low power states.

2.5.2.143 DDRSS_CTL_144 Register (Offset = 240h) [reset = 0h]

DDRSS_CTL_144 is shown in Figure 8-235 and described in Table 8-478.

Return to Summary Table.

Table 8-477 DDRSS_CTL_144 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0240h
Figure 8-235 DDRSS_CTL_144 Register
31302928272625242322212019181716
HW_PROMOTE_THRESHOLD_F1
R/W-0h
1514131211109876543210
HW_PROMOTE_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-478 DDRSS_CTL_144 Register Field Descriptions
BitFieldTypeResetDescription
31-16HW_PROMOTE_THRESHOLD_F1R/W0h

HW interface promotion number of long counts until the high priority request is asserted for frequency copy 1.

15-0HW_PROMOTE_THRESHOLD_F0R/W0h

HW interface promotion number of long counts until the high priority request is asserted for frequency copy 0.

2.5.2.144 DDRSS_CTL_145 Register (Offset = 244h) [reset = 0h]

DDRSS_CTL_145 is shown in Figure 8-236 and described in Table 8-480.

Return to Summary Table.

Table 8-479 DDRSS_CTL_145 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0244h
Figure 8-236 DDRSS_CTL_145 Register
31302928272625242322212019181716
LPC_PROMOTE_THRESHOLD_F0
R/W-0h
1514131211109876543210
HW_PROMOTE_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-480 DDRSS_CTL_145 Register Field Descriptions
BitFieldTypeResetDescription
31-16LPC_PROMOTE_THRESHOLD_F0R/W0h

LPC promotion number of long counts until the high priority request is asserted for frequency copy 0.
Applies to SW and auto low power commands.

15-0HW_PROMOTE_THRESHOLD_F2R/W0h

HW interface promotion number of long counts until the high priority request is asserted for frequency copy 2.

2.5.2.145 DDRSS_CTL_146 Register (Offset = 248h) [reset = 0h]

DDRSS_CTL_146 is shown in Figure 8-237 and described in Table 8-482.

Return to Summary Table.

Table 8-481 DDRSS_CTL_146 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0248h
Figure 8-237 DDRSS_CTL_146 Register
31302928272625242322212019181716
LPC_PROMOTE_THRESHOLD_F2
R/W-0h
1514131211109876543210
LPC_PROMOTE_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-482 DDRSS_CTL_146 Register Field Descriptions
BitFieldTypeResetDescription
31-16LPC_PROMOTE_THRESHOLD_F2R/W0h

LPC promotion number of long counts until the high priority request is asserted for frequency copy 2.
Applies to SW and auto low power commands.

15-0LPC_PROMOTE_THRESHOLD_F1R/W0h

LPC promotion number of long counts until the high priority request is asserted for frequency copy 1.
Applies to SW and auto low power commands.

2.5.2.146 DDRSS_CTL_147 Register (Offset = 24Ch) [reset = X]

DDRSS_CTL_147 is shown in Figure 8-238 and described in Table 8-484.

Return to Summary Table.

Table 8-483 DDRSS_CTL_147 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 024Ch
Figure 8-238 DDRSS_CTL_147 Register
3130292827262524
RESERVEDRESERVED
R/W-XR/W-0h
2322212019181716
RESERVEDLPC_SR_PHYMSTR_EN
R/W-XR/W-0h
15141312111098
RESERVEDLPC_SR_PHYUPD_EN
R/W-XR/W-0h
76543210
RESERVEDLPC_SR_CTRLUPD_EN
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-484 DDRSS_CTL_147 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24RESERVEDR/W0h

Reserved

23-17RESERVEDR/WX
16LPC_SR_PHYMSTR_ENR/W0h

Enable LPC to execute a DFI PHY Master request on a self-refresh exit sequence.
Set to 1 to enable.

15-9RESERVEDR/WX
8LPC_SR_PHYUPD_ENR/W0h

Enable LPC to execute a DFI PHY update on a self-refresh exit sequence.
Set to 1 to enable.

7-1RESERVEDR/WX
0LPC_SR_CTRLUPD_ENR/W0h

Enable LPC to execute a DFI control update on a self-refresh exit sequence.
Set to 1 to enable.

2.5.2.147 DDRSS_CTL_148 Register (Offset = 250h) [reset = X]

DDRSS_CTL_148 is shown in Figure 8-239 and described in Table 8-486.

Return to Summary Table.

Table 8-485 DDRSS_CTL_148 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0250h
Figure 8-239 DDRSS_CTL_148 Register
3130292827262524
RESERVEDPCPCS_PD_EXIT_DEPTH
R/W-XR/W-0h
2322212019181716
RESERVEDPCPCS_PD_ENTER_DEPTH
R/W-XR/W-0h
15141312111098
RESERVEDPCPCS_PD_EN
R/W-XR/W-0h
76543210
RESERVEDLPC_SR_ZQ_EN
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-486 DDRSS_CTL_148 Register Field Descriptions
BitFieldTypeResetDescription
31-30RESERVEDR/WX
29-24PCPCS_PD_EXIT_DEPTHR/W0h

Defines the number of entries of the command queue that the PCPCS logic will consider for dynamic power-down exit decode.
A non-zero value limits the decode to a subset of the full command pipeline.

23-22RESERVEDR/WX
21-16PCPCS_PD_ENTER_DEPTHR/W0h

Defines the number of entries of the command queue that the PCPCS logic will consider for dynamic power-down entry decode.
A non-zero value limits the decode to a subset of the full command pipeline.

15-9RESERVEDR/WX
8PCPCS_PD_ENR/W0h

Enable dynamic PCPCS to allow chip selects to dynamically enter and exit power-down.
Set to 1 to enable.

7-1RESERVEDR/WX
0LPC_SR_ZQ_ENR/W0h

Enable LPC to execute a ZQ calibration on a self-refresh exit sequence.
Set to 1 to enable.

2.5.2.148 DDRSS_CTL_149 Register (Offset = 254h) [reset = X]

DDRSS_CTL_149 is shown in Figure 8-240 and described in Table 8-488.

Return to Summary Table.

Table 8-487 DDRSS_CTL_149 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0254h
Figure 8-240 DDRSS_CTL_149 Register
3130292827262524
RESERVEDDFS_ENABLE
R/W-XR/W-0h
2322212019181716
RESERVED
R/W-0h
15141312111098
RESERVEDPCPCS_PD_MASK
R/W-XR/W-0h
76543210
PCPCS_PD_ENTER_TIMER
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-488 DDRSS_CTL_149 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24DFS_ENABLER/W0h

Enable hardware dynamic frequency scaling.
Set to 1 to enable.

23-16RESERVEDR/W0h

Reserved

15-10RESERVEDR/WX
9-8PCPCS_PD_MASKR/W0h

Disables dynamic PCPCS power-down entry/exit for particular chip selects if the PCPCS_PD_EN parameter is set.
Bit (0) controls cs0, bit (1) controls cs1, etc.
Set each bit to 1 to disable the chip select from allowing dynamic PCPCS.

7-0PCPCS_PD_ENTER_TIMERR/W0h

Sets the delay used by dynamic PCPCS from when the decode logic determines that a chip select has no outstanding transactions to when the power-down entry command is issued.
A zero value disables the timer and issues the power-down entry immediately on decode.

2.5.2.149 DDRSS_CTL_150 Register (Offset = 258h) [reset = X]

DDRSS_CTL_150 is shown in Figure 8-241 and described in Table 8-490.

Return to Summary Table.

Table 8-489 DDRSS_CTL_150 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0258h
Figure 8-241 DDRSS_CTL_150 Register
31302928272625242322212019181716
TDFI_INIT_COMPLETE_F0
R/W-0h
1514131211109876543210
RESERVEDTDFI_INIT_START_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-490 DDRSS_CTL_150 Register Field Descriptions
BitFieldTypeResetDescription
31-16TDFI_INIT_COMPLETE_F0R/W0h

Defines the DFI tINIT_COMPLETE timing parameter (in DFI clocks) for frequency copy 0, the maximum cycles between a dfi_init_start de-assertion and a dfi_init_complete assertion from the PHY.

15-10RESERVEDR/WX
9-0TDFI_INIT_START_F0R/W0h

Defines the DFI tINIT_START timing parameter (in DFI clocks) for frequency copy 0, the maximum number of cycles between a dfi_init_start assertion and a dfi_init_complete de-assertion from the PHY.

2.5.2.150 DDRSS_CTL_151 Register (Offset = 25Ch) [reset = X]

DDRSS_CTL_151 is shown in Figure 8-242 and described in Table 8-492.

Return to Summary Table.

Table 8-491 DDRSS_CTL_151 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 025Ch
Figure 8-242 DDRSS_CTL_151 Register
31302928272625242322212019181716
TDFI_INIT_COMPLETE_F1
R/W-0h
1514131211109876543210
RESERVEDTDFI_INIT_START_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-492 DDRSS_CTL_151 Register Field Descriptions
BitFieldTypeResetDescription
31-16TDFI_INIT_COMPLETE_F1R/W0h

Defines the DFI tINIT_COMPLETE timing parameter (in DFI clocks) for frequency copy 1, the maximum cycles between a dfi_init_start de-assertion and a dfi_init_complete assertion from the PHY.

15-10RESERVEDR/WX
9-0TDFI_INIT_START_F1R/W0h

Defines the DFI tINIT_START timing parameter (in DFI clocks) for frequency copy 1, the maximum number of cycles between a dfi_init_start assertion and a dfi_init_complete de-assertion from the PHY.

2.5.2.151 DDRSS_CTL_152 Register (Offset = 260h) [reset = X]

DDRSS_CTL_152 is shown in Figure 8-243 and described in Table 8-494.

Return to Summary Table.

Table 8-493 DDRSS_CTL_152 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0260h
Figure 8-243 DDRSS_CTL_152 Register
31302928272625242322212019181716
TDFI_INIT_COMPLETE_F2
R/W-0h
1514131211109876543210
RESERVEDTDFI_INIT_START_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-494 DDRSS_CTL_152 Register Field Descriptions
BitFieldTypeResetDescription
31-16TDFI_INIT_COMPLETE_F2R/W0h

Defines the DFI tINIT_COMPLETE timing parameter (in DFI clocks) for frequency copy 2, the maximum cycles between a dfi_init_start de-assertion and a dfi_init_complete assertion from the PHY.

15-10RESERVEDR/WX
9-0TDFI_INIT_START_F2R/W0h

Defines the DFI tINIT_START timing parameter (in DFI clocks) for frequency copy 2, the maximum number of cycles between a dfi_init_start assertion and a dfi_init_complete de-assertion from the PHY.

2.5.2.152 DDRSS_CTL_153 Register (Offset = 264h) [reset = X]

DDRSS_CTL_153 is shown in Figure 8-244 and described in Table 8-496.

Return to Summary Table.

Table 8-495 DDRSS_CTL_153 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0264h
Figure 8-244 DDRSS_CTL_153 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVED
R/W-X
15141312111098
RESERVEDDFS_PHY_REG_WRITE_EN
R/W-XR/W-0h
76543210
RESERVEDCURRENT_REG_COPY
R/W-XR-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-496 DDRSS_CTL_153 Register Field Descriptions
BitFieldTypeResetDescription
31-9RESERVEDR/WX
8DFS_PHY_REG_WRITE_ENR/W0h

Enable a register write to the PHY during a frequency change.
Set to 1 to enable.

7-2RESERVEDR/WX
1-0CURRENT_REG_COPYR0h

Indicates the current copy of timing parameters that is in use by the controller.
READ-ONLY

2.5.2.153 DDRSS_CTL_154 Register (Offset = 268h) [reset = 0h]

DDRSS_CTL_154 is shown in Figure 8-245 and described in Table 8-498.

Return to Summary Table.

Table 8-497 DDRSS_CTL_154 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0268h
Figure 8-245 DDRSS_CTL_154 Register
313029282726252423222120191817161514131211109876543210
DFS_PHY_REG_WRITE_ADDR
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-498 DDRSS_CTL_154 Register Field Descriptions
BitFieldTypeResetDescription
31-0DFS_PHY_REG_WRITE_ADDRR/W0h

Register address which will be written during a frequency change.
Must be a PHY register address.

2.5.2.154 DDRSS_CTL_155 Register (Offset = 26Ch) [reset = 0h]

DDRSS_CTL_155 is shown in Figure 8-246 and described in Table 8-500.

Return to Summary Table.

Table 8-499 DDRSS_CTL_155 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 026Ch
Figure 8-246 DDRSS_CTL_155 Register
313029282726252423222120191817161514131211109876543210
DFS_PHY_REG_WRITE_DATA_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-500 DDRSS_CTL_155 Register Field Descriptions
BitFieldTypeResetDescription
31-0DFS_PHY_REG_WRITE_DATA_F0R/W0h

Register data which will be written during a frequency change for frequency copy 0.

2.5.2.155 DDRSS_CTL_156 Register (Offset = 270h) [reset = 0h]

DDRSS_CTL_156 is shown in Figure 8-247 and described in Table 8-502.

Return to Summary Table.

Table 8-501 DDRSS_CTL_156 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0270h
Figure 8-247 DDRSS_CTL_156 Register
313029282726252423222120191817161514131211109876543210
DFS_PHY_REG_WRITE_DATA_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-502 DDRSS_CTL_156 Register Field Descriptions
BitFieldTypeResetDescription
31-0DFS_PHY_REG_WRITE_DATA_F1R/W0h

Register data which will be written during a frequency change for frequency copy 1.

2.5.2.156 DDRSS_CTL_157 Register (Offset = 274h) [reset = 0h]

DDRSS_CTL_157 is shown in Figure 8-248 and described in Table 8-504.

Return to Summary Table.

Table 8-503 DDRSS_CTL_157 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0274h
Figure 8-248 DDRSS_CTL_157 Register
313029282726252423222120191817161514131211109876543210
DFS_PHY_REG_WRITE_DATA_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-504 DDRSS_CTL_157 Register Field Descriptions
BitFieldTypeResetDescription
31-0DFS_PHY_REG_WRITE_DATA_F2R/W0h

Register data which will be written during a frequency change for frequency copy 2.

2.5.2.157 DDRSS_CTL_158 Register (Offset = 278h) [reset = X]

DDRSS_CTL_158 is shown in Figure 8-249 and described in Table 8-506.

Return to Summary Table.

Table 8-505 DDRSS_CTL_158 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0278h
Figure 8-249 DDRSS_CTL_158 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
DFS_PHY_REG_WRITE_WAIT
R/W-0h
15141312111098
DFS_PHY_REG_WRITE_WAIT
R/W-0h
76543210
RESERVEDDFS_PHY_REG_WRITE_MASK
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-506 DDRSS_CTL_158 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-8DFS_PHY_REG_WRITE_WAITR/W0h

Defines the number of DFI PHY clocks that the controller will wait after issuing the register write to the PHY during a frequency change.

7-4RESERVEDR/WX
3-0DFS_PHY_REG_WRITE_MASKR/W0h

Register mask which will be written during a frequency change.

2.5.2.158 DDRSS_CTL_159 Register (Offset = 27Ch) [reset = X]

DDRSS_CTL_159 is shown in Figure 8-250 and described in Table 8-508.

Return to Summary Table.

Table 8-507 DDRSS_CTL_159 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 027Ch
Figure 8-250 DDRSS_CTL_159 Register
313029282726252423222120191817161514131211109876543210
RESERVEDWRITE_MODEREG
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-508 DDRSS_CTL_159 Register Field Descriptions
BitFieldTypeResetDescription
31-27RESERVEDR/WX
26-0WRITE_MODEREGR/W0h

Write memory mode register data to the DRAMs.
Bits (
7:0) define the memory mode register number if bit (23) is set, bits (
15:8) define the chip select if bit (24) is clear, bits (
23:16) define which memory mode register/s to write, bit (24) defines whether all chip selects will be written, and bit (25) triggers the write.

2.5.2.159 DDRSS_CTL_160 Register (Offset = 280h) [reset = X]

DDRSS_CTL_160 is shown in Figure 8-251 and described in Table 8-510.

Return to Summary Table.

Table 8-509 DDRSS_CTL_160 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0280h
Figure 8-251 DDRSS_CTL_160 Register
31302928272625242322212019181716
RESERVEDREAD_MODEREG
R/W-XR/W-0h
1514131211109876543210
READ_MODEREGMRW_STATUS
R/W-0hR-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-510 DDRSS_CTL_160 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24-8READ_MODEREGR/W0h

Read the specified memory mode register from specified chip when start bit set.
Bits (
7:0) define the memory mode register and bits (
15:8) define the chip select.
Set bit (16) to 1 to trigger.

7-0MRW_STATUSR0h

Write memory mode register status.
Bit (0) set indicates a WRITE_MODEREG parameter programming error.
Bit (1) set indicates a PASR error.
Bit (2) is Reserved.
Bit (3) set indicates a self-refresh or deep power-down error.
Bit (4) set indicates that a write to MR3 or MR11 was attempted (WRITE_MODEREG bit (25) was asserted with bit (17) set, or bit (23) was asserted with bits (
7:0) defining MR3 or MR11) during tZQCAL after a ZQ calibration start command.
READ-ONLY

2.5.2.160 DDRSS_CTL_161 Register (Offset = 284h) [reset = 0h]

DDRSS_CTL_161 is shown in Figure 8-252 and described in Table 8-512.

Return to Summary Table.

Table 8-511 DDRSS_CTL_161 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0284h
Figure 8-252 DDRSS_CTL_161 Register
313029282726252423222120191817161514131211109876543210
PERIPHERAL_MRR_DATA_0
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-512 DDRSS_CTL_161 Register Field Descriptions
BitFieldTypeResetDescription
31-0PERIPHERAL_MRR_DATA_0R0h

Data and chip returned from memory mode register read requested by the READ_MODEREG parameter.
Bits (7:0) indicate the read data and bits (15:8) indicate the chip.
READ-ONLY

2.5.2.161 DDRSS_CTL_162 Register (Offset = 288h) [reset = X]

DDRSS_CTL_162 is shown in Figure 8-253 and described in Table 8-514.

Return to Summary Table.

Table 8-513 DDRSS_CTL_162 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0288h
Figure 8-253 DDRSS_CTL_162 Register
31302928272625242322212019181716
RESERVEDAUTO_TEMPCHK_VAL_0
R-XR-0h
1514131211109876543210
AUTO_TEMPCHK_VAL_0PERIPHERAL_MRR_DATA_1
R-0hR-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-514 DDRSS_CTL_162 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDRX
23-8AUTO_TEMPCHK_VAL_0R0h

MR4 data for all devices on chip 0 accessed by automatic MRR commands.
Bits (3:0) correlate to the device on the lower byte, bits (7:4) correlate to the devices on the 2nd byte etc.
Value indicates the OP7, OP2, OP1 and OP0 bits.
READ-ONLY

7-0PERIPHERAL_MRR_DATA_1R0h

Data and chip returned from memory mode register read requested by the READ_MODEREG parameter.
Bits (7:0) indicate the read data and bits (15:8) indicate the chip.
READ-ONLY

2.5.2.162 DDRSS_CTL_163 Register (Offset = 28Ch) [reset = X]

DDRSS_CTL_163 is shown in Figure 8-254 and described in Table 8-516.

Return to Summary Table.

Table 8-515 DDRSS_CTL_163 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 028Ch
Figure 8-254 DDRSS_CTL_163 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVEDDISABLE_UPDATE_TVRCG
R/W-XR/W-0h
15141312111098
AUTO_TEMPCHK_VAL_1
R-0h
76543210
AUTO_TEMPCHK_VAL_1
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-516 DDRSS_CTL_163 Register Field Descriptions
BitFieldTypeResetDescription
31-17RESERVEDR/WX
16DISABLE_UPDATE_TVRCGR/W0h

Bypass changing for TVRCG during a DFS operation.
Set to 1 to skip TVRCG.

15-0AUTO_TEMPCHK_VAL_1R0h

MR4 data for all devices on chip 1 accessed by automatic MRR commands.
Bits (3:0) correlate to the device on the lower byte, bits (7:4) correlate to the devices on the 2nd byte etc.
Value indicates the OP7, OP2, OP1 and OP0 bits.
READ-ONLY

2.5.2.163 DDRSS_CTL_164 Register (Offset = 290h) [reset = X]

DDRSS_CTL_164 is shown in Figure 8-255 and described in Table 8-518.

Return to Summary Table.

Table 8-517 DDRSS_CTL_164 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0290h
Figure 8-255 DDRSS_CTL_164 Register
3130292827262524
RESERVEDTVRCG_ENABLE_F0
R/W-XR/W-0h
2322212019181716
TVRCG_ENABLE_F0
R/W-0h
15141312111098
RESERVED
R/W-X
76543210
RESERVEDMRW_DFS_UPDATE_FRC
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-518 DDRSS_CTL_164 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-16TVRCG_ENABLE_F0R/W0h

JEDEC TVRCG_ENABLE time.

15-2RESERVEDR/WX
1-0MRW_DFS_UPDATE_FRCR/W0h

Defines the frequency register set to use when doing a software MRW with WRITE_MODEREG bit (26).

2.5.2.164 DDRSS_CTL_165 Register (Offset = 294h) [reset = X]

DDRSS_CTL_165 is shown in Figure 8-256 and described in Table 8-520.

Return to Summary Table.

Table 8-519 DDRSS_CTL_165 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0294h
Figure 8-256 DDRSS_CTL_165 Register
31302928272625242322212019181716
RESERVEDTFC_F0
R/W-XR/W-0h
1514131211109876543210
RESERVEDTVRCG_DISABLE_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-520 DDRSS_CTL_165 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-16TFC_F0R/W0h

JEDEC TFC, the frequency set point switching time.

15-10RESERVEDR/WX
9-0TVRCG_DISABLE_F0R/W0h

JEDEC TVRCG_DISABLE time.

2.5.2.165 DDRSS_CTL_166 Register (Offset = 298h) [reset = X]

DDRSS_CTL_166 is shown in Figure 8-257 and described in Table 8-522.

Return to Summary Table.

Table 8-521 DDRSS_CTL_166 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0298h
Figure 8-257 DDRSS_CTL_166 Register
31302928272625242322212019181716
TVREF_LONG_F0
R/W-0h
1514131211109876543210
RESERVEDTCKFSPX_F0RESERVEDTCKFSPE_F0
R/W-XR/W-0hR/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-522 DDRSS_CTL_166 Register Field Descriptions
BitFieldTypeResetDescription
31-16TVREF_LONG_F0R/W0h

JEDEC TVREF, design will always use the long value.

15-13RESERVEDR/WX
12-8TCKFSPX_F0R/W0h

JEDEC TCKFSPX, the valid clock requirement before 1st valid command after FSP change.

7-5RESERVEDR/WX
4-0TCKFSPE_F0R/W0h

JEDEC TCKFSPE, the valid clock requirement after entering SDP change.

2.5.2.166 DDRSS_CTL_167 Register (Offset = 29Ch) [reset = X]

DDRSS_CTL_167 is shown in Figure 8-258 and described in Table 8-524.

Return to Summary Table.

Table 8-523 DDRSS_CTL_167 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 029Ch
Figure 8-258 DDRSS_CTL_167 Register
31302928272625242322212019181716
RESERVEDTVRCG_DISABLE_F1
R/W-XR/W-0h
1514131211109876543210
RESERVEDTVRCG_ENABLE_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-524 DDRSS_CTL_167 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-16TVRCG_DISABLE_F1R/W0h

JEDEC TVRCG_DISABLE time.

15-10RESERVEDR/WX
9-0TVRCG_ENABLE_F1R/W0h

JEDEC TVRCG_ENABLE time.

2.5.2.167 DDRSS_CTL_168 Register (Offset = 2A0h) [reset = X]

DDRSS_CTL_168 is shown in Figure 8-259 and described in Table 8-526.

Return to Summary Table.

Table 8-525 DDRSS_CTL_168 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02A0h
Figure 8-259 DDRSS_CTL_168 Register
31302928272625242322212019181716
RESERVEDTCKFSPX_F1RESERVEDTCKFSPE_F1
R/W-XR/W-0hR/W-XR/W-0h
1514131211109876543210
RESERVEDTFC_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-526 DDRSS_CTL_168 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24TCKFSPX_F1R/W0h

JEDEC TCKFSPX, the valid clock requirement before 1st valid command after FSP change.

23-21RESERVEDR/WX
20-16TCKFSPE_F1R/W0h

JEDEC TCKFSPE, the valid clock requirement after entering SDP change.

15-10RESERVEDR/WX
9-0TFC_F1R/W0h

JEDEC TFC, the frequency set point switching time.

2.5.2.168 DDRSS_CTL_169 Register (Offset = 2A4h) [reset = X]

DDRSS_CTL_169 is shown in Figure 8-260 and described in Table 8-528.

Return to Summary Table.

Table 8-527 DDRSS_CTL_169 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02A4h
Figure 8-260 DDRSS_CTL_169 Register
31302928272625242322212019181716
RESERVEDTVRCG_ENABLE_F2
R/W-XR/W-0h
1514131211109876543210
TVREF_LONG_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-528 DDRSS_CTL_169 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-16TVRCG_ENABLE_F2R/W0h

JEDEC TVRCG_ENABLE time.

15-0TVREF_LONG_F1R/W0h

JEDEC TVREF, design will always use the long value.

2.5.2.169 DDRSS_CTL_170 Register (Offset = 2A8h) [reset = X]

DDRSS_CTL_170 is shown in Figure 8-261 and described in Table 8-530.

Return to Summary Table.

Table 8-529 DDRSS_CTL_170 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02A8h
Figure 8-261 DDRSS_CTL_170 Register
31302928272625242322212019181716
RESERVEDTFC_F2
R/W-XR/W-0h
1514131211109876543210
RESERVEDTVRCG_DISABLE_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-530 DDRSS_CTL_170 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-16TFC_F2R/W0h

JEDEC TFC, the frequency set point switching time.

15-10RESERVEDR/WX
9-0TVRCG_DISABLE_F2R/W0h

JEDEC TVRCG_DISABLE time.

2.5.2.170 DDRSS_CTL_171 Register (Offset = 2ACh) [reset = X]

DDRSS_CTL_171 is shown in Figure 8-262 and described in Table 8-532.

Return to Summary Table.

Table 8-531 DDRSS_CTL_171 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02ACh
Figure 8-262 DDRSS_CTL_171 Register
31302928272625242322212019181716
TVREF_LONG_F2
R/W-0h
1514131211109876543210
RESERVEDTCKFSPX_F2RESERVEDTCKFSPE_F2
R/W-XR/W-0hR/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-532 DDRSS_CTL_171 Register Field Descriptions
BitFieldTypeResetDescription
31-16TVREF_LONG_F2R/W0h

JEDEC TVREF, design will always use the long value.

15-13RESERVEDR/WX
12-8TCKFSPX_F2R/W0h

JEDEC TCKFSPX, the valid clock requirement before 1st valid command after FSP change.

7-5RESERVEDR/WX
4-0TCKFSPE_F2R/W0h

JEDEC TCKFSPE, the valid clock requirement after entering SDP change.

2.5.2.171 DDRSS_CTL_172 Register (Offset = 2B0h) [reset = 0h]

DDRSS_CTL_172 is shown in Figure 8-263 and described in Table 8-534.

Return to Summary Table.

Table 8-533 DDRSS_CTL_172 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02B0h
Figure 8-263 DDRSS_CTL_172 Register
31302928272625242322212019181716
MRR_PROMOTE_THRESHOLD_F1
R/W-0h
1514131211109876543210
MRR_PROMOTE_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-534 DDRSS_CTL_172 Register Field Descriptions
BitFieldTypeResetDescription
31-16MRR_PROMOTE_THRESHOLD_F1R/W0h

MRR promotion number of long counts until the high priority request is asserted for frequency copy 1.
Applies to SW MRR commands.

15-0MRR_PROMOTE_THRESHOLD_F0R/W0h

MRR promotion number of long counts until the high priority request is asserted for frequency copy 0.
Applies to SW MRR commands.

2.5.2.172 DDRSS_CTL_173 Register (Offset = 2B4h) [reset = 0h]

DDRSS_CTL_173 is shown in Figure 8-264 and described in Table 8-536.

Return to Summary Table.

Table 8-535 DDRSS_CTL_173 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02B4h
Figure 8-264 DDRSS_CTL_173 Register
31302928272625242322212019181716
MRW_PROMOTE_THRESHOLD_F0
R/W-0h
1514131211109876543210
MRR_PROMOTE_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-536 DDRSS_CTL_173 Register Field Descriptions
BitFieldTypeResetDescription
31-16MRW_PROMOTE_THRESHOLD_F0R/W0h

MRW promotion number of long counts until the high priority request is asserted for frequency copy 0.
Applies to SW MRW commands.

15-0MRR_PROMOTE_THRESHOLD_F2R/W0h

MRR promotion number of long counts until the high priority request is asserted for frequency copy 2.
Applies to SW MRR commands.

2.5.2.173 DDRSS_CTL_174 Register (Offset = 2B8h) [reset = 0h]

DDRSS_CTL_174 is shown in Figure 8-265 and described in Table 8-538.

Return to Summary Table.

Table 8-537 DDRSS_CTL_174 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02B8h
Figure 8-265 DDRSS_CTL_174 Register
31302928272625242322212019181716
MRW_PROMOTE_THRESHOLD_F2
R/W-0h
1514131211109876543210
MRW_PROMOTE_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-538 DDRSS_CTL_174 Register Field Descriptions
BitFieldTypeResetDescription
31-16MRW_PROMOTE_THRESHOLD_F2R/W0h

MRW promotion number of long counts until the high priority request is asserted for frequency copy 2.
Applies to SW MRW commands.

15-0MRW_PROMOTE_THRESHOLD_F1R/W0h

MRW promotion number of long counts until the high priority request is asserted for frequency copy 1.
Applies to SW MRW commands.

2.5.2.174 DDRSS_CTL_175 Register (Offset = 2BCh) [reset = 0h]

DDRSS_CTL_175 is shown in Figure 8-266 and described in Table 8-540.

Return to Summary Table.

Table 8-539 DDRSS_CTL_175 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02BCh
Figure 8-266 DDRSS_CTL_175 Register
31302928272625242322212019181716
MR2_DATA_F1_0MR1_DATA_F1_0
R/W-0hR/W-0h
1514131211109876543210
MR2_DATA_F0_0MR1_DATA_F0_0
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-540 DDRSS_CTL_175 Register Field Descriptions
BitFieldTypeResetDescription
31-24MR2_DATA_F1_0R/W0h

Data to program into memory mode register 2 for chip select 0 for frequency copy 1.

23-16MR1_DATA_F1_0R/W0h

Data to program into memory mode register 1 for chip select 0 for frequency copy 1.

15-8MR2_DATA_F0_0R/W0h

Data to program into memory mode register 2 for chip select 0 for frequency copy 0.

7-0MR1_DATA_F0_0R/W0h

Data to program into memory mode register 1 for chip select 0 for frequency copy 0.

2.5.2.175 DDRSS_CTL_176 Register (Offset = 2C0h) [reset = 0h]

DDRSS_CTL_176 is shown in Figure 8-267 and described in Table 8-542.

Return to Summary Table.

Table 8-541 DDRSS_CTL_176 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02C0h
Figure 8-267 DDRSS_CTL_176 Register
31302928272625242322212019181716
MR3_DATA_F0_0MRSINGLE_DATA_0
R/W-0hR/W-0h
1514131211109876543210
MR2_DATA_F2_0MR1_DATA_F2_0
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-542 DDRSS_CTL_176 Register Field Descriptions
BitFieldTypeResetDescription
31-24MR3_DATA_F0_0R/W0h

Data to program into memory mode register 3 for chip select 0 for frequency copy 0.

23-16MRSINGLE_DATA_0R/W0h

Data to program into memory mode register single write to chip select 0.

15-8MR2_DATA_F2_0R/W0h

Data to program into memory mode register 2 for chip select 0 for frequency copy 2.

7-0MR1_DATA_F2_0R/W0h

Data to program into memory mode register 1 for chip select 0 for frequency copy 2.

2.5.2.176 DDRSS_CTL_177 Register (Offset = 2C4h) [reset = 0h]

DDRSS_CTL_177 is shown in Figure 8-268 and described in Table 8-544.

Return to Summary Table.

Table 8-543 DDRSS_CTL_177 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02C4h
Figure 8-268 DDRSS_CTL_177 Register
31302928272625242322212019181716
MR4_DATA_F1_0MR4_DATA_F0_0
R/W-0hR/W-0h
1514131211109876543210
MR3_DATA_F2_0MR3_DATA_F1_0
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-544 DDRSS_CTL_177 Register Field Descriptions
BitFieldTypeResetDescription
31-24MR4_DATA_F1_0R/W0h

Data to program into memory mode register 4 for chip select 0 for frequency copy 1.

23-16MR4_DATA_F0_0R/W0h

Data to program into memory mode register 4 for chip select 0 for frequency copy 0.

15-8MR3_DATA_F2_0R/W0h

Data to program into memory mode register 3 for chip select 0 for frequency copy 2.

7-0MR3_DATA_F1_0R/W0h

Data to program into memory mode register 3 for chip select 0 for frequency copy 1.

2.5.2.177 DDRSS_CTL_178 Register (Offset = 2C8h) [reset = 0h]

DDRSS_CTL_178 is shown in Figure 8-269 and described in Table 8-546.

Return to Summary Table.

Table 8-545 DDRSS_CTL_178 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02C8h
Figure 8-269 DDRSS_CTL_178 Register
31302928272625242322212019181716
MR11_DATA_F1_0MR11_DATA_F0_0
R/W-0hR/W-0h
1514131211109876543210
MR8_DATA_0MR4_DATA_F2_0
R-0hR/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-546 DDRSS_CTL_178 Register Field Descriptions
BitFieldTypeResetDescription
31-24MR11_DATA_F1_0R/W0h

Data to program into memory mode register 11 for chip select 0 for frequency copy 1.

23-16MR11_DATA_F0_0R/W0h

Data to program into memory mode register 11 for chip select 0 for frequency copy 0.

15-8MR8_DATA_0R0h

Data read from MR8 for chip select 0.
READ-ONLY

7-0MR4_DATA_F2_0R/W0h

Data to program into memory mode register 4 for chip select 0 for frequency copy 2.

2.5.2.178 DDRSS_CTL_179 Register (Offset = 2CCh) [reset = 0h]

DDRSS_CTL_179 is shown in Figure 8-270 and described in Table 8-548.

Return to Summary Table.

Table 8-547 DDRSS_CTL_179 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02CCh
Figure 8-270 DDRSS_CTL_179 Register
31302928272625242322212019181716
MR12_DATA_F2_0MR12_DATA_F1_0
R/W-0hR/W-0h
1514131211109876543210
MR12_DATA_F0_0MR11_DATA_F2_0
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-548 DDRSS_CTL_179 Register Field Descriptions
BitFieldTypeResetDescription
31-24MR12_DATA_F2_0R/W0h

Data to program into memory mode register 12 for chip select 0.

23-16MR12_DATA_F1_0R/W0h

Data to program into memory mode register 12 for chip select 0.

15-8MR12_DATA_F0_0R/W0h

Data to program into memory mode register 12 for chip select 0.

7-0MR11_DATA_F2_0R/W0h

Data to program into memory mode register 11 for chip select 0 for frequency copy 2.

2.5.2.179 DDRSS_CTL_180 Register (Offset = 2D0h) [reset = 0h]

DDRSS_CTL_180 is shown in Figure 8-271 and described in Table 8-550.

Return to Summary Table.

Table 8-549 DDRSS_CTL_180 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02D0h
Figure 8-271 DDRSS_CTL_180 Register
31302928272625242322212019181716
MR14_DATA_F2_0MR14_DATA_F1_0
R/W-0hR/W-0h
1514131211109876543210
MR14_DATA_F0_0MR13_DATA_0
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-550 DDRSS_CTL_180 Register Field Descriptions
BitFieldTypeResetDescription
31-24MR14_DATA_F2_0R/W0h

Data to program into memory mode register 14 for chip select 0.

23-16MR14_DATA_F1_0R/W0h

Data to program into memory mode register 14 for chip select 0.

15-8MR14_DATA_F0_0R/W0h

Data to program into memory mode register 14 for chip select 0.

7-0MR13_DATA_0R/W0h

Data to program into memory mode register 13 for chip select 0.

2.5.2.180 DDRSS_CTL_181 Register (Offset = 2D4h) [reset = 0h]

DDRSS_CTL_181 is shown in Figure 8-272 and described in Table 8-552.

Return to Summary Table.

Table 8-551 DDRSS_CTL_181 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02D4h
Figure 8-272 DDRSS_CTL_181 Register
31302928272625242322212019181716
MR22_DATA_F0_0MR20_DATA_0
R/W-0hR-0h
1514131211109876543210
MR17_DATA_0MR16_DATA_0
R/W-0hR/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-552 DDRSS_CTL_181 Register Field Descriptions
BitFieldTypeResetDescription
31-24MR22_DATA_F0_0R/W0h

Data to program into memory mode register 22 for chip select 0.

23-16MR20_DATA_0R0h

Data read from MR20 for chip select 0.
READ-ONLY

15-8MR17_DATA_0R/W0h

Data to program into memory mode register 17 for chip select 0.

7-0MR16_DATA_0R/W0h

Data to program into memory mode register 16 for chip select 0.

2.5.2.181 DDRSS_CTL_182 Register (Offset = 2D8h) [reset = 0h]

DDRSS_CTL_182 is shown in Figure 8-273 and described in Table 8-554.

Return to Summary Table.

Table 8-553 DDRSS_CTL_182 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02D8h
Figure 8-273 DDRSS_CTL_182 Register
31302928272625242322212019181716
MR2_DATA_F0_1MR1_DATA_F0_1
R/W-0hR/W-0h
1514131211109876543210
MR22_DATA_F2_0MR22_DATA_F1_0
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-554 DDRSS_CTL_182 Register Field Descriptions
BitFieldTypeResetDescription
31-24MR2_DATA_F0_1R/W0h

Data to program into memory mode register 2 for chip select 1 for frequency copy 0.

23-16MR1_DATA_F0_1R/W0h

Data to program into memory mode register 1 for chip select 1 for frequency copy 0.

15-8MR22_DATA_F2_0R/W0h

Data to program into memory mode register 22 for chip select 0.

7-0MR22_DATA_F1_0R/W0h

Data to program into memory mode register 22 for chip select 0.

2.5.2.182 DDRSS_CTL_183 Register (Offset = 2DCh) [reset = 0h]

DDRSS_CTL_183 is shown in Figure 8-274 and described in Table 8-556.

Return to Summary Table.

Table 8-555 DDRSS_CTL_183 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02DCh
Figure 8-274 DDRSS_CTL_183 Register
31302928272625242322212019181716
MR2_DATA_F2_1MR1_DATA_F2_1
R/W-0hR/W-0h
1514131211109876543210
MR2_DATA_F1_1MR1_DATA_F1_1
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-556 DDRSS_CTL_183 Register Field Descriptions
BitFieldTypeResetDescription
31-24MR2_DATA_F2_1R/W0h

Data to program into memory mode register 2 for chip select 1 for frequency copy 2.

23-16MR1_DATA_F2_1R/W0h

Data to program into memory mode register 1 for chip select 1 for frequency copy 2.

15-8MR2_DATA_F1_1R/W0h

Data to program into memory mode register 2 for chip select 1 for frequency copy 1.

7-0MR1_DATA_F1_1R/W0h

Data to program into memory mode register 1 for chip select 1 for frequency copy 1.

2.5.2.183 DDRSS_CTL_184 Register (Offset = 2E0h) [reset = 0h]

DDRSS_CTL_184 is shown in Figure 8-275 and described in Table 8-558.

Return to Summary Table.

Table 8-557 DDRSS_CTL_184 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02E0h
Figure 8-275 DDRSS_CTL_184 Register
31302928272625242322212019181716
MR3_DATA_F2_1MR3_DATA_F1_1
R/W-0hR/W-0h
1514131211109876543210
MR3_DATA_F0_1MRSINGLE_DATA_1
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-558 DDRSS_CTL_184 Register Field Descriptions
BitFieldTypeResetDescription
31-24MR3_DATA_F2_1R/W0h

Data to program into memory mode register 3 for chip select 1 for frequency copy 2.

23-16MR3_DATA_F1_1R/W0h

Data to program into memory mode register 3 for chip select 1 for frequency copy 1.

15-8MR3_DATA_F0_1R/W0h

Data to program into memory mode register 3 for chip select 1 for frequency copy 0.

7-0MRSINGLE_DATA_1R/W0h

Data to program into memory mode register single write to chip select 1.

2.5.2.184 DDRSS_CTL_185 Register (Offset = 2E4h) [reset = 0h]

DDRSS_CTL_185 is shown in Figure 8-276 and described in Table 8-560.

Return to Summary Table.

Table 8-559 DDRSS_CTL_185 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02E4h
Figure 8-276 DDRSS_CTL_185 Register
31302928272625242322212019181716
MR8_DATA_1MR4_DATA_F2_1
R-0hR/W-0h
1514131211109876543210
MR4_DATA_F1_1MR4_DATA_F0_1
R/W-0hR/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-560 DDRSS_CTL_185 Register Field Descriptions
BitFieldTypeResetDescription
31-24MR8_DATA_1R0h

Data read from MR8 for chip select 1.
READ-ONLY

23-16MR4_DATA_F2_1R/W0h

Data to program into memory mode register 4 for chip select 1 for frequency copy 2.

15-8MR4_DATA_F1_1R/W0h

Data to program into memory mode register 4 for chip select 1 for frequency copy 1.

7-0MR4_DATA_F0_1R/W0h

Data to program into memory mode register 4 for chip select 1 for frequency copy 0.

2.5.2.185 DDRSS_CTL_186 Register (Offset = 2E8h) [reset = 0h]

DDRSS_CTL_186 is shown in Figure 8-277 and described in Table 8-562.

Return to Summary Table.

Table 8-561 DDRSS_CTL_186 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02E8h
Figure 8-277 DDRSS_CTL_186 Register
31302928272625242322212019181716
MR12_DATA_F0_1MR11_DATA_F2_1
R/W-0hR/W-0h
1514131211109876543210
MR11_DATA_F1_1MR11_DATA_F0_1
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-562 DDRSS_CTL_186 Register Field Descriptions
BitFieldTypeResetDescription
31-24MR12_DATA_F0_1R/W0h

Data to program into memory mode register 12 for chip select 1.

23-16MR11_DATA_F2_1R/W0h

Data to program into memory mode register 11 for chip select 1 for frequency copy 2.

15-8MR11_DATA_F1_1R/W0h

Data to program into memory mode register 11 for chip select 1 for frequency copy 1.

7-0MR11_DATA_F0_1R/W0h

Data to program into memory mode register 11 for chip select 1 for frequency copy 0.

2.5.2.186 DDRSS_CTL_187 Register (Offset = 2ECh) [reset = 0h]

DDRSS_CTL_187 is shown in Figure 8-278 and described in Table 8-564.

Return to Summary Table.

Table 8-563 DDRSS_CTL_187 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02ECh
Figure 8-278 DDRSS_CTL_187 Register
31302928272625242322212019181716
MR14_DATA_F0_1MR13_DATA_1
R/W-0hR/W-0h
1514131211109876543210
MR12_DATA_F2_1MR12_DATA_F1_1
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-564 DDRSS_CTL_187 Register Field Descriptions
BitFieldTypeResetDescription
31-24MR14_DATA_F0_1R/W0h

Data to program into memory mode register 14 for chip select 1.

23-16MR13_DATA_1R/W0h

Data to program into memory mode register 13 for chip select 1.

15-8MR12_DATA_F2_1R/W0h

Data to program into memory mode register 12 for chip select 1.

7-0MR12_DATA_F1_1R/W0h

Data to program into memory mode register 12 for chip select 1.

2.5.2.187 DDRSS_CTL_188 Register (Offset = 2F0h) [reset = 0h]

DDRSS_CTL_188 is shown in Figure 8-279 and described in Table 8-566.

Return to Summary Table.

Table 8-565 DDRSS_CTL_188 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02F0h
Figure 8-279 DDRSS_CTL_188 Register
31302928272625242322212019181716
MR17_DATA_1MR16_DATA_1
R/W-0hR/W-0h
1514131211109876543210
MR14_DATA_F2_1MR14_DATA_F1_1
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-566 DDRSS_CTL_188 Register Field Descriptions
BitFieldTypeResetDescription
31-24MR17_DATA_1R/W0h

Data to program into memory mode register 17 for chip select 1.

23-16MR16_DATA_1R/W0h

Data to program into memory mode register 16 for chip select 1.

15-8MR14_DATA_F2_1R/W0h

Data to program into memory mode register 14 for chip select 1.

7-0MR14_DATA_F1_1R/W0h

Data to program into memory mode register 14 for chip select 1.

2.5.2.188 DDRSS_CTL_189 Register (Offset = 2F4h) [reset = 0h]

DDRSS_CTL_189 is shown in Figure 8-280 and described in Table 8-568.

Return to Summary Table.

Table 8-567 DDRSS_CTL_189 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02F4h
Figure 8-280 DDRSS_CTL_189 Register
31302928272625242322212019181716
MR22_DATA_F2_1MR22_DATA_F1_1
R/W-0hR/W-0h
1514131211109876543210
MR22_DATA_F0_1MR20_DATA_1
R/W-0hR-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-568 DDRSS_CTL_189 Register Field Descriptions
BitFieldTypeResetDescription
31-24MR22_DATA_F2_1R/W0h

Data to program into memory mode register 22 for chip select 1.

23-16MR22_DATA_F1_1R/W0h

Data to program into memory mode register 22 for chip select 1.

15-8MR22_DATA_F0_1R/W0h

Data to program into memory mode register 22 for chip select 1.

7-0MR20_DATA_1R0h

Data read from MR20 for chip select 1.
READ-ONLY

2.5.2.189 DDRSS_CTL_190 Register (Offset = 2F8h) [reset = X]

DDRSS_CTL_190 is shown in Figure 8-281 and described in Table 8-570.

Return to Summary Table.

Table 8-569 DDRSS_CTL_190 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02F8h
Figure 8-281 DDRSS_CTL_190 Register
3130292827262524
RESERVEDMR_FSP_DATA_VALID_F2
R/W-XR/W-0h
2322212019181716
RESERVEDMR_FSP_DATA_VALID_F1
R/W-XR/W-0h
15141312111098
RESERVEDMR_FSP_DATA_VALID_F0
R/W-XR/W-0h
76543210
MR23_DATA
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-570 DDRSS_CTL_190 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24MR_FSP_DATA_VALID_F2R/W0h

Indicates that, at this frequency, memory was trained and the associated data has been loaded into the MRx_DATA parameter(s).
Value of 1 means memory was trained.

23-17RESERVEDR/WX
16MR_FSP_DATA_VALID_F1R/W0h

Indicates that, at this frequency, memory was trained and the associated data has been loaded into the MRx_DATA parameter(s).
Value of 1 means memory was trained.

15-9RESERVEDR/WX
8MR_FSP_DATA_VALID_F0R/W0h

Indicates that, at this frequency, memory was trained and the associated data has been loaded into the MRx_DATA parameter(s).
Value of 1 means memory was trained.

7-0MR23_DATAR/W0h

Data to program into memory mode register 23.

2.5.2.190 DDRSS_CTL_191 Register (Offset = 2FCh) [reset = X]

DDRSS_CTL_191 is shown in Figure 8-282 and described in Table 8-572.

Return to Summary Table.

Table 8-571 DDRSS_CTL_191 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 02FCh
Figure 8-282 DDRSS_CTL_191 Register
3130292827262524
RESERVEDFSP_PHY_UPDATE_MRW
R/W-XR/W-0h
2322212019181716
RESERVEDRESERVED
R/W-XR-0h
15141312111098
RESERVEDRESERVED
R/W-XR-0h
76543210
RESERVEDRL3_SUPPORT_EN
R/W-XR-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-572 DDRSS_CTL_191 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24FSP_PHY_UPDATE_MRWR/W0h

Identifies the logic responsible for updating MR12 and MR14 in memory.
Clear to 0 for the controller, or set to 1 for the PHY or PI.

23-17RESERVEDR/WX
16RESERVEDR0h

Reserved

15-9RESERVEDR/WX
8RESERVEDR0h

Reserved

7-2RESERVEDR/WX
1-0RL3_SUPPORT_ENR0h

Indicates if RL3 is supported by a connected LPDDR3 memory.
Data read from MR0 bit 7.
READ-ONLY

2.5.2.191 DDRSS_CTL_192 Register (Offset = 300h) [reset = X]

DDRSS_CTL_192 is shown in Figure 8-283 and described in Table 8-574.

Return to Summary Table.

Table 8-573 DDRSS_CTL_192 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0300h
Figure 8-283 DDRSS_CTL_192 Register
3130292827262524
RESERVEDFSP_WR_CURRENT
R/W-XR/W-0h
2322212019181716
RESERVEDFSP_OP_CURRENT
R/W-XR/W-0h
15141312111098
RESERVEDFSP_STATUS
R/W-XR/W-0h
76543210
RESERVEDDFS_ALWAYS_WRITE_FSP
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-574 DDRSS_CTL_192 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24FSP_WR_CURRENTR/W0h

Reports which FSP set the memory will target with write commands.

23-17RESERVEDR/WX
16FSP_OP_CURRENTR/W0h

Reports which FSP set the memory is currently using.

15-9RESERVEDR/WX
8FSP_STATUSR/W0h

Indicates that a DFS event caused the FSP mode registers to be updated.
Value of 1 means that the FSP mode registers were changed.

7-1RESERVEDR/WX
0DFS_ALWAYS_WRITE_FSPR/W0h

Forces all FSP mode registers to be written by the controller during a DFS event.
Set to 1 to force the write.

2.5.2.192 DDRSS_CTL_193 Register (Offset = 304h) [reset = X]

DDRSS_CTL_193 is shown in Figure 8-284 and described in Table 8-576.

Return to Summary Table.

Table 8-575 DDRSS_CTL_193 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0304h
Figure 8-284 DDRSS_CTL_193 Register
3130292827262524
RESERVEDFSP1_FRC
R/W-XR/W-0h
2322212019181716
RESERVEDFSP0_FRC
R/W-XR/W-0h
15141312111098
RESERVEDFSP1_FRC_VALID
R/W-XR/W-0h
76543210
RESERVEDFSP0_FRC_VALID
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-576 DDRSS_CTL_193 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-24FSP1_FRCR/W0h

Identifies which of the controller's frequency copy is associated with FSP1.

23-18RESERVEDR/WX
17-16FSP0_FRCR/W0h

Identifies which of the controller's frequency copy is associated with FSP0.

15-9RESERVEDR/WX
8FSP1_FRC_VALIDR/W0h

Specifies whether the FSP set defined in the FSP1_FRC parameter reflects the frequency used to program the FSP1 registers.

7-1RESERVEDR/WX
0FSP0_FRC_VALIDR/W0h

Specifies whether the FSP set defined in the FSP0_FRC parameter reflects the frequency used to program the FSP0 registers.

2.5.2.193 DDRSS_CTL_194 Register (Offset = 308h) [reset = X]

DDRSS_CTL_194 is shown in Figure 8-285 and described in Table 8-578.

Return to Summary Table.

Table 8-577 DDRSS_CTL_194 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0308h
Figure 8-285 DDRSS_CTL_194 Register
3130292827262524
RESERVEDBIST_DATA_CHECK
R/W-XR/W-0h
2322212019181716
RESERVEDADDR_SPACE
R/W-XR/W-0h
15141312111098
RESERVEDBIST_RESULT
R/W-XR-0h
76543210
RESERVEDBIST_GO
R/W-XW-0h
LEGEND: R = Read Only; R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-578 DDRSS_CTL_194 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24BIST_DATA_CHECKR/W0h

Enable data checking with BIST operation.
Set to 1 to enable.

23-22RESERVEDR/WX
21-16ADDR_SPACER/W0h

Sets the number of address bits to check during BIST operation.

15-10RESERVEDR/WX
9-8BIST_RESULTR0h

BIST operation status (pass/fail).
Bit (0) indicates data check status and bit (1) indicates address check status.
Value of 1 is a passing result.
READ-ONLY

7-1RESERVEDR/WX
0BIST_GOW0h

Initiate a BIST operation.
Set to 1 to trigger.
WRITE-ONLY

2.5.2.194 DDRSS_CTL_195 Register (Offset = 30Ch) [reset = X]

DDRSS_CTL_195 is shown in Figure 8-286 and described in Table 8-580.

Return to Summary Table.

Table 8-579 DDRSS_CTL_195 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 030Ch
Figure 8-286 DDRSS_CTL_195 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVED
R/W-X
15141312111098
RESERVED
R/W-X
76543210
RESERVEDBIST_ADDR_CHECK
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-580 DDRSS_CTL_195 Register Field Descriptions
BitFieldTypeResetDescription
31-1RESERVEDR/WX
0BIST_ADDR_CHECKR/W0h

Enable address checking with BIST operation.
Set to 1 to enable.

2.5.2.195 DDRSS_CTL_196 Register (Offset = 310h) [reset = 0h]

DDRSS_CTL_196 is shown in Figure 8-287 and described in Table 8-582.

Return to Summary Table.

Table 8-581 DDRSS_CTL_196 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0310h
Figure 8-287 DDRSS_CTL_196 Register
313029282726252423222120191817161514131211109876543210
BIST_START_ADDRESS_0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-582 DDRSS_CTL_196 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_START_ADDRESS_0R/W0h

Start BIST checking at this address.

2.5.2.196 DDRSS_CTL_197 Register (Offset = 314h) [reset = X]

DDRSS_CTL_197 is shown in Figure 8-288 and described in Table 8-584.

Return to Summary Table.

Table 8-583 DDRSS_CTL_197 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0314h
Figure 8-288 DDRSS_CTL_197 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVED
R/W-X
15141312111098
RESERVED
R/W-X
76543210
RESERVEDBIST_START_ADDRESS_1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-584 DDRSS_CTL_197 Register Field Descriptions
BitFieldTypeResetDescription
31-3RESERVEDR/WX
2-0BIST_START_ADDRESS_1R/W0h

Start BIST checking at this address.

2.5.2.197 DDRSS_CTL_198 Register (Offset = 318h) [reset = 0h]

DDRSS_CTL_198 is shown in Figure 8-289 and described in Table 8-586.

Return to Summary Table.

Table 8-585 DDRSS_CTL_198 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0318h
Figure 8-289 DDRSS_CTL_198 Register
313029282726252423222120191817161514131211109876543210
BIST_DATA_MASK_0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-586 DDRSS_CTL_198 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_DATA_MASK_0R/W0h

Mask applied to data for BIST error checking.
Bit (0) controls memory data path bit (0), bit (1) controls memory data path bit (1), etc.
Set each bit to 1 to mask.

2.5.2.198 DDRSS_CTL_199 Register (Offset = 31Ch) [reset = 0h]

DDRSS_CTL_199 is shown in Figure 8-290 and described in Table 8-588.

Return to Summary Table.

Table 8-587 DDRSS_CTL_199 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 031Ch
Figure 8-290 DDRSS_CTL_199 Register
313029282726252423222120191817161514131211109876543210
BIST_DATA_MASK_1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-588 DDRSS_CTL_199 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_DATA_MASK_1R/W0h

Mask applied to data for BIST error checking.
Bit (0) controls memory data path bit (0), bit (1) controls memory data path bit (1), etc.
Set each bit to 1 to mask.

2.5.2.199 DDRSS_CTL_200 Register (Offset = 320h) [reset = X]

DDRSS_CTL_200 is shown in Figure 8-291 and described in Table 8-590.

Return to Summary Table.

Table 8-589 DDRSS_CTL_200 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0320h
Figure 8-291 DDRSS_CTL_200 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVED
R/W-X
15141312111098
RESERVED
R/W-X
76543210
RESERVEDBIST_TEST_MODE
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-590 DDRSS_CTL_200 Register Field Descriptions
BitFieldTypeResetDescription
31-3RESERVEDR/WX
2-0BIST_TEST_MODER/W0h

Sets the BIST test mode.
Value of 0 specifies standard BIST operation, value of 1 specifies a reduced BIST operation, value of 2 specifies a self-refresh retention test, value of 3 specifies an idle retention test, and value of 4 specifies memory initalization function.
All other values are reserved.

2.5.2.200 DDRSS_CTL_201 Register (Offset = 324h) [reset = 0h]

DDRSS_CTL_201 is shown in Figure 8-292 and described in Table 8-592.

Return to Summary Table.

Table 8-591 DDRSS_CTL_201 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0324h
Figure 8-292 DDRSS_CTL_201 Register
313029282726252423222120191817161514131211109876543210
BIST_DATA_PATTERN_0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-592 DDRSS_CTL_201 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_DATA_PATTERN_0R/W0h

Data pattern to be used when the BIST_TEST_MODE parameter is programmed to 1, 2, 3 or 4.

2.5.2.201 DDRSS_CTL_202 Register (Offset = 328h) [reset = 0h]

DDRSS_CTL_202 is shown in Figure 8-293 and described in Table 8-594.

Return to Summary Table.

Table 8-593 DDRSS_CTL_202 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0328h
Figure 8-293 DDRSS_CTL_202 Register
313029282726252423222120191817161514131211109876543210
BIST_DATA_PATTERN_1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-594 DDRSS_CTL_202 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_DATA_PATTERN_1R/W0h

Data pattern to be used when the BIST_TEST_MODE parameter is programmed to 1, 2, 3 or 4.

2.5.2.202 DDRSS_CTL_203 Register (Offset = 32Ch) [reset = 0h]

DDRSS_CTL_203 is shown in Figure 8-294 and described in Table 8-596.

Return to Summary Table.

Table 8-595 DDRSS_CTL_203 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 032Ch
Figure 8-294 DDRSS_CTL_203 Register
313029282726252423222120191817161514131211109876543210
BIST_DATA_PATTERN_2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-596 DDRSS_CTL_203 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_DATA_PATTERN_2R/W0h

Data pattern to be used when the BIST_TEST_MODE parameter is programmed to 1, 2, 3 or 4.

2.5.2.203 DDRSS_CTL_204 Register (Offset = 330h) [reset = 0h]

DDRSS_CTL_204 is shown in Figure 8-295 and described in Table 8-598.

Return to Summary Table.

Table 8-597 DDRSS_CTL_204 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0330h
Figure 8-295 DDRSS_CTL_204 Register
313029282726252423222120191817161514131211109876543210
BIST_DATA_PATTERN_3
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-598 DDRSS_CTL_204 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_DATA_PATTERN_3R/W0h

Data pattern to be used when the BIST_TEST_MODE parameter is programmed to 1, 2, 3 or 4.

2.5.2.204 DDRSS_CTL_205 Register (Offset = 334h) [reset = X]

DDRSS_CTL_205 is shown in Figure 8-296 and described in Table 8-600.

Return to Summary Table.

Table 8-599 DDRSS_CTL_205 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0334h
Figure 8-296 DDRSS_CTL_205 Register
3130292827262524
RESERVEDBIST_ERR_STOP
R/W-XR/W-0h
2322212019181716
BIST_ERR_STOP
R/W-0h
15141312111098
RESERVEDBIST_RET_STATE
R/W-XR-0h
76543210
RESERVEDBIST_RET_STATE_EXIT
R/W-XW-0h
LEGEND: R = Read Only; R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-600 DDRSS_CTL_205 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-16BIST_ERR_STOPR/W0h

Defines the maximum number of error occurrences allowed prior to quitting when the BIST_TEST_MODE parameter is programmed to 1, 2 or 3.
A value of 0 will allow the test to run to completion.

15-9RESERVEDR/WX
8BIST_RET_STATER0h

Indicates if BIST is in a retention wait state, used when the BIST_TEST_MODE parameter is programmed to 2 or 3.
Value of 1 indicates BIST is waiting.
READ-ONLY

7-1RESERVEDR/WX
0BIST_RET_STATE_EXITW0h

Exit self-refresh or idle retention state, used when the BIST_TEST_MODE parameter is programmed to 2 or 3.
Set to 1 to trigger.
WRITE-ONLY

2.5.2.205 DDRSS_CTL_206 Register (Offset = 338h) [reset = X]

DDRSS_CTL_206 is shown in Figure 8-297 and described in Table 8-602.

Return to Summary Table.

Note:

The ECC Engine block of the DDR controller is not supported.

Table 8-601 DDRSS_CTL_206 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0338h
Figure 8-297 DDRSS_CTL_206 Register
3130292827262524
RESERVEDINLINE_ECC_BANK_OFFSET
R/W-XR/W-0h
2322212019181716
RESERVEDECC_ENABLE
R/W-XR/W-0h
15141312111098
RESERVEDBIST_ERR_COUNT
R/W-XR-0h
76543210
BIST_ERR_COUNT
R-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-602 DDRSS_CTL_206 Register Field Descriptions
BitFieldTypeResetDescription
31-27RESERVEDR/WX
26-24INLINE_ECC_BANK_OFFSETR/W0h

Inline ECC Bank Offset defines the bank shift between data and ECC commands associated with the same sequence
the bank is offset to prevent inefficiencies due to opening an closing the pages on the same bank during transition between data and ECC commands.

23-18RESERVEDR/WX
17-16ECC_ENABLER/W0h

ECC error checking and correcting control register.
Clear to 0 to fully disable ECC, program to 1 to enable ECC with no error detection or error correction, program to 2 to enable ECC with error detection without error correction, or program to 3 to enable ECC with both error detection and error correction.

15-12RESERVEDR/WX
11-0BIST_ERR_COUNTR0h

Indicates the number of BIST errors found when the BIST_TEST_MODE parameter is programmed to 1, 2 or 3.
READ-ONLY

2.5.2.206 DDRSS_CTL_207 Register (Offset = 33Ch) [reset = X]

DDRSS_CTL_207 is shown in Figure 8-298 and described in Table 8-604.

Return to Summary Table.

Table 8-603 DDRSS_CTL_207 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 033Ch
Figure 8-298 DDRSS_CTL_207 Register
3130292827262524
RESERVEDRESERVED
R/W-XR/W-0h
2322212019181716
RESERVEDRESERVED
R/W-XR/W-0h
15141312111098
RESERVEDECC_WRITE_COMBINING_EN
R/W-XR/W-0h
76543210
RESERVEDECC_READ_CACHING_EN
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-604 DDRSS_CTL_207 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24RESERVEDR/W0h

Reserved

23-20RESERVEDR/WX
19-16RESERVEDR/W0h

Reserved

15-9RESERVEDR/WX
8ECC_WRITE_COMBINING_ENR/W0h

Allows ECC write data within a given ECC buffer to be combined across commands so that in certain cases where we see multiple ECC writes to the same ECC address, the controller may end up only issuing one final ECC write command to memory.

7-1RESERVEDR/WX
0ECC_READ_CACHING_ENR/W0h

Allows ECC read data already in one of the ECC buffers to be used when possible in place of issuing an ECC read command to memory.
This implies that some ECC read commands will be dropped in the command queue when it can pull the read data from the buffer instead.

2.5.2.207 DDRSS_CTL_208 Register (Offset = 340h) [reset = X]

DDRSS_CTL_208 is shown in Figure 8-299 and described in Table 8-606.

Return to Summary Table.

Table 8-605 DDRSS_CTL_208 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0340h
Figure 8-299 DDRSS_CTL_208 Register
3130292827262524
RESERVEDECC_WRITEBACK_EN
R/W-XR/W-0h
2322212019181716
XOR_CHECK_BITS
R/W-0h
15141312111098
XOR_CHECK_BITS
R/W-0h
76543210
RESERVEDFWC
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-606 DDRSS_CTL_208 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24ECC_WRITEBACK_ENR/W0h

ECC writeback will occur on detection of single bit errors for reads.
The ECC_ENABLE parameter must be programmed to 3 for this to take any effect.
Note that no writebacks will be issued during BIST.

23-8XOR_CHECK_BITSR/W0h

Value to xor with generated ECC codes for forced write check.

7-1RESERVEDR/WX
0FWCR/W0h

Force a write check.
Xor the XOR_CHECK_BITS parameter with the ECC code and write to memory.
Set to 1 to trigger.

2.5.2.208 DDRSS_CTL_209 Register (Offset = 344h) [reset = X]

DDRSS_CTL_209 is shown in Figure 8-300 and described in Table 8-608.

Return to Summary Table.

Table 8-607 DDRSS_CTL_209 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0344h
Figure 8-300 DDRSS_CTL_209 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVED
R/W-X
15141312111098
RESERVED
R/W-X
76543210
RESERVEDECC_DISABLE_W_UC_ERR
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-608 DDRSS_CTL_209 Register Field Descriptions
BitFieldTypeResetDescription
31-1RESERVEDR/WX
0ECC_DISABLE_W_UC_ERRR/W0h

Controls auto-corruption of ECC when un-correctable errors occur in R/M/W operations.
Set to 1 to disable corruption.

2.5.2.209 DDRSS_CTL_210 Register (Offset = 348h) [reset = 0h]

DDRSS_CTL_210 is shown in Figure 8-301 and described in Table 8-610.

Return to Summary Table.

Table 8-609 DDRSS_CTL_210 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0348h
Figure 8-301 DDRSS_CTL_210 Register
313029282726252423222120191817161514131211109876543210
ECC_U_ADDR_0
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-610 DDRSS_CTL_210 Register Field Descriptions
BitFieldTypeResetDescription
31-0ECC_U_ADDR_0R0h

Address of uncorrectable ECC event.
READ-ONLY

2.5.2.210 DDRSS_CTL_211 Register (Offset = 34Ch) [reset = X]

DDRSS_CTL_211 is shown in Figure 8-302 and described in Table 8-612.

Return to Summary Table.

Table 8-611 DDRSS_CTL_211 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 034Ch
Figure 8-302 DDRSS_CTL_211 Register
3130292827262524
RESERVED
R-X
2322212019181716
RESERVED
R-X
15141312111098
ECC_U_SYND
R-0h
76543210
RESERVEDECC_U_ADDR_1
R-XR-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-612 DDRSS_CTL_211 Register Field Descriptions
BitFieldTypeResetDescription
31-16RESERVEDRX
15-8ECC_U_SYNDR0h

Syndrome for uncorrectable ECC event.
READ-ONLY

7-3RESERVEDRX
2-0ECC_U_ADDR_1R0h

Address of uncorrectable ECC event.
READ-ONLY

2.5.2.211 DDRSS_CTL_212 Register (Offset = 350h) [reset = 0h]

DDRSS_CTL_212 is shown in Figure 8-303 and described in Table 8-614.

Return to Summary Table.

Table 8-613 DDRSS_CTL_212 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0350h
Figure 8-303 DDRSS_CTL_212 Register
313029282726252423222120191817161514131211109876543210
ECC_U_DATA_0
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-614 DDRSS_CTL_212 Register Field Descriptions
BitFieldTypeResetDescription
31-0ECC_U_DATA_0R0h

Data associated with uncorrectable ECC event.
READ-ONLY

2.5.2.212 DDRSS_CTL_213 Register (Offset = 354h) [reset = 0h]

DDRSS_CTL_213 is shown in Figure 8-304 and described in Table 8-616.

Return to Summary Table.

Table 8-615 DDRSS_CTL_213 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0354h
Figure 8-304 DDRSS_CTL_213 Register
313029282726252423222120191817161514131211109876543210
ECC_U_DATA_1
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-616 DDRSS_CTL_213 Register Field Descriptions
BitFieldTypeResetDescription
31-0ECC_U_DATA_1R0h

Data associated with uncorrectable ECC event.
READ-ONLY

2.5.2.213 DDRSS_CTL_214 Register (Offset = 358h) [reset = 0h]

DDRSS_CTL_214 is shown in Figure 8-305 and described in Table 8-618.

Return to Summary Table.

Table 8-617 DDRSS_CTL_214 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0358h
Figure 8-305 DDRSS_CTL_214 Register
313029282726252423222120191817161514131211109876543210
ECC_C_ADDR_0
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-618 DDRSS_CTL_214 Register Field Descriptions
BitFieldTypeResetDescription
31-0ECC_C_ADDR_0R0h

Address of correctable ECC event.
READ-ONLY

2.5.2.214 DDRSS_CTL_215 Register (Offset = 35Ch) [reset = X]

DDRSS_CTL_215 is shown in Figure 8-306 and described in Table 8-620.

Return to Summary Table.

Table 8-619 DDRSS_CTL_215 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 035Ch
Figure 8-306 DDRSS_CTL_215 Register
3130292827262524
RESERVED
R-X
2322212019181716
RESERVED
R-X
15141312111098
ECC_C_SYND
R-0h
76543210
RESERVEDECC_C_ADDR_1
R-XR-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-620 DDRSS_CTL_215 Register Field Descriptions
BitFieldTypeResetDescription
31-16RESERVEDRX
15-8ECC_C_SYNDR0h

Syndrome for correctable ECC event.
READ-ONLY

7-3RESERVEDRX
2-0ECC_C_ADDR_1R0h

Address of correctable ECC event.
READ-ONLY

2.5.2.215 DDRSS_CTL_216 Register (Offset = 360h) [reset = 0h]

DDRSS_CTL_216 is shown in Figure 8-307 and described in Table 8-622.

Return to Summary Table.

Table 8-621 DDRSS_CTL_216 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0360h
Figure 8-307 DDRSS_CTL_216 Register
313029282726252423222120191817161514131211109876543210
ECC_C_DATA_0
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-622 DDRSS_CTL_216 Register Field Descriptions
BitFieldTypeResetDescription
31-0ECC_C_DATA_0R0h

Data associated with correctable ECC event.
READ-ONLY

2.5.2.216 DDRSS_CTL_217 Register (Offset = 364h) [reset = 0h]

DDRSS_CTL_217 is shown in Figure 8-308 and described in Table 8-624.

Return to Summary Table.

Table 8-623 DDRSS_CTL_217 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0364h
Figure 8-308 DDRSS_CTL_217 Register
313029282726252423222120191817161514131211109876543210
ECC_C_DATA_1
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-624 DDRSS_CTL_217 Register Field Descriptions
BitFieldTypeResetDescription
31-0ECC_C_DATA_1R0h

Data associated with correctable ECC event.
READ-ONLY

2.5.2.217 DDRSS_CTL_218 Register (Offset = 368h) [reset = X]

DDRSS_CTL_218 is shown in Figure 8-309 and described in Table 8-626.

Return to Summary Table.

Table 8-625 DDRSS_CTL_218 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0368h
Figure 8-309 DDRSS_CTL_218 Register
3130292827262524
RESERVEDNON_ECC_REGION_START_ADDR_0
R/W-XR/W-0h
2322212019181716
NON_ECC_REGION_START_ADDR_0
R/W-0h
15141312111098
RESERVEDECC_C_ID
R/W-XR-0h
76543210
RESERVEDECC_U_ID
R/W-XR-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-626 DDRSS_CTL_218 Register Field Descriptions
BitFieldTypeResetDescription
31RESERVEDR/WX
30-16NON_ECC_REGION_START_ADDR_0R/W0h

Set the base address of the soft-designated non-ECC region 0.
The address written is 1Mbyte aligned.

15-14RESERVEDR/WX
13-8ECC_C_IDR0h

Source ID associated with correctable ECC event.
READ-ONLY

7-6RESERVEDR/WX
5-0ECC_U_IDR0h

Source ID associated with the uncorrectable ECC event.
READ-ONLY

2.5.2.218 DDRSS_CTL_219 Register (Offset = 36Ch) [reset = X]

DDRSS_CTL_219 is shown in Figure 8-310 and described in Table 8-628.

Return to Summary Table.

Table 8-627 DDRSS_CTL_219 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 036Ch
Figure 8-310 DDRSS_CTL_219 Register
3130292827262524
RESERVEDNON_ECC_REGION_START_ADDR_1
R/W-XR/W-0h
2322212019181716
NON_ECC_REGION_START_ADDR_1
R/W-0h
15141312111098
RESERVEDNON_ECC_REGION_END_ADDR_0
R/W-XR/W-0h
76543210
NON_ECC_REGION_END_ADDR_0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-628 DDRSS_CTL_219 Register Field Descriptions
BitFieldTypeResetDescription
31RESERVEDR/WX
30-16NON_ECC_REGION_START_ADDR_1R/W0h

Set the base address of the soft-designated non-ECC region 1.
The address written is 1Mbyte aligned.

15RESERVEDR/WX
14-0NON_ECC_REGION_END_ADDR_0R/W0h

Set the base address of the soft-designated non-ECC region 0.
The address written is 1Mbyte aligned.

2.5.2.219 DDRSS_CTL_220 Register (Offset = 370h) [reset = X]

DDRSS_CTL_220 is shown in Figure 8-311 and described in Table 8-630.

Return to Summary Table.

Table 8-629 DDRSS_CTL_220 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0370h
Figure 8-311 DDRSS_CTL_220 Register
3130292827262524
RESERVEDNON_ECC_REGION_START_ADDR_2
R/W-XR/W-0h
2322212019181716
NON_ECC_REGION_START_ADDR_2
R/W-0h
15141312111098
RESERVEDNON_ECC_REGION_END_ADDR_1
R/W-XR/W-0h
76543210
NON_ECC_REGION_END_ADDR_1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-630 DDRSS_CTL_220 Register Field Descriptions
BitFieldTypeResetDescription
31RESERVEDR/WX
30-16NON_ECC_REGION_START_ADDR_2R/W0h

Set the base address of the soft-designated non-ECC region 2.
The address written is 1Mbyte aligned.

15RESERVEDR/WX
14-0NON_ECC_REGION_END_ADDR_1R/W0h

Set the base address of the soft-designated non-ECC region 1.
The address written is 1Mbyte aligned.

2.5.2.220 DDRSS_CTL_221 Register (Offset = 374h) [reset = X]

DDRSS_CTL_221 is shown in Figure 8-312 and described in Table 8-632.

Return to Summary Table.

Table 8-631 DDRSS_CTL_221 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0374h
Figure 8-312 DDRSS_CTL_221 Register
3130292827262524
RESERVEDECC_SCRUB_START
R/W-XW-0h
2322212019181716
RESERVEDNON_ECC_REGION_ENABLE
R/W-XR/W-0h
15141312111098
RESERVEDNON_ECC_REGION_END_ADDR_2
R/W-XR/W-0h
76543210
NON_ECC_REGION_END_ADDR_2
R/W-0h
LEGEND: R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-632 DDRSS_CTL_221 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24ECC_SCRUB_STARTW0h

ECC scrubbing control.
Set to 1 to kick start the scrubbing operation.
WRITE-ONLY

23-19RESERVEDR/WX
18-16NON_ECC_REGION_ENABLER/W0h

Enables each soft-designated non-ECC region.
Bit (0) correlates to region 0, bit (1) correlates to region 1, etc.
Set each bit to 1 to enable.

15RESERVEDR/WX
14-0NON_ECC_REGION_END_ADDR_2R/W0h

Set the base address of the soft-designated non-ECC region 2.
The address written is 1Mbyte aligned.

2.5.2.221 DDRSS_CTL_222 Register (Offset = 378h) [reset = X]

DDRSS_CTL_222 is shown in Figure 8-313 and described in Table 8-634.

Return to Summary Table.

Table 8-633 DDRSS_CTL_222 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0378h
Figure 8-313 DDRSS_CTL_222 Register
3130292827262524
RESERVEDECC_SCRUB_MODE
R/W-XR/W-0h
2322212019181716
RESERVEDECC_SCRUB_LEN
R/W-XR/W-0h
15141312111098
ECC_SCRUB_LEN
R/W-0h
76543210
RESERVEDECC_SCRUB_IN_PROGRESS
R/W-XR-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-634 DDRSS_CTL_222 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24ECC_SCRUB_MODER/W0h

Defines how often ECC scrubbing operations will occur.
Clear to 0 to scrub at regular intervals as dictated by the ECC_SCRUB_INTERVAL parameter, or set to 1 to scrub only when the controller is idle.

23-20RESERVEDR/WX
19-8ECC_SCRUB_LENR/W0h

Defines the length of the ECC scrubbing read command that the controller will issue.

7-1RESERVEDR/WX
0ECC_SCRUB_IN_PROGRESSR0h

Reports the scrubbing operation status.
A value of 1 indicates that the controller is in the process of performing a scrubbing operation.
READ-ONLY

2.5.2.222 DDRSS_CTL_223 Register (Offset = 37Ch) [reset = 0h]

DDRSS_CTL_223 is shown in Figure 8-314 and described in Table 8-636.

Return to Summary Table.

Table 8-635 DDRSS_CTL_223 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 037Ch
Figure 8-314 DDRSS_CTL_223 Register
31302928272625242322212019181716
ECC_SCRUB_IDLE_CNT
R/W-0h
1514131211109876543210
ECC_SCRUB_INTERVAL
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-636 DDRSS_CTL_223 Register Field Descriptions
BitFieldTypeResetDescription
31-16ECC_SCRUB_IDLE_CNTR/W0h

The number of controller clock cycles that the scrubbing engine will wait in controller idle state before starting scrubbing operations.
Valid when the ECC_SCRUB_MODE parameter is set to 1.

15-0ECC_SCRUB_INTERVALR/W0h

The minimum interval between two ECC scrubbing commands in number of controller clock cycles.
Valid when the ECC_SCRUB_MODE parameter is cleared to 0.

2.5.2.223 DDRSS_CTL_224 Register (Offset = 380h) [reset = 0h]

DDRSS_CTL_224 is shown in Figure 8-315 and described in Table 8-638.

Return to Summary Table.

Table 8-637 DDRSS_CTL_224 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0380h
Figure 8-315 DDRSS_CTL_224 Register
313029282726252423222120191817161514131211109876543210
ECC_SCRUB_START_ADDR_0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-638 DDRSS_CTL_224 Register Field Descriptions
BitFieldTypeResetDescription
31-0ECC_SCRUB_START_ADDR_0R/W0h

The starting address from where scrubbing operations will begin.

2.5.2.224 DDRSS_CTL_225 Register (Offset = 384h) [reset = X]

DDRSS_CTL_225 is shown in Figure 8-316 and described in Table 8-640.

Return to Summary Table.

Table 8-639 DDRSS_CTL_225 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0384h
Figure 8-316 DDRSS_CTL_225 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVED
R/W-X
15141312111098
RESERVED
R/W-X
76543210
RESERVEDECC_SCRUB_START_ADDR_1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-640 DDRSS_CTL_225 Register Field Descriptions
BitFieldTypeResetDescription
31-3RESERVEDR/WX
2-0ECC_SCRUB_START_ADDR_1R/W0h

The starting address from where scrubbing operations will begin.

2.5.2.225 DDRSS_CTL_226 Register (Offset = 388h) [reset = 0h]

DDRSS_CTL_226 is shown in Figure 8-317 and described in Table 8-642.

Return to Summary Table.

Table 8-641 DDRSS_CTL_226 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0388h
Figure 8-317 DDRSS_CTL_226 Register
313029282726252423222120191817161514131211109876543210
ECC_SCRUB_END_ADDR_0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-642 DDRSS_CTL_226 Register Field Descriptions
BitFieldTypeResetDescription
31-0ECC_SCRUB_END_ADDR_0R/W0h

The end address where scrubbing operations will wrap around to the start address.
If this parameter is cleared to 0, the maximum physical address will be considered as the end address.

2.5.2.226 DDRSS_CTL_227 Register (Offset = 38Ch) [reset = X]

DDRSS_CTL_227 is shown in Figure 8-318 and described in Table 8-644.

Return to Summary Table.

Table 8-643 DDRSS_CTL_227 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 038Ch
Figure 8-318 DDRSS_CTL_227 Register
3130292827262524
RESERVEDAREF_HIGH_THRESHOLD
R/W-XR/W-0h
2322212019181716
RESERVEDAREF_NORM_THRESHOLD
R/W-XR/W-0h
15141312111098
RESERVEDLONG_COUNT_MASK
R/W-XR/W-0h
76543210
RESERVEDECC_SCRUB_END_ADDR_1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-644 DDRSS_CTL_227 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24AREF_HIGH_THRESHOLDR/W0h

AREF number of pending refreshes until the high priority request is asserted.

23-21RESERVEDR/WX
20-16AREF_NORM_THRESHOLDR/W0h

AREF number of pending refreshes until the normal priority request is asserted.

15-13RESERVEDR/WX
12-8LONG_COUNT_MASKR/W0h

Reduces the length of the long counter from 1024 cycles.
The only supported values are 0x00 (1024 cycles), 0x10 (512 clocks), 0x18 (256 clocks), 0x1C (128 clocks), 0x1E (64 clocks) and 0x1F (32 clocks).

7-3RESERVEDR/WX
2-0ECC_SCRUB_END_ADDR_1R/W0h

The end address where scrubbing operations will wrap around to the start address.
If this parameter is cleared to 0, the maximum physical address will be considered as the end address.

2.5.2.227 DDRSS_CTL_228 Register (Offset = 390h) [reset = X]

DDRSS_CTL_228 is shown in Figure 8-319 and described in Table 8-646.

Return to Summary Table.

Table 8-645 DDRSS_CTL_228 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0390h
Figure 8-319 DDRSS_CTL_228 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVEDAREF_CMD_MAX_PER_TREFI
R/W-XR/W-0h
15141312111098
RESERVEDAREF_MAX_CREDIT
R/W-XR/W-0h
76543210
RESERVEDAREF_MAX_DEFICIT
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-646 DDRSS_CTL_228 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-16AREF_CMD_MAX_PER_TREFIR/W0h

Sets the maximum number of auto-refreshes that will be executed in a TREFI period - both normal and high priority.
This does not prevent refreshes generated by sub-task requests such as a self-refresh exit and enter.

15-13RESERVEDR/WX
12-8AREF_MAX_CREDITR/W0h

AREF number of posted refreshes until the maximum number of refresh credits has been reached.

7-5RESERVEDR/WX
4-0AREF_MAX_DEFICITR/W0h

AREF number of pending refreshes until the maximum number of refreshes has been exceeded.

2.5.2.228 DDRSS_CTL_229 Register (Offset = 394h) [reset = 0h]

DDRSS_CTL_229 is shown in Figure 8-320 and described in Table 8-648.

Return to Summary Table.

Table 8-647 DDRSS_CTL_229 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0394h
Figure 8-320 DDRSS_CTL_229 Register
31302928272625242322212019181716
ZQ_CALSTART_HIGH_THRESHOLD_F0
R/W-0h
1514131211109876543210
ZQ_CALSTART_NORM_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-648 DDRSS_CTL_229 Register Field Descriptions
BitFieldTypeResetDescription
31-16ZQ_CALSTART_HIGH_THRESHOLD_F0R/W0h

ZQ START number of long counts until the high priority request is asserted for frequency copy 0.

15-0ZQ_CALSTART_NORM_THRESHOLD_F0R/W0h

ZQ START number of long counts until the normal priority request is asserted for frequency copy 0.
This value should be scaled based on the number of ranks (chip selects) the controller handles.
The more chip selects there are, the more rotations there are to go through, and the smaller this threshold should be.

2.5.2.229 DDRSS_CTL_230 Register (Offset = 398h) [reset = 0h]

DDRSS_CTL_230 is shown in Figure 8-321 and described in Table 8-650.

Return to Summary Table.

Table 8-649 DDRSS_CTL_230 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0398h
Figure 8-321 DDRSS_CTL_230 Register
31302928272625242322212019181716
ZQ_CS_NORM_THRESHOLD_F0
R/W-0h
1514131211109876543210
ZQ_CALLATCH_HIGH_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-650 DDRSS_CTL_230 Register Field Descriptions
BitFieldTypeResetDescription
31-16ZQ_CS_NORM_THRESHOLD_F0R/W0h

ZQ CS number of long counts until the normal priority request is asserted for frequency copy 0.

15-0ZQ_CALLATCH_HIGH_THRESHOLD_F0R/W0h

ZQ LATCH number of long counts until the high priority request is asserted for frequency copy 0.

2.5.2.230 DDRSS_CTL_231 Register (Offset = 39Ch) [reset = 0h]

DDRSS_CTL_231 is shown in Figure 8-322 and described in Table 8-652.

Return to Summary Table.

Table 8-651 DDRSS_CTL_231 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 039Ch
Figure 8-322 DDRSS_CTL_231 Register
31302928272625242322212019181716
ZQ_CALSTART_TIMEOUT_F0
R/W-0h
1514131211109876543210
ZQ_CS_HIGH_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-652 DDRSS_CTL_231 Register Field Descriptions
BitFieldTypeResetDescription
31-16ZQ_CALSTART_TIMEOUT_F0R/W0h

ZQ START number of long counts until the timeout is asserted for frequency copy 0.

15-0ZQ_CS_HIGH_THRESHOLD_F0R/W0h

ZQ CS number of long counts until the high priority request is asserted for frequency copy 0.

2.5.2.231 DDRSS_CTL_232 Register (Offset = 3A0h) [reset = 0h]

DDRSS_CTL_232 is shown in Figure 8-323 and described in Table 8-654.

Return to Summary Table.

Table 8-653 DDRSS_CTL_232 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03A0h
Figure 8-323 DDRSS_CTL_232 Register
31302928272625242322212019181716
ZQ_CS_TIMEOUT_F0
R/W-0h
1514131211109876543210
ZQ_CALLATCH_TIMEOUT_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-654 DDRSS_CTL_232 Register Field Descriptions
BitFieldTypeResetDescription
31-16ZQ_CS_TIMEOUT_F0R/W0h

ZQ CS number of long counts until the timeout is asserted for frequency copy 0.

15-0ZQ_CALLATCH_TIMEOUT_F0R/W0h

ZQ LATCH number of long counts until the timeout is asserted for frequency copy 0.

2.5.2.232 DDRSS_CTL_233 Register (Offset = 3A4h) [reset = 0h]

DDRSS_CTL_233 is shown in Figure 8-324 and described in Table 8-656.

Return to Summary Table.

Table 8-655 DDRSS_CTL_233 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03A4h
Figure 8-324 DDRSS_CTL_233 Register
31302928272625242322212019181716
ZQ_CALSTART_NORM_THRESHOLD_F1
R/W-0h
1514131211109876543210
ZQ_PROMOTE_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-656 DDRSS_CTL_233 Register Field Descriptions
BitFieldTypeResetDescription
31-16ZQ_CALSTART_NORM_THRESHOLD_F1R/W0h

ZQ START number of long counts until the normal priority request is asserted for frequency copy 1.
This value should be scaled based on the number of ranks (chip selects) the controller handles.
The more chip selects there are, the more rotations there are to go through, and the smaller this threshold should be.

15-0ZQ_PROMOTE_THRESHOLD_F0R/W0h

ZQ SW promotion number of long counts until the high priority request is asserted for frequency copy 0.

2.5.2.233 DDRSS_CTL_234 Register (Offset = 3A8h) [reset = 0h]

DDRSS_CTL_234 is shown in Figure 8-325 and described in Table 8-658.

Return to Summary Table.

Table 8-657 DDRSS_CTL_234 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03A8h
Figure 8-325 DDRSS_CTL_234 Register
31302928272625242322212019181716
ZQ_CALLATCH_HIGH_THRESHOLD_F1
R/W-0h
1514131211109876543210
ZQ_CALSTART_HIGH_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-658 DDRSS_CTL_234 Register Field Descriptions
BitFieldTypeResetDescription
31-16ZQ_CALLATCH_HIGH_THRESHOLD_F1R/W0h

ZQ LATCH number of long counts until the high priority request is asserted for frequency copy 1.

15-0ZQ_CALSTART_HIGH_THRESHOLD_F1R/W0h

ZQ START number of long counts until the high priority request is asserted for frequency copy 1.

2.5.2.234 DDRSS_CTL_235 Register (Offset = 3ACh) [reset = 0h]

DDRSS_CTL_235 is shown in Figure 8-326 and described in Table 8-660.

Return to Summary Table.

Table 8-659 DDRSS_CTL_235 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03ACh
Figure 8-326 DDRSS_CTL_235 Register
31302928272625242322212019181716
ZQ_CS_HIGH_THRESHOLD_F1
R/W-0h
1514131211109876543210
ZQ_CS_NORM_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-660 DDRSS_CTL_235 Register Field Descriptions
BitFieldTypeResetDescription
31-16ZQ_CS_HIGH_THRESHOLD_F1R/W0h

ZQ CS number of long counts until the high priority request is asserted for frequency copy 1.

15-0ZQ_CS_NORM_THRESHOLD_F1R/W0h

ZQ CS number of long counts until the normal priority request is asserted for frequency copy 1.

2.5.2.235 DDRSS_CTL_236 Register (Offset = 3B0h) [reset = 0h]

DDRSS_CTL_236 is shown in Figure 8-327 and described in Table 8-662.

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Table 8-661 DDRSS_CTL_236 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03B0h
Figure 8-327 DDRSS_CTL_236 Register
31302928272625242322212019181716
ZQ_CALLATCH_TIMEOUT_F1
R/W-0h
1514131211109876543210
ZQ_CALSTART_TIMEOUT_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-662 DDRSS_CTL_236 Register Field Descriptions
BitFieldTypeResetDescription
31-16ZQ_CALLATCH_TIMEOUT_F1R/W0h

ZQ LATCH number of long counts until the timeout is asserted for frequency copy 1.

15-0ZQ_CALSTART_TIMEOUT_F1R/W0h

ZQ START number of long counts until the timeout is asserted for frequency copy 1.

2.5.2.236 DDRSS_CTL_237 Register (Offset = 3B4h) [reset = 0h]

DDRSS_CTL_237 is shown in Figure 8-328 and described in Table 8-664.

Return to Summary Table.

Table 8-663 DDRSS_CTL_237 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03B4h
Figure 8-328 DDRSS_CTL_237 Register
31302928272625242322212019181716
ZQ_PROMOTE_THRESHOLD_F1
R/W-0h
1514131211109876543210
ZQ_CS_TIMEOUT_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-664 DDRSS_CTL_237 Register Field Descriptions
BitFieldTypeResetDescription
31-16ZQ_PROMOTE_THRESHOLD_F1R/W0h

ZQ SW promotion number of long counts until the high priority request is asserted for frequency copy 1.

15-0ZQ_CS_TIMEOUT_F1R/W0h

ZQ CS number of long counts until the timeout is asserted for frequency copy 1.

2.5.2.237 DDRSS_CTL_238 Register (Offset = 3B8h) [reset = 0h]

DDRSS_CTL_238 is shown in Figure 8-329 and described in Table 8-666.

Return to Summary Table.

Table 8-665 DDRSS_CTL_238 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03B8h
Figure 8-329 DDRSS_CTL_238 Register
31302928272625242322212019181716
ZQ_CALSTART_HIGH_THRESHOLD_F2
R/W-0h
1514131211109876543210
ZQ_CALSTART_NORM_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-666 DDRSS_CTL_238 Register Field Descriptions
BitFieldTypeResetDescription
31-16ZQ_CALSTART_HIGH_THRESHOLD_F2R/W0h

ZQ START number of long counts until the high priority request is asserted for frequency copy 2.

15-0ZQ_CALSTART_NORM_THRESHOLD_F2R/W0h

ZQ START number of long counts until the normal priority request is asserted for frequency copy 2.
This value should be scaled based on the number of ranks (chip selects) the controller handles.
The more chip selects there are, the more rotations there are to go through, and the smaller this threshold should be.

2.5.2.238 DDRSS_CTL_239 Register (Offset = 3BCh) [reset = 0h]

DDRSS_CTL_239 is shown in Figure 8-330 and described in Table 8-668.

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Table 8-667 DDRSS_CTL_239 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03BCh
Figure 8-330 DDRSS_CTL_239 Register
31302928272625242322212019181716
ZQ_CS_NORM_THRESHOLD_F2
R/W-0h
1514131211109876543210
ZQ_CALLATCH_HIGH_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-668 DDRSS_CTL_239 Register Field Descriptions
BitFieldTypeResetDescription
31-16ZQ_CS_NORM_THRESHOLD_F2R/W0h

ZQ CS number of long counts until the normal priority request is asserted for frequency copy 2.

15-0ZQ_CALLATCH_HIGH_THRESHOLD_F2R/W0h

ZQ LATCH number of long counts until the high priority request is asserted for frequency copy 2.

2.5.2.239 DDRSS_CTL_240 Register (Offset = 3C0h) [reset = 0h]

DDRSS_CTL_240 is shown in Figure 8-331 and described in Table 8-670.

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Table 8-669 DDRSS_CTL_240 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03C0h
Figure 8-331 DDRSS_CTL_240 Register
31302928272625242322212019181716
ZQ_CALSTART_TIMEOUT_F2
R/W-0h
1514131211109876543210
ZQ_CS_HIGH_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-670 DDRSS_CTL_240 Register Field Descriptions
BitFieldTypeResetDescription
31-16ZQ_CALSTART_TIMEOUT_F2R/W0h

ZQ START number of long counts until the timeout is asserted for frequency copy 2.

15-0ZQ_CS_HIGH_THRESHOLD_F2R/W0h

ZQ CS number of long counts until the high priority request is asserted for frequency copy 2.

2.5.2.240 DDRSS_CTL_241 Register (Offset = 3C4h) [reset = 0h]

DDRSS_CTL_241 is shown in Figure 8-332 and described in Table 8-672.

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Table 8-671 DDRSS_CTL_241 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03C4h
Figure 8-332 DDRSS_CTL_241 Register
31302928272625242322212019181716
ZQ_CS_TIMEOUT_F2
R/W-0h
1514131211109876543210
ZQ_CALLATCH_TIMEOUT_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-672 DDRSS_CTL_241 Register Field Descriptions
BitFieldTypeResetDescription
31-16ZQ_CS_TIMEOUT_F2R/W0h

ZQ CS number of long counts until the timeout is asserted for frequency copy 2.

15-0ZQ_CALLATCH_TIMEOUT_F2R/W0h

ZQ LATCH number of long counts until the timeout is asserted for frequency copy 2.

2.5.2.241 DDRSS_CTL_242 Register (Offset = 3C8h) [reset = X]

DDRSS_CTL_242 is shown in Figure 8-333 and described in Table 8-674.

Return to Summary Table.

Table 8-673 DDRSS_CTL_242 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03C8h
Figure 8-333 DDRSS_CTL_242 Register
31302928272625242322212019181716
RESERVEDRESERVED
R/W-XR/W-0h
1514131211109876543210
ZQ_PROMOTE_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-674 DDRSS_CTL_242 Register Field Descriptions
BitFieldTypeResetDescription
31-19RESERVEDR/WX
18-16RESERVEDR/W0h

Reserved

15-0ZQ_PROMOTE_THRESHOLD_F2R/W0h

ZQ SW promotion number of long counts until the high priority request is asserted for frequency copy 2.

2.5.2.242 DDRSS_CTL_243 Register (Offset = 3CCh) [reset = 0h]

DDRSS_CTL_243 is shown in Figure 8-334 and described in Table 8-676.

Return to Summary Table.

Table 8-675 DDRSS_CTL_243 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03CCh
Figure 8-334 DDRSS_CTL_243 Register
31302928272625242322212019181716
WATCHDOG_THRESHOLD_BUS_ARB_F0
R/W-0h
1514131211109876543210
WATCHDOG_THRESHOLD_TASK_ARB_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-676 DDRSS_CTL_243 Register Field Descriptions
BitFieldTypeResetDescription
31-16WATCHDOG_THRESHOLD_BUS_ARB_F0R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 0.

15-0WATCHDOG_THRESHOLD_TASK_ARB_F0R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 0.

2.5.2.243 DDRSS_CTL_244 Register (Offset = 3D0h) [reset = 0h]

DDRSS_CTL_244 is shown in Figure 8-335 and described in Table 8-678.

Return to Summary Table.

Table 8-677 DDRSS_CTL_244 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03D0h
Figure 8-335 DDRSS_CTL_244 Register
31302928272625242322212019181716
WATCHDOG_THRESHOLD_SPLIT_F0
R/W-0h
1514131211109876543210
WATCHDOG_THRESHOLD_PORT0_CMD_ARB_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-678 DDRSS_CTL_244 Register Field Descriptions
BitFieldTypeResetDescription
31-16WATCHDOG_THRESHOLD_SPLIT_F0R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 0.

15-0WATCHDOG_THRESHOLD_PORT0_CMD_ARB_F0R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 0.

2.5.2.244 DDRSS_CTL_245 Register (Offset = 3D4h) [reset = 0h]

DDRSS_CTL_245 is shown in Figure 8-336 and described in Table 8-680.

Return to Summary Table.

Table 8-679 DDRSS_CTL_245 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03D4h
Figure 8-336 DDRSS_CTL_245 Register
31302928272625242322212019181716
WATCHDOG_THRESHOLD_PORT_TO_STRATEGY_F0
R/W-0h
1514131211109876543210
WATCHDOG_THRESHOLD_STRATEGY_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-680 DDRSS_CTL_245 Register Field Descriptions
BitFieldTypeResetDescription
31-16WATCHDOG_THRESHOLD_PORT_TO_STRATEGY_F0R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 0.

15-0WATCHDOG_THRESHOLD_STRATEGY_F0R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 0.

2.5.2.245 DDRSS_CTL_246 Register (Offset = 3D8h) [reset = 0h]

DDRSS_CTL_246 is shown in Figure 8-337 and described in Table 8-682.

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Table 8-681 DDRSS_CTL_246 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03D8h
Figure 8-337 DDRSS_CTL_246 Register
31302928272625242322212019181716
WATCHDOG_THRESHOLD_WRITE_DATA_FIFO_F0
R/W-0h
1514131211109876543210
WATCHDOG_THRESHOLD_READ_DATA_FIFO0_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-682 DDRSS_CTL_246 Register Field Descriptions
BitFieldTypeResetDescription
31-16WATCHDOG_THRESHOLD_WRITE_DATA_FIFO_F0R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 0.

15-0WATCHDOG_THRESHOLD_READ_DATA_FIFO0_F0R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 0.

2.5.2.246 DDRSS_CTL_247 Register (Offset = 3DCh) [reset = 0h]

DDRSS_CTL_247 is shown in Figure 8-338 and described in Table 8-684.

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Table 8-683 DDRSS_CTL_247 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03DCh
Figure 8-338 DDRSS_CTL_247 Register
31302928272625242322212019181716
WATCHDOG_THRESHOLD_BUS_ARB_F1
R/W-0h
1514131211109876543210
WATCHDOG_THRESHOLD_TASK_ARB_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-684 DDRSS_CTL_247 Register Field Descriptions
BitFieldTypeResetDescription
31-16WATCHDOG_THRESHOLD_BUS_ARB_F1R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 1.

15-0WATCHDOG_THRESHOLD_TASK_ARB_F1R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 1.

2.5.2.247 DDRSS_CTL_248 Register (Offset = 3E0h) [reset = 0h]

DDRSS_CTL_248 is shown in Figure 8-339 and described in Table 8-686.

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Table 8-685 DDRSS_CTL_248 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03E0h
Figure 8-339 DDRSS_CTL_248 Register
31302928272625242322212019181716
WATCHDOG_THRESHOLD_SPLIT_F1
R/W-0h
1514131211109876543210
WATCHDOG_THRESHOLD_PORT0_CMD_ARB_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-686 DDRSS_CTL_248 Register Field Descriptions
BitFieldTypeResetDescription
31-16WATCHDOG_THRESHOLD_SPLIT_F1R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 1.

15-0WATCHDOG_THRESHOLD_PORT0_CMD_ARB_F1R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 1.

2.5.2.248 DDRSS_CTL_249 Register (Offset = 3E4h) [reset = 0h]

DDRSS_CTL_249 is shown in Figure 8-340 and described in Table 8-688.

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Table 8-687 DDRSS_CTL_249 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03E4h
Figure 8-340 DDRSS_CTL_249 Register
31302928272625242322212019181716
WATCHDOG_THRESHOLD_PORT_TO_STRATEGY_F1
R/W-0h
1514131211109876543210
WATCHDOG_THRESHOLD_STRATEGY_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-688 DDRSS_CTL_249 Register Field Descriptions
BitFieldTypeResetDescription
31-16WATCHDOG_THRESHOLD_PORT_TO_STRATEGY_F1R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 1.

15-0WATCHDOG_THRESHOLD_STRATEGY_F1R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 1.

2.5.2.249 DDRSS_CTL_250 Register (Offset = 3E8h) [reset = 0h]

DDRSS_CTL_250 is shown in Figure 8-341 and described in Table 8-690.

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Table 8-689 DDRSS_CTL_250 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03E8h
Figure 8-341 DDRSS_CTL_250 Register
31302928272625242322212019181716
WATCHDOG_THRESHOLD_WRITE_DATA_FIFO_F1
R/W-0h
1514131211109876543210
WATCHDOG_THRESHOLD_READ_DATA_FIFO0_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-690 DDRSS_CTL_250 Register Field Descriptions
BitFieldTypeResetDescription
31-16WATCHDOG_THRESHOLD_WRITE_DATA_FIFO_F1R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 1.

15-0WATCHDOG_THRESHOLD_READ_DATA_FIFO0_F1R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 1.

2.5.2.250 DDRSS_CTL_251 Register (Offset = 3ECh) [reset = 0h]

DDRSS_CTL_251 is shown in Figure 8-342 and described in Table 8-692.

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Table 8-691 DDRSS_CTL_251 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03ECh
Figure 8-342 DDRSS_CTL_251 Register
31302928272625242322212019181716
WATCHDOG_THRESHOLD_BUS_ARB_F2
R/W-0h
1514131211109876543210
WATCHDOG_THRESHOLD_TASK_ARB_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-692 DDRSS_CTL_251 Register Field Descriptions
BitFieldTypeResetDescription
31-16WATCHDOG_THRESHOLD_BUS_ARB_F2R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 2.

15-0WATCHDOG_THRESHOLD_TASK_ARB_F2R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 2.

2.5.2.251 DDRSS_CTL_252 Register (Offset = 3F0h) [reset = 0h]

DDRSS_CTL_252 is shown in Figure 8-343 and described in Table 8-694.

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Table 8-693 DDRSS_CTL_252 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03F0h
Figure 8-343 DDRSS_CTL_252 Register
31302928272625242322212019181716
WATCHDOG_THRESHOLD_SPLIT_F2
R/W-0h
1514131211109876543210
WATCHDOG_THRESHOLD_PORT0_CMD_ARB_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-694 DDRSS_CTL_252 Register Field Descriptions
BitFieldTypeResetDescription
31-16WATCHDOG_THRESHOLD_SPLIT_F2R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 2.

15-0WATCHDOG_THRESHOLD_PORT0_CMD_ARB_F2R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 2.

2.5.2.252 DDRSS_CTL_253 Register (Offset = 3F4h) [reset = 0h]

DDRSS_CTL_253 is shown in Figure 8-344 and described in Table 8-696.

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Table 8-695 DDRSS_CTL_253 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03F4h
Figure 8-344 DDRSS_CTL_253 Register
31302928272625242322212019181716
WATCHDOG_THRESHOLD_PORT_TO_STRATEGY_F2
R/W-0h
1514131211109876543210
WATCHDOG_THRESHOLD_STRATEGY_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-696 DDRSS_CTL_253 Register Field Descriptions
BitFieldTypeResetDescription
31-16WATCHDOG_THRESHOLD_PORT_TO_STRATEGY_F2R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 2.

15-0WATCHDOG_THRESHOLD_STRATEGY_F2R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 2.

2.5.2.253 DDRSS_CTL_254 Register (Offset = 3F8h) [reset = 0h]

DDRSS_CTL_254 is shown in Figure 8-345 and described in Table 8-698.

Return to Summary Table.

Table 8-697 DDRSS_CTL_254 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03F8h
Figure 8-345 DDRSS_CTL_254 Register
31302928272625242322212019181716
WATCHDOG_THRESHOLD_WRITE_DATA_FIFO_F2
R/W-0h
1514131211109876543210
WATCHDOG_THRESHOLD_READ_DATA_FIFO0_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-698 DDRSS_CTL_254 Register Field Descriptions
BitFieldTypeResetDescription
31-16WATCHDOG_THRESHOLD_WRITE_DATA_FIFO_F2R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 2.

15-0WATCHDOG_THRESHOLD_READ_DATA_FIFO0_F2R/W0h

When watchdog's counter reaches this threshold, it will assert an error when using frequency copy 2.

2.5.2.254 DDRSS_CTL_255 Register (Offset = 3FCh) [reset = X]

DDRSS_CTL_255 is shown in Figure 8-346 and described in Table 8-700.

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Table 8-699 DDRSS_CTL_255 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 03FCh
Figure 8-346 DDRSS_CTL_255 Register
31302928272625242322212019181716
RESERVED
R/W-X
1514131211109876543210
WATCHDOG_DIAGNOSTIC_MODEWATCHDOG_RELOAD
R/W-0hW-0h
LEGEND: R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-700 DDRSS_CTL_255 Register Field Descriptions
BitFieldTypeResetDescription
31-16RESERVEDR/WX
15-8WATCHDOG_DIAGNOSTIC_MODER/W0h

Used to test watchdog timers or to force a failure.
There is one bit for each watchdog timer.
Under normal operation, a watchdog timer will increment its counter after every long counter cycle.
To aid in generating watchdog faults for testing, a watchdog's counter can increment every controller clock cycle instead by setting the corresponding bit in this register to 1.

7-0WATCHDOG_RELOADW0h

Forces reload to assert on all watchdog timers, effectively restarting all watchdog counters and clearing any existing watchdog error assertions.
WRITE-ONLY

2.5.2.255 DDRSS_CTL_256 Register (Offset = 400h) [reset = X]

DDRSS_CTL_256 is shown in Figure 8-347 and described in Table 8-702.

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Table 8-701 DDRSS_CTL_256 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0400h
Figure 8-347 DDRSS_CTL_256 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTIMEOUT_TIMER_LOG
R-XR-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-702 DDRSS_CTL_256 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDRX
19-0TIMEOUT_TIMER_LOGR0h

Reflects which timers experienced a timeout error (or had an uncleared error) when the timeout interrupt fired.
Task arbiter watchdog error is reflected in bit 0.
Bus arbiter watchdog error is reflected in bit 1.
Port 0 command arbiter watchdog error is reflected in bit 2.
Split watchdog error is reflected in bit 3.
Strategy watchdog error is reflected in bit 4.
Port to strategy watchdog error is reflected in bit 5.
Write data FIFO watchdog error is reflected in bit 7.
ZQ calstart FM timeout is reflected in bit 9.
ZQ callatch FM timeout is reflected in bit 10.
ZQ cal init, cs, cl, or reset FM timeout is reflected in bit 8.
Read leveling FM timeout is reflected in bit 11.
Read gate leveling FM timeout is reflected in bit 12.
Write leveling FM timeout is reflected in bit 13.
CA training FM timeout is reflected in bit 14.
DQS oscillator FM timeout is reflected in bit 16.
MRR temperature check FM timeout is reflected in bit 15.
DFI update FM timeout is reflected in bit 17.
Low power interface wakeup timeout is reflected in bit 18.
Auto refresh max deficit timeout is reflected in bit 19.
READ-ONLY

2.5.2.256 DDRSS_CTL_257 Register (Offset = 404h) [reset = X]

DDRSS_CTL_257 is shown in Figure 8-348 and described in Table 8-704.

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Table 8-703 DDRSS_CTL_257 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0404h
Figure 8-348 DDRSS_CTL_257 Register
31302928272625242322212019181716
RESERVEDZQCL_F0
R/W-XR/W-0h
1514131211109876543210
RESERVEDZQINIT_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-704 DDRSS_CTL_257 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-16ZQCL_F0R/W0h

Number of cycles needed for a ZQCL command for frequency copy 0.

15-12RESERVEDR/WX
11-0ZQINIT_F0R/W0h

Number of cycles needed for a ZQINIT command for frequency copy 0.

2.5.2.257 DDRSS_CTL_258 Register (Offset = 408h) [reset = X]

DDRSS_CTL_258 is shown in Figure 8-349 and described in Table 8-706.

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Table 8-705 DDRSS_CTL_258 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0408h
Figure 8-349 DDRSS_CTL_258 Register
31302928272625242322212019181716
RESERVEDTZQCAL_F0
R/W-XR/W-0h
1514131211109876543210
RESERVEDZQCS_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-706 DDRSS_CTL_258 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-16TZQCAL_F0R/W0h

Holds the DRAM ZQCAL value for frequency copy 0 in cycles.

15-12RESERVEDR/WX
11-0ZQCS_F0R/W0h

Number of cycles needed for a ZQCS command for frequency copy 0.

2.5.2.258 DDRSS_CTL_259 Register (Offset = 40Ch) [reset = X]

DDRSS_CTL_259 is shown in Figure 8-350 and described in Table 8-708.

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Table 8-707 DDRSS_CTL_259 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 040Ch
Figure 8-350 DDRSS_CTL_259 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVEDZQINIT_F1
R/W-XR/W-0h
15141312111098
ZQINIT_F1
R/W-0h
76543210
RESERVEDTZQLAT_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-708 DDRSS_CTL_259 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-8ZQINIT_F1R/W0h

Number of cycles needed for a ZQINIT command for frequency copy 1.

7RESERVEDR/WX
6-0TZQLAT_F0R/W0h

Holds the DRAM ZQLAT value for frequency copy 0 in cycles.

2.5.2.259 DDRSS_CTL_260 Register (Offset = 410h) [reset = X]

DDRSS_CTL_260 is shown in Figure 8-351 and described in Table 8-710.

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Table 8-709 DDRSS_CTL_260 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0410h
Figure 8-351 DDRSS_CTL_260 Register
31302928272625242322212019181716
RESERVEDZQCS_F1
R/W-XR/W-0h
1514131211109876543210
RESERVEDZQCL_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-710 DDRSS_CTL_260 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-16ZQCS_F1R/W0h

Number of cycles needed for a ZQCS command for frequency copy 1.

15-12RESERVEDR/WX
11-0ZQCL_F1R/W0h

Number of cycles needed for a ZQCL command for frequency copy 1.

2.5.2.260 DDRSS_CTL_261 Register (Offset = 414h) [reset = X]

DDRSS_CTL_261 is shown in Figure 8-352 and described in Table 8-712.

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Table 8-711 DDRSS_CTL_261 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0414h
Figure 8-352 DDRSS_CTL_261 Register
31302928272625242322212019181716
RESERVEDTZQLAT_F1
R/W-XR/W-0h
1514131211109876543210
RESERVEDTZQCAL_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-712 DDRSS_CTL_261 Register Field Descriptions
BitFieldTypeResetDescription
31-23RESERVEDR/WX
22-16TZQLAT_F1R/W0h

Holds the DRAM ZQLAT value for frequency copy 1 in cycles.

15-12RESERVEDR/WX
11-0TZQCAL_F1R/W0h

Holds the DRAM ZQCAL value for frequency copy 1 in cycles.

2.5.2.261 DDRSS_CTL_262 Register (Offset = 418h) [reset = X]

DDRSS_CTL_262 is shown in Figure 8-353 and described in Table 8-714.

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Table 8-713 DDRSS_CTL_262 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0418h
Figure 8-353 DDRSS_CTL_262 Register
31302928272625242322212019181716
RESERVEDZQCL_F2
R/W-XR/W-0h
1514131211109876543210
RESERVEDZQINIT_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-714 DDRSS_CTL_262 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-16ZQCL_F2R/W0h

Number of cycles needed for a ZQCL command for frequency copy 2.

15-12RESERVEDR/WX
11-0ZQINIT_F2R/W0h

Number of cycles needed for a ZQINIT command for frequency copy 2.

2.5.2.262 DDRSS_CTL_263 Register (Offset = 41Ch) [reset = X]

DDRSS_CTL_263 is shown in Figure 8-354 and described in Table 8-716.

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Table 8-715 DDRSS_CTL_263 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 041Ch
Figure 8-354 DDRSS_CTL_263 Register
31302928272625242322212019181716
RESERVEDTZQCAL_F2
R/W-XR/W-0h
1514131211109876543210
RESERVEDZQCS_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-716 DDRSS_CTL_263 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-16TZQCAL_F2R/W0h

Holds the DRAM ZQCAL value for frequency copy 2 in cycles.

15-12RESERVEDR/WX
11-0ZQCS_F2R/W0h

Number of cycles needed for a ZQCS command for frequency copy 2.

2.5.2.263 DDRSS_CTL_264 Register (Offset = 420h) [reset = X]

DDRSS_CTL_264 is shown in Figure 8-355 and described in Table 8-718.

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Table 8-717 DDRSS_CTL_264 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0420h
Figure 8-355 DDRSS_CTL_264 Register
3130292827262524
RESERVEDZQ_REQ_PENDING
R/W-XR-0h
2322212019181716
RESERVEDZQ_REQ
R/W-XW-0h
15141312111098
RESERVEDZQ_SW_REQ_START_LATCH_MAP
R/W-XR/W-0h
76543210
RESERVEDTZQLAT_F2
R/W-XR/W-0h
LEGEND: R = Read Only; R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-718 DDRSS_CTL_264 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24ZQ_REQ_PENDINGR0h

Indicates that a ZQ command is currently in progress or waiting to run.
Value of 1 indicates command in progress or waiting to run.
When this is asserted, no writes to ZQ_REQ should occur.
READ-ONLY

23-20RESERVEDR/WX
19-16ZQ_REQW0h

User request to initiate a ZQ calibration.
Program to 1 for ZQ Short (ZQCS), program to 2 for ZQ Long (ZQCL), program to 3 for ZQ Start, program to 4 for ZQ Initialization (ZQINIT), program to 5 for ZQ Latch, or program to 8 for ZQ Reset.
Clearing to 0 will not trigger any ZQ command.
This parameter should only be written when the ZQ_REQ_PENDING parameter is cleared to 0.
WRITE-ONLY

15-10RESERVEDR/WX
9-8ZQ_SW_REQ_START_LATCH_MAPR/W0h

Specifies which chip selects will simultaneously receive a ZQ start or latch command once the ZQ_REQ parameter is written with a ZQ Start or ZQ Latch command.

7RESERVEDR/WX
6-0TZQLAT_F2R/W0h

Holds the DRAM ZQLAT value for frequency copy 2 in cycles.

2.5.2.264 DDRSS_CTL_265 Register (Offset = 424h) [reset = X]

DDRSS_CTL_265 is shown in Figure 8-356 and described in Table 8-720.

Return to Summary Table.

Table 8-719 DDRSS_CTL_265 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0424h
Figure 8-356 DDRSS_CTL_265 Register
31302928272625242322212019181716
RESERVEDZQRESET_F1
R/W-XR/W-0h
1514131211109876543210
RESERVEDZQRESET_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-720 DDRSS_CTL_265 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-16ZQRESET_F1R/W0h

Number of cycles needed for a ZQRESET command for frequency copy 1.

15-12RESERVEDR/WX
11-0ZQRESET_F0R/W0h

Number of cycles needed for a ZQRESET command for frequency copy 0.

2.5.2.265 DDRSS_CTL_266 Register (Offset = 428h) [reset = X]

DDRSS_CTL_266 is shown in Figure 8-357 and described in Table 8-722.

Return to Summary Table.

Table 8-721 DDRSS_CTL_266 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0428h
Figure 8-357 DDRSS_CTL_266 Register
3130292827262524
RESERVEDZQCS_ROTATE
R/W-XR/W-0h
2322212019181716
RESERVEDNO_ZQ_INIT
R/W-XR/W-0h
15141312111098
RESERVEDZQRESET_F2
R/W-XR/W-0h
76543210
ZQRESET_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-722 DDRSS_CTL_266 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24ZQCS_ROTATER/W0h

For non-LPDDR4 memories, selects whether a ZQCS command will calibrate just one chip select or all chip selects.
When rotation is off, all chip selects will be calibrated, requiring a longer time frame, but ZQ calibration will need to be performed less frequently.
Set to 1 for rotating CS.
For LPDDR4 memories, this parameter is ignored.

23-17RESERVEDR/WX
16NO_ZQ_INITR/W0h

Disable ZQ operations during initialization.
Set to 1 to disable.

15-12RESERVEDR/WX
11-0ZQRESET_F2R/W0h

Number of cycles needed for a ZQRESET command for frequency copy 2.

2.5.2.266 DDRSS_CTL_267 Register (Offset = 42Ch) [reset = X]

DDRSS_CTL_267 is shown in Figure 8-358 and described in Table 8-724.

Return to Summary Table.

Table 8-723 DDRSS_CTL_267 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 042Ch
Figure 8-358 DDRSS_CTL_267 Register
3130292827262524
RESERVEDZQ_CAL_LATCH_MAP_1
R/W-XR/W-0h
2322212019181716
RESERVEDZQ_CAL_START_MAP_1
R/W-XR/W-0h
15141312111098
RESERVEDZQ_CAL_LATCH_MAP_0
R/W-XR/W-0h
76543210
RESERVEDZQ_CAL_START_MAP_0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-724 DDRSS_CTL_267 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-24ZQ_CAL_LATCH_MAP_1R/W0h

Defines which chip select(s) will receive ZQ calibration latch commands simultaneously on iteration 1 of the ZQ LATCH initialization and periodic command sequences.
Clear to all zeros for no ZQ LATCH commands.

23-18RESERVEDR/WX
17-16ZQ_CAL_START_MAP_1R/W0h

Defines which chip select(s) will receive ZQ calibration start commands simultaneously on iteration 1 of the ZQ START initialization and periodic command sequences.
Clear to all zeros for no ZQ START commands.

15-10RESERVEDR/WX
9-8ZQ_CAL_LATCH_MAP_0R/W0h

Defines which chip select(s) will receive ZQ calibration latch commands simultaneously on iteration 0 of the ZQ LATCH initialization and periodic command sequences.
Clear to all zeros for no ZQ LATCH commands.

7-2RESERVEDR/WX
1-0ZQ_CAL_START_MAP_0R/W0h

Defines which chip select(s) will receive ZQ calibration start commands simultaneously on iteration 0 of the ZQ START initialization and periodic command sequences.
Clear to all zeros for no ZQ START commands.

2.5.2.267 DDRSS_CTL_268 Register (Offset = 430h) [reset = X]

DDRSS_CTL_268 is shown in Figure 8-359 and described in Table 8-726.

Return to Summary Table.

Table 8-725 DDRSS_CTL_268 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0430h
Figure 8-359 DDRSS_CTL_268 Register
3130292827262524
RESERVEDROW_DIFF_1
R/W-XR/W-0h
2322212019181716
RESERVEDROW_DIFF_0
R/W-XR/W-0h
15141312111098
RESERVEDBANK_DIFF_1
R/W-XR/W-0h
76543210
RESERVEDBANK_DIFF_0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-726 DDRSS_CTL_268 Register Field Descriptions
BitFieldTypeResetDescription
31-27RESERVEDR/WX
26-24ROW_DIFF_1R/W0h

Difference between number of address pins available and number being used for chip select 1.

23-19RESERVEDR/WX
18-16ROW_DIFF_0R/W0h

Difference between number of address pins available and number being used for chip select 0.

15-10RESERVEDR/WX
9-8BANK_DIFF_1R/W0h

Encoded number of banks on the DRAM for chip select 1.

7-2RESERVEDR/WX
1-0BANK_DIFF_0R/W0h

Encoded number of banks on the DRAM for chip select 0.

2.5.2.268 DDRSS_CTL_269 Register (Offset = 434h) [reset = X]

DDRSS_CTL_269 is shown in Figure 8-360 and described in Table 8-728.

Return to Summary Table.

Table 8-727 DDRSS_CTL_269 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0434h
Figure 8-360 DDRSS_CTL_269 Register
31302928272625242322212019181716
CS_VAL_LOWER_0
R/W-0h
1514131211109876543210
RESERVEDCOL_DIFF_1RESERVEDCOL_DIFF_0
R/W-XR/W-0hR/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-728 DDRSS_CTL_269 Register Field Descriptions
BitFieldTypeResetDescription
31-16CS_VAL_LOWER_0R/W0h

Lower bound address for chip select 0.

15-12RESERVEDR/WX
11-8COL_DIFF_1R/W0h

Difference between number of column pins available and number being used for chip select 1.

7-4RESERVEDR/WX
3-0COL_DIFF_0R/W0h

Difference between number of column pins available and number being used for chip select 0.

2.5.2.269 DDRSS_CTL_270 Register (Offset = 438h) [reset = X]

DDRSS_CTL_270 is shown in Figure 8-361 and described in Table 8-730.

Return to Summary Table.

Table 8-729 DDRSS_CTL_270 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0438h
Figure 8-361 DDRSS_CTL_270 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVEDROW_START_VAL_0
R/W-XR/W-0h
15141312111098
CS_VAL_UPPER_0
R/W-0h
76543210
CS_VAL_UPPER_0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-730 DDRSS_CTL_270 Register Field Descriptions
BitFieldTypeResetDescription
31-19RESERVEDR/WX
18-16ROW_START_VAL_0R/W0h

Row start value for chip select 0.

15-0CS_VAL_UPPER_0R/W0h

Upper bound address for chip select 0.

2.5.2.270 DDRSS_CTL_271 Register (Offset = 43Ch) [reset = 0h]

DDRSS_CTL_271 is shown in Figure 8-362 and described in Table 8-732.

Return to Summary Table.

Table 8-731 DDRSS_CTL_271 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 043Ch
Figure 8-362 DDRSS_CTL_271 Register
313029282726252423222120191817161514131211109876543210
CS_VAL_UPPER_1CS_VAL_LOWER_1
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-732 DDRSS_CTL_271 Register Field Descriptions
BitFieldTypeResetDescription
31-16CS_VAL_UPPER_1R/W0h

Upper bound address for chip select 1.

15-0CS_VAL_LOWER_1R/W0h

Lower bound address for chip select 1.

2.5.2.271 DDRSS_CTL_272 Register (Offset = 440h) [reset = X]

DDRSS_CTL_272 is shown in Figure 8-363 and described in Table 8-734.

Return to Summary Table.

Table 8-733 DDRSS_CTL_272 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0440h
Figure 8-363 DDRSS_CTL_272 Register
3130292827262524
CS_MSK_0
R/W-0h
2322212019181716
CS_MSK_0
R/W-0h
15141312111098
RESERVEDCS_MAP_NON_POW2
R/W-XR/W-0h
76543210
RESERVEDROW_START_VAL_1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-734 DDRSS_CTL_272 Register Field Descriptions
BitFieldTypeResetDescription
31-16CS_MSK_0R/W0h

Mask applied to the address decode for chip select 0.

15-10RESERVEDR/WX
9-8CS_MAP_NON_POW2R/W0h

Defines which chip selects are non-power-of-2 memory sizes.

7-3RESERVEDR/WX
2-0ROW_START_VAL_1R/W0h

Row start value for chip select 1.

2.5.2.272 DDRSS_CTL_273 Register (Offset = 444h) [reset = X]

DDRSS_CTL_273 is shown in Figure 8-364 and described in Table 8-736.

Return to Summary Table.

Table 8-735 DDRSS_CTL_273 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0444h
Figure 8-364 DDRSS_CTL_273 Register
3130292827262524
RESERVEDRESERVED
R/W-XR/W-0h
2322212019181716
RESERVEDCS_LOWER_ADDR_EN
R/W-XR/W-0h
15141312111098
CS_MSK_1
R/W-0h
76543210
CS_MSK_1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-736 DDRSS_CTL_273 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24RESERVEDR/W0h

Reserved

23-17RESERVEDR/WX
16CS_LOWER_ADDR_ENR/W0h

Enables moving the CS field to lower in the address map.
When set to 1, the memory address map will be changed to ROW__CS__BANK.
Please refer to the limitations before setting this bit.

15-0CS_MSK_1R/W0h

Mask applied to the address decode for chip select 1.

2.5.2.273 DDRSS_CTL_274 Register (Offset = 448h) [reset = X]

DDRSS_CTL_274 is shown in Figure 8-365 and described in Table 8-738.

Return to Summary Table.

Table 8-737 DDRSS_CTL_274 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0448h
Figure 8-365 DDRSS_CTL_274 Register
3130292827262524
COMMAND_AGE_COUNT
R/W-0h
2322212019181716
AGE_COUNT
R/W-0h
15141312111098
RESERVEDAPREBIT
R/W-XR/W-Ah
76543210
RESERVEDRESERVED
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-738 DDRSS_CTL_274 Register Field Descriptions
BitFieldTypeResetDescription
31-24COMMAND_AGE_COUNTR/W0h

Initial value of individual command aging counters for command aging.

23-16AGE_COUNTR/W0h

Initial value of master aging-rate counter for command aging.

15-13RESERVEDR/WX
12-8APREBITR/WAh

Location of the auto pre-charge bit in the DRAM address.

7-1RESERVEDR/WX
0RESERVEDR/W0h

Reserved

2.5.2.274 DDRSS_CTL_275 Register (Offset = 44Ch) [reset = X]

DDRSS_CTL_275 is shown in Figure 8-366 and described in Table 8-740.

Return to Summary Table.

Table 8-739 DDRSS_CTL_275 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 044Ch
Figure 8-366 DDRSS_CTL_275 Register
3130292827262524
RESERVEDPLACEMENT_EN
R/W-XR/W-0h
2322212019181716
RESERVEDBANK_SPLIT_EN
R/W-XR/W-0h
15141312111098
RESERVEDADDR_COLLISION_MPM_DIS
R/W-XR/W-0h
76543210
RESERVEDADDR_CMP_EN
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-740 DDRSS_CTL_275 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24PLACEMENT_ENR/W0h

Enable placement logic for command queue.
Set to 1 to enable.

23-17RESERVEDR/WX
16BANK_SPLIT_ENR/W0h

Enable bank splitting as a rule for command queue placement.
Set to 1 to enable.

15-9RESERVEDR/WX
8ADDR_COLLISION_MPM_DISR/W0h

Disable address collision detection extension using micro page mask for command queue placement and selection.
Set to 1 to disable.

7-1RESERVEDR/WX
0ADDR_CMP_ENR/W0h

Enable address collision detection as a rule for command queue placement.
Set to 1 to enable.

2.5.2.275 DDRSS_CTL_276 Register (Offset = 450h) [reset = X]

DDRSS_CTL_276 is shown in Figure 8-367 and described in Table 8-742.

Return to Summary Table.

Table 8-741 DDRSS_CTL_276 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0450h
Figure 8-367 DDRSS_CTL_276 Register
3130292827262524
RESERVEDCS_SAME_EN
R/W-XR/W-0h
2322212019181716
RESERVEDRW_SAME_PAGE_EN
R/W-XR/W-0h
15141312111098
RESERVEDRW_SAME_EN
R/W-XR/W-0h
76543210
RESERVEDPRIORITY_EN
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-742 DDRSS_CTL_276 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24CS_SAME_ENR/W0h

Enable chip select grouping when read/write grouping as a rule for command queue placement.
This is only valid when the RW_SAME_EN parameter is set.
Set to 1 to enable.

23-17RESERVEDR/WX
16RW_SAME_PAGE_ENR/W0h

Enable page grouping when read/write grouping as a rule for command queue placement.
This is only valid when the RW_SAME_EN parameter is set.
Set to 1 to enable.

15-9RESERVEDR/WX
8RW_SAME_ENR/W0h

Enable read/write grouping as a rule for command queue placement.
Set to 1 to enable.

7-1RESERVEDR/WX
0PRIORITY_ENR/W0h

Enable priority as a rule for command queue placement.
Set to 1 to enable.

2.5.2.276 DDRSS_CTL_277 Register (Offset = 454h) [reset = X]

DDRSS_CTL_277 is shown in Figure 8-368 and described in Table 8-744.

Return to Summary Table.

Table 8-743 DDRSS_CTL_277 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0454h
Figure 8-368 DDRSS_CTL_277 Register
3130292827262524
RESERVEDSWAP_EN
R/W-XR/W-0h
2322212019181716
RESERVEDNUM_Q_ENTRIES_ACT_DISABLE
R/W-XR/W-0h
15141312111098
RESERVEDDISABLE_RW_GROUP_W_BNK_CONFLICT
R/W-XR/W-0h
76543210
RESERVEDW2R_SPLIT_EN
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-744 DDRSS_CTL_277 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24SWAP_ENR/W0h

Enable command swapping logic in execution unit.
Set to 1 to enable.
If inline ECC is enabled (if the ECC_ENABLE parameter is programmed to 1, 2 or 3), the SWAP_EN parameter must be cleared to 0 because these two features are not supported together.

23-21RESERVEDR/WX
20-16NUM_Q_ENTRIES_ACT_DISABLER/W0h

Number of queue entries in which ACT requests will be disabled.
Programming to X will disable ACT requests from the X entries lowest in the command queue.

15-10RESERVEDR/WX
9-8DISABLE_RW_GROUP_W_BNK_CONFLICTR/W0h

Disables placement to read/write group when grouping creates a bank collision.
Bit (0) controls placement next to bank conflict command and bit (1) controls placement 2 away from bank conflict command.
Set each bit to 1 to disable.

7-1RESERVEDR/WX
0W2R_SPLIT_ENR/W0h

Enable splitting of commands to the same chip select from a write to a read command as a rule for command queue placement.

2.5.2.277 DDRSS_CTL_278 Register (Offset = 458h) [reset = X]

DDRSS_CTL_278 is shown in Figure 8-369 and described in Table 8-746.

Return to Summary Table.

Table 8-745 DDRSS_CTL_278 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0458h
Figure 8-369 DDRSS_CTL_278 Register
3130292827262524
RESERVEDREDUC
R/W-XR/W-0h
2322212019181716
RESERVEDCS_MAP
R/W-XR/W-0h
15141312111098
RESERVEDINHIBIT_DRAM_CMD
R/W-XR/W-0h
76543210
RESERVEDDISABLE_RD_INTERLEAVE
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-746 DDRSS_CTL_278 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24REDUCR/W0h

Enable the half datapath feature of the controller.
Set to 1 to enable.

23-18RESERVEDR/WX
17-16CS_MAPR/W0h

Defines which chip selects are active.

15-10RESERVEDR/WX
9-8INHIBIT_DRAM_CMDR/W0h

Inhibit command types from being executed from the command queue.
Clear to 0 to enable any command, program to 1 to inhibit read/write and bank commands, program to 2 to inhibit MRR and peripheral MRR commands, or program to 3 to inhibit MRR and read/write commands.

7-1RESERVEDR/WX
0DISABLE_RD_INTERLEAVER/W0h

Disable read data interleaving for commands from the same port, regardless of the requestor ID.
If inline ECC is enabled (if the ECC_ENABLE parameter is programmed to either of 1, 2 or 3), the DISABLE_RD_INTERLEAVE parameter must be cleared to 0 because these two features are not supported together.

2.5.2.278 DDRSS_CTL_279 Register (Offset = 45Ch) [reset = X]

DDRSS_CTL_279 is shown in Figure 8-370 and described in Table 8-748.

Return to Summary Table.

Table 8-747 DDRSS_CTL_279 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 045Ch
Figure 8-370 DDRSS_CTL_279 Register
31302928272625242322212019181716
RESERVEDFAULT_FIFO_PROTECTION_EN
R/W-XR/W-0h
1514131211109876543210
FAULT_FIFO_PROTECTION_EN
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-748 DDRSS_CTL_279 Register Field Descriptions
BitFieldTypeResetDescription
31-18RESERVEDR/WX
17-0FAULT_FIFO_PROTECTION_ENR/W0h

Enables fault fifo protection features.
Set to 1 to enable.

2.5.2.279 DDRSS_CTL_280 Register (Offset = 460h) [reset = X]

DDRSS_CTL_280 is shown in Figure 8-371 and described in Table 8-750.

Return to Summary Table.

Table 8-749 DDRSS_CTL_280 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0460h
Figure 8-371 DDRSS_CTL_280 Register
31302928272625242322212019181716
RESERVEDFAULT_FIFO_PROTECTION_STATUS
R-XR-0h
1514131211109876543210
FAULT_FIFO_PROTECTION_STATUS
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-750 DDRSS_CTL_280 Register Field Descriptions
BitFieldTypeResetDescription
31-18RESERVEDRX
17-0FAULT_FIFO_PROTECTION_STATUSR0h

Status of fault fifo protection modules.
Value of 1 indicates an error occurred.
READ ONLY

2.5.2.280 DDRSS_CTL_281 Register (Offset = 464h) [reset = X]

DDRSS_CTL_281 is shown in Figure 8-372 and described in Table 8-752.

Return to Summary Table.

Table 8-751 DDRSS_CTL_281 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0464h
Figure 8-372 DDRSS_CTL_281 Register
3130292827262524
RESERVEDWRITE_ADDR_CHAN_PARITY_EN
R/W-XR/W-0h
2322212019181716
RESERVEDFAULT_FIFO_PROTECTION_INJECTION_EN
R/W-XR/W-0h
15141312111098
FAULT_FIFO_PROTECTION_INJECTION_EN
R/W-0h
76543210
FAULT_FIFO_PROTECTION_INJECTION_EN
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-752 DDRSS_CTL_281 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24WRITE_ADDR_CHAN_PARITY_ENR/W0h

Enables parity checking on the AXI write command (address) channel.
Set to 1 to enable.

23-18RESERVEDR/WX
17-0FAULT_FIFO_PROTECTION_INJECTION_ENR/W0h

Triggers error injection for fault fifo protection modules.
Set to 1 to trigger.

2.5.2.281 DDRSS_CTL_282 Register (Offset = 468h) [reset = X]

DDRSS_CTL_282 is shown in Figure 8-373 and described in Table 8-754.

Return to Summary Table.

Table 8-753 DDRSS_CTL_282 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0468h
Figure 8-373 DDRSS_CTL_282 Register
3130292827262524
RESERVEDREAD_DATA_CHAN_PARITY_EN
R/W-XR/W-0h
2322212019181716
RESERVEDREAD_ADDR_CHAN_PARITY_EN
R/W-XR/W-0h
15141312111098
RESERVEDWRITE_RESP_CHAN_PARITY_EN
R/W-XR/W-0h
76543210
RESERVEDWRITE_DATA_CHAN_PARITY_EN
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-754 DDRSS_CTL_282 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24READ_DATA_CHAN_PARITY_ENR/W0h

Enables parity checking on the AXI read data channel.
Set to 1 to enable.

23-17RESERVEDR/WX
16READ_ADDR_CHAN_PARITY_ENR/W0h

Enables parity checking on the AXI read command (address) channel.
Set to 1 to enable.

15-9RESERVEDR/WX
8WRITE_RESP_CHAN_PARITY_ENR/W0h

Enables parity checking on the AXI write response channel.
Set to 1 to enable.

7-2RESERVEDR/WX
1-0WRITE_DATA_CHAN_PARITY_ENR/W0h

Enables parity checking on the AXI write data channel.
Bit (0) controls the write data bus and bit (1) controls the write strobe and last signals.
Set each bit to 1 to enable.

2.5.2.282 DDRSS_CTL_283 Register (Offset = 46Ch) [reset = X]

DDRSS_CTL_283 is shown in Figure 8-374 and described in Table 8-756.

Return to Summary Table.

Table 8-755 DDRSS_CTL_283 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 046Ch
Figure 8-374 DDRSS_CTL_283 Register
3130292827262524
RESERVEDREAD_PARITY_ERR_RRESP_EN
R/W-XR/W-0h
2322212019181716
RESERVEDWRITE_PARITY_ERR_BRESP_EN
R/W-XR/W-0h
15141312111098
RESERVEDRESERVED
R/W-XR/W-0h
76543210
RESERVEDRESERVED
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-756 DDRSS_CTL_283 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24READ_PARITY_ERR_RRESP_ENR/W0h

Enables AXI ERROR responses on the AXI read data channel for any parity errors that occurred on the read command (address) channel.
Set to 1 to enable.

23-17RESERVEDR/WX
16WRITE_PARITY_ERR_BRESP_ENR/W0h

Enables AXI ERROR responses on the AXI write response channel for any parity errors that occured on either the write command (address) or write data channels.
Set to 1 to enable.

15-9RESERVEDR/WX
8RESERVEDR/W0h

Reserved

7-1RESERVEDR/WX
0RESERVEDR/W0h

Reserved

2.5.2.283 DDRSS_CTL_284 Register (Offset = 470h) [reset = X]

DDRSS_CTL_284 is shown in Figure 8-375 and described in Table 8-758.

Return to Summary Table.

Table 8-757 DDRSS_CTL_284 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0470h
Figure 8-375 DDRSS_CTL_284 Register
3130292827262524
RESERVEDREAD_ADDR_CHAN_TRIGGER_PARITY_EN
R/W-XR/W-0h
2322212019181716
RESERVEDWRITE_RESP_CHAN_CORRUPT_PARITY_EN
R/W-XR/W-0h
15141312111098
RESERVEDWRITE_DATA_CHAN_TRIGGER_PARITY_EN
R/W-XR/W-0h
76543210
RESERVEDWRITE_ADDR_CHAN_TRIGGER_PARITY_EN
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-758 DDRSS_CTL_284 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24READ_ADDR_CHAN_TRIGGER_PARITY_ENR/W0h

Triggers a parity error on the AXI read command (address) channel.
Set to 1 to introduce an error.

23-17RESERVEDR/WX
16WRITE_RESP_CHAN_CORRUPT_PARITY_ENR/W0h

Corrupts the parity on the AXI write response channel.
Set to 1 to introduce an error.

15-9RESERVEDR/WX
8WRITE_DATA_CHAN_TRIGGER_PARITY_ENR/W0h

Triggers a parity error on the AXI write data channel.
Set to 1 to introduce an error.

7-1RESERVEDR/WX
0WRITE_ADDR_CHAN_TRIGGER_PARITY_ENR/W0h

Triggers a parity error on the AXI write command (address) channel.
Set to 1 to introduce an error.

2.5.2.284 DDRSS_CTL_285 Register (Offset = 474h) [reset = X]

DDRSS_CTL_285 is shown in Figure 8-376 and described in Table 8-760.

Return to Summary Table.

Table 8-759 DDRSS_CTL_285 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0474h
Figure 8-376 DDRSS_CTL_285 Register
3130292827262524
RESERVEDENHANCED_PARITY_PROTECTION_EN
R/W-XR/W-0h
2322212019181716
RESERVEDWRITE_PARITY_ERR_CORRUPT_ECC_EN
R/W-XR/W-0h
15141312111098
RESERVEDECC_AXI_ERROR_RESPONSE_INHIBIT
R/W-XR/W-0h
76543210
RESERVEDREAD_DATA_CHAN_CORRUPT_PARITY_EN
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-760 DDRSS_CTL_285 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24ENHANCED_PARITY_PROTECTION_ENR/W0h

Enable byte parity implementation on addr/data channels.

23-17RESERVEDR/WX
16WRITE_PARITY_ERR_CORRUPT_ECC_ENR/W0h

Enables corruption of ECC code if an AXI parity error is detected.
Set to 1 to enable.

15-9RESERVEDR/WX
8ECC_AXI_ERROR_RESPONSE_INHIBITR/W0h

Inhibits AXI ERROR responses when an ECC error occurs on the AXI read data channel.
Set to 1 to inhibit errors.

7-1RESERVEDR/WX
0READ_DATA_CHAN_CORRUPT_PARITY_ENR/W0h

Corrupts the parity on the AXI read data channel.
Set to 1 to introduce an error.

2.5.2.285 DDRSS_CTL_286 Register (Offset = 478h) [reset = X]

DDRSS_CTL_286 is shown in Figure 8-377 and described in Table 8-762.

Return to Summary Table.

Table 8-761 DDRSS_CTL_286 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0478h
Figure 8-377 DDRSS_CTL_286 Register
3130292827262524
RESERVEDDEVICE2_BYTE0_CS0
R/W-XR/W-0h
2322212019181716
RESERVEDDEVICE1_BYTE0_CS0
R/W-XR/W-0h
15141312111098
RESERVEDDEVICE0_BYTE0_CS0
R/W-XR/W-0h
76543210
RESERVEDMEMDATA_RATIO_0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-762 DDRSS_CTL_286 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24DEVICE2_BYTE0_CS0R/W0h

Defines the byte location of byte0 in the memory datapath for device 2 on chip 0.
Used for MRRs to identify where data will be returned.

23-20RESERVEDR/WX
19-16DEVICE1_BYTE0_CS0R/W0h

Defines the byte location of byte0 in the memory datapath for device 1 on chip 0.
Used for MRRs to identify where data will be returned.

15-12RESERVEDR/WX
11-8DEVICE0_BYTE0_CS0R/W0h

Defines the byte location of byte0 in the memory datapath for device 0 on chip 0.
Used for MRRs to identify where data will be returned.

7-3RESERVEDR/WX
2-0MEMDATA_RATIO_0R/W0h

Defines the ratio of the DRAM device size on chip select 0 to the memory data width.
Program with the log2 ratio of the memory data width to the device data width.

2.5.2.286 DDRSS_CTL_287 Register (Offset = 47Ch) [reset = X]

DDRSS_CTL_287 is shown in Figure 8-378 and described in Table 8-764.

Return to Summary Table.

Table 8-763 DDRSS_CTL_287 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 047Ch
Figure 8-378 DDRSS_CTL_287 Register
3130292827262524
RESERVEDDEVICE1_BYTE0_CS1
R/W-XR/W-0h
2322212019181716
RESERVEDDEVICE0_BYTE0_CS1
R/W-XR/W-0h
15141312111098
RESERVEDMEMDATA_RATIO_1
R/W-XR/W-0h
76543210
RESERVEDDEVICE3_BYTE0_CS0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-764 DDRSS_CTL_287 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24DEVICE1_BYTE0_CS1R/W0h

Defines the byte location of byte0 in the memory datapath for device 1 on chip 1.
Used for MRRs to identify where data will be returned.

23-20RESERVEDR/WX
19-16DEVICE0_BYTE0_CS1R/W0h

Defines the byte location of byte0 in the memory datapath for device 0 on chip 1.
Used for MRRs to identify where data will be returned.

15-11RESERVEDR/WX
10-8MEMDATA_RATIO_1R/W0h

Defines the ratio of the DRAM device size on chip select 1 to the memory data width.
Program with the log2 ratio of the memory data width to the device data width.

7-4RESERVEDR/WX
3-0DEVICE3_BYTE0_CS0R/W0h

Defines the byte location of byte0 in the memory datapath for device 3 on chip 0.
Used for MRRs to identify where data will be returned.

2.5.2.287 DDRSS_CTL_288 Register (Offset = 480h) [reset = X]

DDRSS_CTL_288 is shown in Figure 8-379 and described in Table 8-766.

Return to Summary Table.

Table 8-765 DDRSS_CTL_288 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0480h
Figure 8-379 DDRSS_CTL_288 Register
3130292827262524
RESERVEDIN_ORDER_ACCEPT
R/W-XR/W-0h
2322212019181716
RESERVEDQ_FULLNESS
R/W-XR/W-0h
15141312111098
RESERVEDDEVICE3_BYTE0_CS1
R/W-XR/W-0h
76543210
RESERVEDDEVICE2_BYTE0_CS1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-766 DDRSS_CTL_288 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24IN_ORDER_ACCEPTR/W0h

Forces the controller to accept commands in the order in which they are placed in the command queue.
If inline ECC is enabled (if the ECC_ENABLE parameter is programmed to 1, 2 or 3), the IN_ORDER_ACCEPT parameter must be set to 1.

23-21RESERVEDR/WX
20-16Q_FULLNESSR/W0h

Quantity that determines command queue almost full assertion(q_almost_full).
When set to 0 then q_almost_full will be set to 0 irrespective of number of entries in command queueu.

15-12RESERVEDR/WX
11-8DEVICE3_BYTE0_CS1R/W0h

Defines the byte location of byte0 in the memory datapath for device 3 on chip 1.
Used for MRRs to identify where data will be returned.

7-4RESERVEDR/WX
3-0DEVICE2_BYTE0_CS1R/W0h

Defines the byte location of byte0 in the memory datapath for device 2 on chip 1.
Used for MRRs to identify where data will be returned.

2.5.2.288 DDRSS_CTL_289 Register (Offset = 484h) [reset = X]

DDRSS_CTL_289 is shown in Figure 8-380 and described in Table 8-768.

Return to Summary Table.

Table 8-767 DDRSS_CTL_289 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0484h
Figure 8-380 DDRSS_CTL_289 Register
3130292827262524
RESERVEDCTRLUPD_REQ_PER_AREF_EN
R/W-XR/W-0h
2322212019181716
RESERVEDCTRLUPD_REQ
R/W-XW-0h
15141312111098
RESERVEDCONTROLLER_BUSY
R/W-XR-0h
76543210
RESERVEDWR_ORDER_REQ
R/W-XR/W-0h
LEGEND: R = Read Only; R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-768 DDRSS_CTL_289 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24CTRLUPD_REQ_PER_AREF_ENR/W0h

Enable an automatic controller-initiated update (dfi_ctrlupd_req) after every refresh.
Set to 1 to enable.

23-17RESERVEDR/WX
16CTRLUPD_REQW0h

Assert the DFI controller-initiated update request signal dfi_ctrlupd_req.
Set to 1 to trigger.
WRITE-ONLY

15-9RESERVEDR/WX
8CONTROLLER_BUSYR0h

Indicator that the controller is processing a command.
Evaluates all ports for outstanding transactions.
Value of 1 indicates controller busy.
READ-ONLY

7-2RESERVEDR/WX
1-0WR_ORDER_REQR/W0h

Determines if the controller can re-order write commands from the same source ID and/or the same port.
Bit (0) controls source ID usage and bit (1) controls port ID usage.
Set each bit to 1 to enable usage in placement logic.

2.5.2.289 DDRSS_CTL_290 Register (Offset = 488h) [reset = X]

DDRSS_CTL_290 is shown in Figure 8-381 and described in Table 8-770.

Return to Summary Table.

Table 8-769 DDRSS_CTL_290 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0488h
Figure 8-381 DDRSS_CTL_290 Register
3130292827262524
RESERVEDPREAMBLE_SUPPORT_F2
R/W-XR/W-0h
2322212019181716
RESERVEDPREAMBLE_SUPPORT_F1
R/W-XR/W-0h
15141312111098
RESERVEDPREAMBLE_SUPPORT_F0
R/W-XR/W-0h
76543210
RESERVEDCTRLUPD_AREF_HP_ENABLE
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-770 DDRSS_CTL_290 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-24PREAMBLE_SUPPORT_F2R/W0h

Selection of one or two cycle preamble for read and write burst transfers for frequency copy 2.

23-18RESERVEDR/WX
17-16PREAMBLE_SUPPORT_F1R/W0h

Selection of one or two cycle preamble for read and write burst transfers for frequency copy 1.

15-10RESERVEDR/WX
9-8PREAMBLE_SUPPORT_F0R/W0h

Selection of one or two cycle preamble for read and write burst transfers for frequency copy 0.

7-1RESERVEDR/WX
0CTRLUPD_AREF_HP_ENABLER/W0h

Enable an automatic controller-initiated update (dfi_ctrlupd_req) after every high priority refresh when executing as a subtask request.
Set to 1 to enable.

2.5.2.290 DDRSS_CTL_291 Register (Offset = 48Ch) [reset = X]

DDRSS_CTL_291 is shown in Figure 8-382 and described in Table 8-772.

Return to Summary Table.

Table 8-771 DDRSS_CTL_291 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 048Ch
Figure 8-382 DDRSS_CTL_291 Register
3130292827262524
RESERVEDDFI_ERROR
R/W-XR-0h
2322212019181716
RESERVEDRD_DBI_EN
R/W-XR/W-0h
15141312111098
RESERVEDWR_DBI_EN
R/W-XR/W-0h
76543210
RESERVEDRD_PREAMBLE_TRAINING_EN
R/W-XR/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-772 DDRSS_CTL_291 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24DFI_ERRORR0h

Indicates that the DFI error flag has been asserted.
READ-ONLY

23-17RESERVEDR/WX
16RD_DBI_ENR/W0h

Enables controller support of DRAM DBI feature for read data with DDR4 devices.
Set to 1 to enable.

15-9RESERVEDR/WX
8WR_DBI_ENR/W0h

Enables controller support of DRAM DBI feature for write data with DDR4 devices.
Set to 1 to enable.

7-1RESERVEDR/WX
0RD_PREAMBLE_TRAINING_ENR/W0h

Enable read preamble training during gate training.
Set to 1 to enable.

2.5.2.291 DDRSS_CTL_292 Register (Offset = 490h) [reset = X]

DDRSS_CTL_292 is shown in Figure 8-383 and described in Table 8-774.

Return to Summary Table.

Table 8-773 DDRSS_CTL_292 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0490h
Figure 8-383 DDRSS_CTL_292 Register
3130292827262524
RESERVEDRESERVED
R/W-XW-0h
2322212019181716
RESERVEDDFI_ERROR_INFO
R/W-XR-0h
15141312111098
DFI_ERROR_INFO
R-0h
76543210
DFI_ERROR_INFO
R-0h
LEGEND: R = Read Only; R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-774 DDRSS_CTL_292 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24RESERVEDW0h

Reserved

23-20RESERVEDR/WX
19-0DFI_ERROR_INFOR0h

Holds the encoded DFI error type associated with the DFI_ERROR parameter assertion.
READ-ONLY

2.5.2.292 DDRSS_CTL_293 Register (Offset = 494h) [reset = 0h]

DDRSS_CTL_293 is shown in Figure 8-384 and described in Table 8-776.

Return to Summary Table.

Table 8-775 DDRSS_CTL_293 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0494h
Figure 8-384 DDRSS_CTL_293 Register
313029282726252423222120191817161514131211109876543210
INT_STATUS_0
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-776 DDRSS_CTL_293 Register Field Descriptions
BitFieldTypeResetDescription
31-0INT_STATUS_0R0h

Status of interrupt features in the controller.
READ-ONLY

2.5.2.293 DDRSS_CTL_294 Register (Offset = 498h) [reset = X]

DDRSS_CTL_294 is shown in Figure 8-385 and described in Table 8-778.

Return to Summary Table.

Table 8-777 DDRSS_CTL_294 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0498h
Figure 8-385 DDRSS_CTL_294 Register
313029282726252423222120191817161514131211109876543210
RESERVEDINT_STATUS_1
R-XR-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-778 DDRSS_CTL_294 Register Field Descriptions
BitFieldTypeResetDescription
31-13RESERVEDRX
12-0INT_STATUS_1R0h

Status of interrupt features in the controller.
READ-ONLY

2.5.2.294 DDRSS_CTL_295 Register (Offset = 49Ch) [reset = 0h]

DDRSS_CTL_295 is shown in Figure 8-386 and described in Table 8-780.

Return to Summary Table.

Table 8-779 DDRSS_CTL_295 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 049Ch
Figure 8-386 DDRSS_CTL_295 Register
313029282726252423222120191817161514131211109876543210
INT_ACK_0
W-0h
LEGEND: W = Write Only; -n = value after reset
Table 8-780 DDRSS_CTL_295 Register Field Descriptions
BitFieldTypeResetDescription
31-0INT_ACK_0W0h

Clear mask of the INT_STATUS parameter.
WRITE-ONLY

2.5.2.295 DDRSS_CTL_296 Register (Offset = 4A0h) [reset = X]

DDRSS_CTL_296 is shown in Figure 8-387 and described in Table 8-782.

Return to Summary Table.

Table 8-781 DDRSS_CTL_296 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04A0h
Figure 8-387 DDRSS_CTL_296 Register
313029282726252423222120191817161514131211109876543210
RESERVEDINT_ACK_1
W-XW-0h
LEGEND: W = Write Only; -n = value after reset
Table 8-782 DDRSS_CTL_296 Register Field Descriptions
BitFieldTypeResetDescription
31-12RESERVEDWX
11-0INT_ACK_1W0h

Clear mask of the INT_STATUS parameter.
WRITE-ONLY

2.5.2.296 DDRSS_CTL_297 Register (Offset = 4A4h) [reset = 0h]

DDRSS_CTL_297 is shown in Figure 8-388 and described in Table 8-784.

Return to Summary Table.

Table 8-783 DDRSS_CTL_297 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04A4h
Figure 8-388 DDRSS_CTL_297 Register
313029282726252423222120191817161514131211109876543210
INT_MASK_0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-784 DDRSS_CTL_297 Register Field Descriptions
BitFieldTypeResetDescription
31-0INT_MASK_0R/W0h

Mask for the controller_int signal from the INT_STATUS parameter.

2.5.2.297 DDRSS_CTL_298 Register (Offset = 4A8h) [reset = X]

DDRSS_CTL_298 is shown in Figure 8-389 and described in Table 8-786.

Return to Summary Table.

Table 8-785 DDRSS_CTL_298 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04A8h
Figure 8-389 DDRSS_CTL_298 Register
313029282726252423222120191817161514131211109876543210
RESERVEDINT_MASK_1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-786 DDRSS_CTL_298 Register Field Descriptions
BitFieldTypeResetDescription
31-13RESERVEDR/WX
12-0INT_MASK_1R/W0h

Mask for the controller_int signal from the INT_STATUS parameter.

2.5.2.298 DDRSS_CTL_299 Register (Offset = 4ACh) [reset = 0h]

DDRSS_CTL_299 is shown in Figure 8-390 and described in Table 8-788.

Return to Summary Table.

Table 8-787 DDRSS_CTL_299 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04ACh
Figure 8-390 DDRSS_CTL_299 Register
313029282726252423222120191817161514131211109876543210
OUT_OF_RANGE_ADDR_0
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-788 DDRSS_CTL_299 Register Field Descriptions
BitFieldTypeResetDescription
31-0OUT_OF_RANGE_ADDR_0R0h

Address of command that caused an out-of-range interrupt.
READ-ONLY

2.5.2.299 DDRSS_CTL_300 Register (Offset = 4B0h) [reset = X]

DDRSS_CTL_300 is shown in Figure 8-391 and described in Table 8-790.

Return to Summary Table.

Table 8-789 DDRSS_CTL_300 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04B0h
Figure 8-391 DDRSS_CTL_300 Register
3130292827262524
RESERVEDOUT_OF_RANGE_TYPE
R-XR-0h
2322212019181716
RESERVEDOUT_OF_RANGE_LENGTH
R-XR-0h
15141312111098
OUT_OF_RANGE_LENGTH
R-0h
76543210
RESERVEDOUT_OF_RANGE_ADDR_1
R-XR-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-790 DDRSS_CTL_300 Register Field Descriptions
BitFieldTypeResetDescription
31RESERVEDRX
30-24OUT_OF_RANGE_TYPER0h

Type of command that caused an out-of-range interrupt.
READ-ONLY

23-20RESERVEDRX
19-8OUT_OF_RANGE_LENGTHR0h

Length of command that caused an out-of-range interrupt.
READ-ONLY

7-3RESERVEDRX
2-0OUT_OF_RANGE_ADDR_1R0h

Address of command that caused an out-of-range interrupt.
READ-ONLY

2.5.2.300 DDRSS_CTL_301 Register (Offset = 4B4h) [reset = X]

DDRSS_CTL_301 is shown in Figure 8-392 and described in Table 8-792.

Return to Summary Table.

Table 8-791 DDRSS_CTL_301 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04B4h
Figure 8-392 DDRSS_CTL_301 Register
3130292827262524
RESERVED
R-X
2322212019181716
RESERVED
R-X
15141312111098
RESERVED
R-X
76543210
RESERVEDOUT_OF_RANGE_SOURCE_ID
R-XR-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-792 DDRSS_CTL_301 Register Field Descriptions
BitFieldTypeResetDescription
31-6RESERVEDRX
5-0OUT_OF_RANGE_SOURCE_IDR0h

Source ID of command that caused an out-of-range interrupt.
READ-ONLY

2.5.2.301 DDRSS_CTL_302 Register (Offset = 4B8h) [reset = 0h]

DDRSS_CTL_302 is shown in Figure 8-393 and described in Table 8-794.

Return to Summary Table.

Table 8-793 DDRSS_CTL_302 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04B8h
Figure 8-393 DDRSS_CTL_302 Register
313029282726252423222120191817161514131211109876543210
BIST_EXP_DATA_0
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-794 DDRSS_CTL_302 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_EXP_DATA_0R0h

Expected data on BIST error.
READ-ONLY

2.5.2.302 DDRSS_CTL_303 Register (Offset = 4BCh) [reset = 0h]

DDRSS_CTL_303 is shown in Figure 8-394 and described in Table 8-796.

Return to Summary Table.

Table 8-795 DDRSS_CTL_303 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04BCh
Figure 8-394 DDRSS_CTL_303 Register
313029282726252423222120191817161514131211109876543210
BIST_EXP_DATA_1
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-796 DDRSS_CTL_303 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_EXP_DATA_1R0h

Expected data on BIST error.
READ-ONLY

2.5.2.303 DDRSS_CTL_304 Register (Offset = 4C0h) [reset = 0h]

DDRSS_CTL_304 is shown in Figure 8-395 and described in Table 8-798.

Return to Summary Table.

Table 8-797 DDRSS_CTL_304 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04C0h
Figure 8-395 DDRSS_CTL_304 Register
313029282726252423222120191817161514131211109876543210
BIST_EXP_DATA_2
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-798 DDRSS_CTL_304 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_EXP_DATA_2R0h

Expected data on BIST error.
READ-ONLY

2.5.2.304 DDRSS_CTL_305 Register (Offset = 4C4h) [reset = 0h]

DDRSS_CTL_305 is shown in Figure 8-396 and described in Table 8-800.

Return to Summary Table.

Table 8-799 DDRSS_CTL_305 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04C4h
Figure 8-396 DDRSS_CTL_305 Register
313029282726252423222120191817161514131211109876543210
BIST_EXP_DATA_3
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-800 DDRSS_CTL_305 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_EXP_DATA_3R0h

Expected data on BIST error.
READ-ONLY

2.5.2.305 DDRSS_CTL_306 Register (Offset = 4C8h) [reset = 0h]

DDRSS_CTL_306 is shown in Figure 8-397 and described in Table 8-802.

Return to Summary Table.

Table 8-801 DDRSS_CTL_306 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04C8h
Figure 8-397 DDRSS_CTL_306 Register
313029282726252423222120191817161514131211109876543210
BIST_FAIL_DATA_0
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-802 DDRSS_CTL_306 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_FAIL_DATA_0R0h

Actual data on BIST error.
READ-ONLY

2.5.2.306 DDRSS_CTL_307 Register (Offset = 4CCh) [reset = 0h]

DDRSS_CTL_307 is shown in Figure 8-398 and described in Table 8-804.

Return to Summary Table.

Table 8-803 DDRSS_CTL_307 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04CCh
Figure 8-398 DDRSS_CTL_307 Register
313029282726252423222120191817161514131211109876543210
BIST_FAIL_DATA_1
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-804 DDRSS_CTL_307 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_FAIL_DATA_1R0h

Actual data on BIST error.
READ-ONLY

2.5.2.307 DDRSS_CTL_308 Register (Offset = 4D0h) [reset = 0h]

DDRSS_CTL_308 is shown in Figure 8-399 and described in Table 8-806.

Return to Summary Table.

Table 8-805 DDRSS_CTL_308 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04D0h
Figure 8-399 DDRSS_CTL_308 Register
313029282726252423222120191817161514131211109876543210
BIST_FAIL_DATA_2
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-806 DDRSS_CTL_308 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_FAIL_DATA_2R0h

Actual data on BIST error.
READ-ONLY

2.5.2.308 DDRSS_CTL_309 Register (Offset = 4D4h) [reset = 0h]

DDRSS_CTL_309 is shown in Figure 8-400 and described in Table 8-808.

Return to Summary Table.

Table 8-807 DDRSS_CTL_309 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04D4h
Figure 8-400 DDRSS_CTL_309 Register
313029282726252423222120191817161514131211109876543210
BIST_FAIL_DATA_3
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-808 DDRSS_CTL_309 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_FAIL_DATA_3R0h

Actual data on BIST error.
READ-ONLY

2.5.2.309 DDRSS_CTL_310 Register (Offset = 4D8h) [reset = 0h]

DDRSS_CTL_310 is shown in Figure 8-401 and described in Table 8-810.

Return to Summary Table.

Table 8-809 DDRSS_CTL_310 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04D8h
Figure 8-401 DDRSS_CTL_310 Register
313029282726252423222120191817161514131211109876543210
BIST_FAIL_ADDR_0
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-810 DDRSS_CTL_310 Register Field Descriptions
BitFieldTypeResetDescription
31-0BIST_FAIL_ADDR_0R0h

Address of BIST error.
READ-ONLY

2.5.2.310 DDRSS_CTL_311 Register (Offset = 4DCh) [reset = X]

DDRSS_CTL_311 is shown in Figure 8-402 and described in Table 8-812.

Return to Summary Table.

Table 8-811 DDRSS_CTL_311 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04DCh
Figure 8-402 DDRSS_CTL_311 Register
3130292827262524
RESERVED
R-X
2322212019181716
RESERVED
R-X
15141312111098
RESERVED
R-X
76543210
RESERVEDBIST_FAIL_ADDR_1
R-XR-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-812 DDRSS_CTL_311 Register Field Descriptions
BitFieldTypeResetDescription
31-3RESERVEDRX
2-0BIST_FAIL_ADDR_1R0h

Address of BIST error.
READ-ONLY

2.5.2.311 DDRSS_CTL_312 Register (Offset = 4E0h) [reset = 0h]

DDRSS_CTL_312 is shown in Figure 8-403 and described in Table 8-814.

Return to Summary Table.

Table 8-813 DDRSS_CTL_312 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04E0h
Figure 8-403 DDRSS_CTL_312 Register
313029282726252423222120191817161514131211109876543210
PORT_CMD_ERROR_ADDR_0
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-814 DDRSS_CTL_312 Register Field Descriptions
BitFieldTypeResetDescription
31-0PORT_CMD_ERROR_ADDR_0R0h

Address of command that caused the PORT command error.
READ-ONLY

2.5.2.312 DDRSS_CTL_313 Register (Offset = 4E4h) [reset = X]

DDRSS_CTL_313 is shown in Figure 8-404 and described in Table 8-816.

Return to Summary Table.

Table 8-815 DDRSS_CTL_313 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04E4h
Figure 8-404 DDRSS_CTL_313 Register
3130292827262524
RESERVEDODT_RD_MAP_CS0
R/W-XR/W-0h
2322212019181716
RESERVEDPORT_CMD_ERROR_TYPE
R/W-XR-0h
15141312111098
RESERVEDPORT_CMD_ERROR_ID
R/W-XR-0h
76543210
RESERVEDPORT_CMD_ERROR_ADDR_1
R/W-XR-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-816 DDRSS_CTL_313 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-24ODT_RD_MAP_CS0R/W0h

Determines which chip(s) will have termination when a read occurs on chip select 0.
Set bit X to enable termination on csX when cs0 is performing a read.

23-18RESERVEDR/WX
17-16PORT_CMD_ERROR_TYPER0h

Type of error and access type that caused the PORT command error.
READ-ONLY

15-14RESERVEDR/WX
13-8PORT_CMD_ERROR_IDR0h

Source ID of command that caused the PORT command error.
READ-ONLY

7-3RESERVEDR/WX
2-0PORT_CMD_ERROR_ADDR_1R0h

Address of command that caused the PORT command error.
READ-ONLY

2.5.2.313 DDRSS_CTL_314 Register (Offset = 4E8h) [reset = X]

DDRSS_CTL_314 is shown in Figure 8-405 and described in Table 8-818.

Return to Summary Table.

Table 8-817 DDRSS_CTL_314 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04E8h
Figure 8-405 DDRSS_CTL_314 Register
3130292827262524
TODTL_2CMD_F0
R/W-0h
2322212019181716
RESERVEDODT_WR_MAP_CS1
R/W-XR/W-0h
15141312111098
RESERVEDODT_RD_MAP_CS1
R/W-XR/W-0h
76543210
RESERVEDODT_WR_MAP_CS0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-818 DDRSS_CTL_314 Register Field Descriptions
BitFieldTypeResetDescription
31-24TODTL_2CMD_F0R/W0h

Defines the DRAM delay from an ODT de-assertion to the next non-write, non-read command.

23-18RESERVEDR/WX
17-16ODT_WR_MAP_CS1R/W0h

Determines which chip(s) will have termination when a write occurs on chip select 1.
Set bit X to enable termination on csX when cs1 is performing a write.

15-10RESERVEDR/WX
9-8ODT_RD_MAP_CS1R/W0h

Determines which chip(s) will have termination when a read occurs on chip select 1.
Set bit X to enable termination on csX when cs1 is performing a read.

7-2RESERVEDR/WX
1-0ODT_WR_MAP_CS0R/W0h

Determines which chip(s) will have termination when a write occurs on chip select 0.
Set bit X to enable termination on csX when cs0 is performing a write.

2.5.2.314 DDRSS_CTL_315 Register (Offset = 4ECh) [reset = X]

DDRSS_CTL_315 is shown in Figure 8-406 and described in Table 8-820.

Return to Summary Table.

Table 8-819 DDRSS_CTL_315 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04ECh
Figure 8-406 DDRSS_CTL_315 Register
31302928272625242322212019181716
RESERVEDTODTH_WR_F1TODTL_2CMD_F1
R/W-XR/W-0hR/W-0h
1514131211109876543210
RESERVEDTODTH_RD_F0RESERVEDTODTH_WR_F0
R/W-XR/W-0hR/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-820 DDRSS_CTL_315 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24TODTH_WR_F1R/W0h

Defines the DRAM minimum ODT high time after an ODT assertion for a write command.

23-16TODTL_2CMD_F1R/W0h

Defines the DRAM delay from an ODT de-assertion to the next non-write, non-read command.

15-12RESERVEDR/WX
11-8TODTH_RD_F0R/W0h

Defines the DRAM minimum ODT high time after an ODT assertion for a read command.

7-4RESERVEDR/WX
3-0TODTH_WR_F0R/W0h

Defines the DRAM minimum ODT high time after an ODT assertion for a write command.

2.5.2.315 DDRSS_CTL_316 Register (Offset = 4F0h) [reset = X]

DDRSS_CTL_316 is shown in Figure 8-407 and described in Table 8-822.

Return to Summary Table.

Table 8-821 DDRSS_CTL_316 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04F0h
Figure 8-407 DDRSS_CTL_316 Register
31302928272625242322212019181716
RESERVEDTODTH_RD_F2RESERVEDTODTH_WR_F2
R/W-XR/W-0hR/W-XR/W-0h
1514131211109876543210
TODTL_2CMD_F2RESERVEDTODTH_RD_F1
R/W-0hR/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-822 DDRSS_CTL_316 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24TODTH_RD_F2R/W0h

Defines the DRAM minimum ODT high time after an ODT assertion for a read command.

23-20RESERVEDR/WX
19-16TODTH_WR_F2R/W0h

Defines the DRAM minimum ODT high time after an ODT assertion for a write command.

15-8TODTL_2CMD_F2R/W0h

Defines the DRAM delay from an ODT de-assertion to the next non-write, non-read command.

7-4RESERVEDR/WX
3-0TODTH_RD_F1R/W0h

Defines the DRAM minimum ODT high time after an ODT assertion for a read command.

2.5.2.316 DDRSS_CTL_317 Register (Offset = 4F4h) [reset = X]

DDRSS_CTL_317 is shown in Figure 8-408 and described in Table 8-824.

Return to Summary Table.

Table 8-823 DDRSS_CTL_317 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04F4h
Figure 8-408 DDRSS_CTL_317 Register
3130292827262524
RESERVEDEN_ODT_ASSERT_EXCEPT_RD
R/W-XR/W-0h
2322212019181716
RESERVEDODT_EN_F2
R/W-XR/W-0h
15141312111098
RESERVEDODT_EN_F1
R/W-XR/W-0h
76543210
RESERVEDODT_EN_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-824 DDRSS_CTL_317 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24EN_ODT_ASSERT_EXCEPT_RDR/W0h

Enable controller to assert ODT at all times except during reads.
Assumes single ODT pin connected.
Set to 1 to enable.

23-17RESERVEDR/WX
16ODT_EN_F2R/W0h

Enable support of DRAM ODT.
When enabled, controller will assert and de-assert ODT output to DRAM as needed.

15-9RESERVEDR/WX
8ODT_EN_F1R/W0h

Enable support of DRAM ODT.
When enabled, controller will assert and de-assert ODT output to DRAM as needed.

7-1RESERVEDR/WX
0ODT_EN_F0R/W0h

Enable support of DRAM ODT.
When enabled, controller will assert and de-assert ODT output to DRAM as needed.

2.5.2.317 DDRSS_CTL_318 Register (Offset = 4F8h) [reset = X]

DDRSS_CTL_318 is shown in Figure 8-409 and described in Table 8-826.

Return to Summary Table.

Table 8-825 DDRSS_CTL_318 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04F8h
Figure 8-409 DDRSS_CTL_318 Register
3130292827262524
RESERVEDRD_TO_ODTH_F0
R/W-XR/W-0h
2322212019181716
RESERVEDWR_TO_ODTH_F2
R/W-XR/W-0h
15141312111098
RESERVEDWR_TO_ODTH_F1
R/W-XR/W-0h
76543210
RESERVEDWR_TO_ODTH_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-826 DDRSS_CTL_318 Register Field Descriptions
BitFieldTypeResetDescription
31-30RESERVEDR/WX
29-24RD_TO_ODTH_F0R/W0h

Defines the delay from a read command to ODT assertion.

23-22RESERVEDR/WX
21-16WR_TO_ODTH_F2R/W0h

Defines the delay from a write command to ODT assertion.

15-14RESERVEDR/WX
13-8WR_TO_ODTH_F1R/W0h

Defines the delay from a write command to ODT assertion.

7-6RESERVEDR/WX
5-0WR_TO_ODTH_F0R/W0h

Defines the delay from a write command to ODT assertion.

2.5.2.318 DDRSS_CTL_319 Register (Offset = 4FCh) [reset = X]

DDRSS_CTL_319 is shown in Figure 8-410 and described in Table 8-828.

Return to Summary Table.

Table 8-827 DDRSS_CTL_319 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 04FCh
Figure 8-410 DDRSS_CTL_319 Register
3130292827262524
RESERVEDRW2MRW_DLY_F1
R/W-XR/W-8h
2322212019181716
RESERVEDRW2MRW_DLY_F0
R/W-XR/W-8h
15141312111098
RESERVEDRD_TO_ODTH_F2
R/W-XR/W-0h
76543210
RESERVEDRD_TO_ODTH_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-828 DDRSS_CTL_319 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24RW2MRW_DLY_F1R/W8h

Additional delay to insert between read or write and mode_reg_write.
Allowed programming dependent on memory system.

23-21RESERVEDR/WX
20-16RW2MRW_DLY_F0R/W8h

Additional delay to insert between read or write and mode_reg_write.
Allowed programming dependent on memory system.

15-14RESERVEDR/WX
13-8RD_TO_ODTH_F2R/W0h

Defines the delay from a read command to ODT assertion.

7-6RESERVEDR/WX
5-0RD_TO_ODTH_F1R/W0h

Defines the delay from a read command to ODT assertion.

2.5.2.319 DDRSS_CTL_320 Register (Offset = 500h) [reset = X]

DDRSS_CTL_320 is shown in Figure 8-411 and described in Table 8-830.

Return to Summary Table.

Table 8-829 DDRSS_CTL_320 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0500h
Figure 8-411 DDRSS_CTL_320 Register
3130292827262524
RESERVEDW2R_DIFFCS_DLY_F0
R/W-XR/W-1h
2322212019181716
RESERVEDR2W_DIFFCS_DLY_F0
R/W-XR/W-1h
15141312111098
RESERVEDR2R_DIFFCS_DLY_F0
R/W-XR/W-1h
76543210
RESERVEDRW2MRW_DLY_F2
R/W-XR/W-8h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-830 DDRSS_CTL_320 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24W2R_DIFFCS_DLY_F0R/W1h

Additional delay to insert between writes and reads to different chip selects.
Allowed programming dependent on memory system.

23-21RESERVEDR/WX
20-16R2W_DIFFCS_DLY_F0R/W1h

Additional delay to insert between reads and writes to different chip selects.
Program to a non-zero value.

15-13RESERVEDR/WX
12-8R2R_DIFFCS_DLY_F0R/W1h

Additional delay to insert between reads to different chip selects.
Allowed programming dependent on memory system.

7-5RESERVEDR/WX
4-0RW2MRW_DLY_F2R/W8h

Additional delay to insert between read or write and mode_reg_write.
Allowed programming dependent on memory system.

2.5.2.320 DDRSS_CTL_321 Register (Offset = 504h) [reset = X]

DDRSS_CTL_321 is shown in Figure 8-412 and described in Table 8-832.

Return to Summary Table.

Table 8-831 DDRSS_CTL_321 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0504h
Figure 8-412 DDRSS_CTL_321 Register
3130292827262524
RESERVEDW2R_DIFFCS_DLY_F1
R/W-XR/W-1h
2322212019181716
RESERVEDR2W_DIFFCS_DLY_F1
R/W-XR/W-1h
15141312111098
RESERVEDR2R_DIFFCS_DLY_F1
R/W-XR/W-1h
76543210
RESERVEDW2W_DIFFCS_DLY_F0
R/W-XR/W-1h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-832 DDRSS_CTL_321 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24W2R_DIFFCS_DLY_F1R/W1h

Additional delay to insert between writes and reads to different chip selects.
Allowed programming dependent on memory system.

23-21RESERVEDR/WX
20-16R2W_DIFFCS_DLY_F1R/W1h

Additional delay to insert between reads and writes to different chip selects.
Program to a non-zero value.

15-13RESERVEDR/WX
12-8R2R_DIFFCS_DLY_F1R/W1h

Additional delay to insert between reads to different chip selects.
Allowed programming dependent on memory system.

7-5RESERVEDR/WX
4-0W2W_DIFFCS_DLY_F0R/W1h

Additional delay to insert between writes to different chip selects.
Program to a non-zero value.

2.5.2.321 DDRSS_CTL_322 Register (Offset = 508h) [reset = X]

DDRSS_CTL_322 is shown in Figure 8-413 and described in Table 8-834.

Return to Summary Table.

Table 8-833 DDRSS_CTL_322 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0508h
Figure 8-413 DDRSS_CTL_322 Register
3130292827262524
RESERVEDW2R_DIFFCS_DLY_F2
R/W-XR/W-1h
2322212019181716
RESERVEDR2W_DIFFCS_DLY_F2
R/W-XR/W-1h
15141312111098
RESERVEDR2R_DIFFCS_DLY_F2
R/W-XR/W-1h
76543210
RESERVEDW2W_DIFFCS_DLY_F1
R/W-XR/W-1h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-834 DDRSS_CTL_322 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24W2R_DIFFCS_DLY_F2R/W1h

Additional delay to insert between writes and reads to different chip selects.
Allowed programming dependent on memory system.

23-21RESERVEDR/WX
20-16R2W_DIFFCS_DLY_F2R/W1h

Additional delay to insert between reads and writes to different chip selects.
Program to a non-zero value.

15-13RESERVEDR/WX
12-8R2R_DIFFCS_DLY_F2R/W1h

Additional delay to insert between reads to different chip selects.
Allowed programming dependent on memory system.

7-5RESERVEDR/WX
4-0W2W_DIFFCS_DLY_F1R/W1h

Additional delay to insert between writes to different chip selects.
Program to a non-zero value.

2.5.2.322 DDRSS_CTL_323 Register (Offset = 50Ch) [reset = X]

DDRSS_CTL_323 is shown in Figure 8-414 and described in Table 8-836.

Return to Summary Table.

Table 8-835 DDRSS_CTL_323 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 050Ch
Figure 8-414 DDRSS_CTL_323 Register
3130292827262524
RESERVEDR2W_SAMECS_DLY_F1
R/W-XR/W-2h
2322212019181716
RESERVEDR2W_SAMECS_DLY_F0
R/W-XR/W-2h
15141312111098
RESERVEDR2R_SAMECS_DLY
R/W-XR/W-0h
76543210
RESERVEDW2W_DIFFCS_DLY_F2
R/W-XR/W-1h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-836 DDRSS_CTL_323 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDR/WX
28-24R2W_SAMECS_DLY_F1R/W2h

Additional delay to insert between reads and writes to the same chip select.
Program to a non-zero value.

23-21RESERVEDR/WX
20-16R2W_SAMECS_DLY_F0R/W2h

Additional delay to insert between reads and writes to the same chip select.
Program to a non-zero value.

15-13RESERVEDR/WX
12-8R2R_SAMECS_DLYR/W0h

Additional delay to insert between two reads to the same chip select.
Any value including 0 supported.

7-5RESERVEDR/WX
4-0W2W_DIFFCS_DLY_F2R/W1h

Additional delay to insert between writes to different chip selects.
Program to a non-zero value.

2.5.2.323 DDRSS_CTL_324 Register (Offset = 510h) [reset = X]

DDRSS_CTL_324 is shown in Figure 8-415 and described in Table 8-838.

Return to Summary Table.

Table 8-837 DDRSS_CTL_324 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0510h
Figure 8-415 DDRSS_CTL_324 Register
3130292827262524
RESERVEDTDQSCK_MAX_F0
R/W-XR/W-0h
2322212019181716
RESERVEDW2W_SAMECS_DLY
R/W-XR/W-0h
15141312111098
RESERVEDW2R_SAMECS_DLY
R/W-XR/W-0h
76543210
RESERVEDR2W_SAMECS_DLY_F2
R/W-XR/W-2h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-838 DDRSS_CTL_324 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24TDQSCK_MAX_F0R/W0h

Additional delay needed for tDQSCK.

23-21RESERVEDR/WX
20-16W2W_SAMECS_DLYR/W0h

Additional delay to insert between two writes to the same chip select.
Any value including 0 supported.

15-13RESERVEDR/WX
12-8W2R_SAMECS_DLYR/W0h

Additional delay to insert between writes and reads to the same chip select.

7-5RESERVEDR/WX
4-0R2W_SAMECS_DLY_F2R/W2h

Additional delay to insert between reads and writes to the same chip select.
Program to a non-zero value.

2.5.2.324 DDRSS_CTL_325 Register (Offset = 514h) [reset = X]

DDRSS_CTL_325 is shown in Figure 8-416 and described in Table 8-840.

Return to Summary Table.

Table 8-839 DDRSS_CTL_325 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0514h
Figure 8-416 DDRSS_CTL_325 Register
3130292827262524
RESERVEDTDQSCK_MAX_F2
R/W-XR/W-0h
2322212019181716
RESERVEDTDQSCK_MIN_F1
R/W-XR/W-0h
15141312111098
RESERVEDTDQSCK_MAX_F1
R/W-XR/W-0h
76543210
RESERVEDTDQSCK_MIN_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-840 DDRSS_CTL_325 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24TDQSCK_MAX_F2R/W0h

Additional delay needed for tDQSCK.

23-19RESERVEDR/WX
18-16TDQSCK_MIN_F1R/W0h

Additional delay needed for tDQSCK.

15-12RESERVEDR/WX
11-8TDQSCK_MAX_F1R/W0h

Additional delay needed for tDQSCK.

7-3RESERVEDR/WX
2-0TDQSCK_MIN_F0R/W0h

Additional delay needed for tDQSCK.

2.5.2.325 DDRSS_CTL_326 Register (Offset = 518h) [reset = X]

DDRSS_CTL_326 is shown in Figure 8-417 and described in Table 8-842.

Return to Summary Table.

Table 8-841 DDRSS_CTL_326 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0518h
Figure 8-417 DDRSS_CTL_326 Register
3130292827262524
RESERVEDSWLVL_START
R/W-XW-0h
2322212019181716
RESERVEDSWLVL_LOAD
R/W-XW-0h
15141312111098
RESERVEDSW_LEVELING_MODE
R/W-XR/W-0h
76543210
RESERVEDTDQSCK_MIN_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-842 DDRSS_CTL_326 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24SWLVL_STARTW0h

User request to initiate software leveling of type in the SW_LEVELING_MODE parameter.
Set to 1 to trigger.
WRITE-ONLY

23-17RESERVEDR/WX
16SWLVL_LOADW0h

User request to load delays and execute software leveling.
Set to 1 to trigger.
WRITE-ONLY

15-11RESERVEDR/WX
10-8SW_LEVELING_MODER/W0h

Defines the leveling operation for software leveling.
Clear to 0 for none, program to 1 for write leveling, program to 2 for data eye training, or program to 3 for gate training.

7-3RESERVEDR/WX
2-0TDQSCK_MIN_F2R/W0h

Additional delay needed for tDQSCK.

2.5.2.326 DDRSS_CTL_327 Register (Offset = 51Ch) [reset = X]

DDRSS_CTL_327 is shown in Figure 8-418 and described in Table 8-844.

Return to Summary Table.

Table 8-843 DDRSS_CTL_327 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 051Ch
Figure 8-418 DDRSS_CTL_327 Register
3130292827262524
RESERVEDSWLVL_RESP_1
R/W-XR-0h
2322212019181716
RESERVEDSWLVL_RESP_0
R/W-XR-0h
15141312111098
RESERVEDSWLVL_OP_DONE
R/W-XR-0h
76543210
RESERVEDSWLVL_EXIT
R/W-XW-0h
LEGEND: R = Read Only; R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-844 DDRSS_CTL_327 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24SWLVL_RESP_1R0h

Leveling response for data slice 1.
READ-ONLY

23-17RESERVEDR/WX
16SWLVL_RESP_0R0h

Leveling response for data slice 0.
READ-ONLY

15-9RESERVEDR/WX
8SWLVL_OP_DONER0h

Signals that software leveling is currently in progress.
Value of 1 indicates operation complete.
READ-ONLY

7-1RESERVEDR/WX
0SWLVL_EXITW0h

User request to exit software leveling.
Set to 1 to exit.
WRITE-ONLY

2.5.2.327 DDRSS_CTL_328 Register (Offset = 520h) [reset = X]

DDRSS_CTL_328 is shown in Figure 8-419 and described in Table 8-846.

Return to Summary Table.

Table 8-845 DDRSS_CTL_328 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0520h
Figure 8-419 DDRSS_CTL_328 Register
3130292827262524
RESERVEDWRLVL_REQ
R/W-XW-0h
2322212019181716
RESERVEDPHYUPD_APPEND_EN
R/W-XR/W-0h
15141312111098
RESERVEDSWLVL_RESP_3
R/W-XR-0h
76543210
RESERVEDSWLVL_RESP_2
R/W-XR-0h
LEGEND: R = Read Only; R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-846 DDRSS_CTL_328 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24WRLVL_REQW0h

User request to initiate write leveling.
Set to 1 to trigger.
WRITE-ONLY

23-17RESERVEDR/WX
16PHYUPD_APPEND_ENR/W0h

Specifies if a PHY update will be run prior to completing a training sequence.
Set to 1 to enable.

15-9RESERVEDR/WX
8SWLVL_RESP_3R0h

Leveling response for data slice 3.
READ-ONLY

7-1RESERVEDR/WX
0SWLVL_RESP_2R0h

Leveling response for data slice 2.
READ-ONLY

2.5.2.328 DDRSS_CTL_329 Register (Offset = 524h) [reset = X]

DDRSS_CTL_329 is shown in Figure 8-420 and described in Table 8-848.

Return to Summary Table.

Table 8-847 DDRSS_CTL_329 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0524h
Figure 8-420 DDRSS_CTL_329 Register
3130292827262524
RESERVEDWRLVL_EN
R/W-XR/W-0h
2322212019181716
RESERVEDWLMRD
R/W-XR/W-0h
15141312111098
RESERVEDWLDQSEN
R/W-XR/W-0h
76543210
RESERVEDWRLVL_CS
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-848 DDRSS_CTL_329 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24WRLVL_ENR/W0h

Enable the MC write leveling module.
Set to 1 to enable.

23-22RESERVEDR/WX
21-16WLMRDR/W0h

Delay from issuing MRS to first write leveling strobe.

15-14RESERVEDR/WX
13-8WLDQSENR/W0h

Delay from issuing MRS to first DQS strobe for write leveling.

7-1RESERVEDR/WX
0WRLVL_CSR/W0h

Specifies the target chip select for the write leveling operation initiated through the WRLVL_REQ parameter.

2.5.2.329 DDRSS_CTL_330 Register (Offset = 528h) [reset = X]

DDRSS_CTL_330 is shown in Figure 8-421 and described in Table 8-850.

Return to Summary Table.

Table 8-849 DDRSS_CTL_330 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0528h
Figure 8-421 DDRSS_CTL_330 Register
3130292827262524
RESERVEDWRLVL_RESP_MASK
R/W-XR/W-0h
2322212019181716
RESERVEDWRLVL_ON_SREF_EXIT
R/W-XR/W-0h
15141312111098
RESERVEDWRLVL_PERIODIC
R/W-XR/W-0h
76543210
RESERVEDDFI_PHY_WRLVL_MODE
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-850 DDRSS_CTL_330 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24WRLVL_RESP_MASKR/W0h

Mask for the dfi_wrlvl_resp signal during write leveling.

23-17RESERVEDR/WX
16WRLVL_ON_SREF_EXITR/W0h

Enables automatic write leveling on a self-refresh exit.
Set to 1 to enable.

15-9RESERVEDR/WX
8WRLVL_PERIODICR/W0h

Enables the use of the dfi_lvl_periodic signal during write leveling.
Set to 1 to enable.

7-1RESERVEDR/WX
0DFI_PHY_WRLVL_MODER/W0h

Specifies the PHY support for DFI write leveling.
Set to 1 for supported.

2.5.2.330 DDRSS_CTL_331 Register (Offset = 52Ch) [reset = X]

DDRSS_CTL_331 is shown in Figure 8-422 and described in Table 8-852.

Return to Summary Table.

Table 8-851 DDRSS_CTL_331 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 052Ch
Figure 8-422 DDRSS_CTL_331 Register
3130292827262524
RESERVEDWRLVL_ERROR_STATUS
R/W-XR-0h
2322212019181716
RESERVEDWRLVL_CS_MAP
R/W-XR/W-0h
15141312111098
RESERVEDWRLVL_ROTATE
R/W-XR/W-0h
76543210
RESERVEDWRLVL_AREF_EN
R/W-XR/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-852 DDRSS_CTL_331 Register Field Descriptions
BitFieldTypeResetDescription
31-27RESERVEDR/WX
26-24WRLVL_ERROR_STATUSR0h

Holds the error associated with the write level error interrupt.
Bit (0) set indicates a TDFI_WRLVL_MAX parameter violation, bit (1) set indicates a TDFI_WRLVL_RESP parameter violation, bit (2) set indicates that a write leveling operation was attempted while memory was in self-refresh mode or self-refresh power-down mode.
READ-ONLY

23-18RESERVEDR/WX
17-16WRLVL_CS_MAPR/W0h

Defines the chip select map for write leveling operations.
Bit (0) controls cs0, bit (1) controls cs1, etc.
Set each bit to 1 to enable chip for write leveling.

15-9RESERVEDR/WX
8WRLVL_ROTATER/W0h

Enables rotational CS for interval write leveling.
Set to 1 for rotating CS.

7-1RESERVEDR/WX
0WRLVL_AREF_ENR/W0h

Enables refreshes and other non-data commands to execute in the middle of write leveling.
Set to 1 to enable.

2.5.2.331 DDRSS_CTL_332 Register (Offset = 530h) [reset = 0h]

DDRSS_CTL_332 is shown in Figure 8-423 and described in Table 8-854.

Return to Summary Table.

Table 8-853 DDRSS_CTL_332 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0530h
Figure 8-423 DDRSS_CTL_332 Register
31302928272625242322212019181716
WRLVL_HIGH_THRESHOLD_F0
R/W-0h
1514131211109876543210
WRLVL_NORM_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-854 DDRSS_CTL_332 Register Field Descriptions
BitFieldTypeResetDescription
31-16WRLVL_HIGH_THRESHOLD_F0R/W0h

Write leveling high threshold number of long counts until the high priority request is asserted.

15-0WRLVL_NORM_THRESHOLD_F0R/W0h

Write leveling normal threshold number of long counts until the normal priority request is asserted.

2.5.2.332 DDRSS_CTL_333 Register (Offset = 534h) [reset = 0h]

DDRSS_CTL_333 is shown in Figure 8-424 and described in Table 8-856.

Return to Summary Table.

Table 8-855 DDRSS_CTL_333 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0534h
Figure 8-424 DDRSS_CTL_333 Register
31302928272625242322212019181716
WRLVL_SW_PROMOTE_THRESHOLD_F0
R/W-0h
1514131211109876543210
WRLVL_TIMEOUT_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-856 DDRSS_CTL_333 Register Field Descriptions
BitFieldTypeResetDescription
31-16WRLVL_SW_PROMOTE_THRESHOLD_F0R/W0h

Write leveling promotion number of long counts until the high priority request is asserted.
Applies to SW commands.

15-0WRLVL_TIMEOUT_F0R/W0h

Write leveling timeout number of long counts until the timeout is asserted.

2.5.2.333 DDRSS_CTL_334 Register (Offset = 538h) [reset = 0h]

DDRSS_CTL_334 is shown in Figure 8-425 and described in Table 8-858.

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Table 8-857 DDRSS_CTL_334 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0538h
Figure 8-425 DDRSS_CTL_334 Register
31302928272625242322212019181716
WRLVL_NORM_THRESHOLD_F1
R/W-0h
1514131211109876543210
WRLVL_DFI_PROMOTE_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-858 DDRSS_CTL_334 Register Field Descriptions
BitFieldTypeResetDescription
31-16WRLVL_NORM_THRESHOLD_F1R/W0h

Write leveling normal threshold number of long counts until the normal priority request is asserted.

15-0WRLVL_DFI_PROMOTE_THRESHOLD_F0R/W0h

Write leveling promotion number of long counts until the high priority request is asserted.
Applies to DFI commands.

2.5.2.334 DDRSS_CTL_335 Register (Offset = 53Ch) [reset = 0h]

DDRSS_CTL_335 is shown in Figure 8-426 and described in Table 8-860.

Return to Summary Table.

Table 8-859 DDRSS_CTL_335 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 053Ch
Figure 8-426 DDRSS_CTL_335 Register
31302928272625242322212019181716
WRLVL_TIMEOUT_F1
R/W-0h
1514131211109876543210
WRLVL_HIGH_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-860 DDRSS_CTL_335 Register Field Descriptions
BitFieldTypeResetDescription
31-16WRLVL_TIMEOUT_F1R/W0h

Write leveling timeout number of long counts until the timeout is asserted.

15-0WRLVL_HIGH_THRESHOLD_F1R/W0h

Write leveling high threshold number of long counts until the high priority request is asserted.

2.5.2.335 DDRSS_CTL_336 Register (Offset = 540h) [reset = 0h]

DDRSS_CTL_336 is shown in Figure 8-427 and described in Table 8-862.

Return to Summary Table.

Table 8-861 DDRSS_CTL_336 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0540h
Figure 8-427 DDRSS_CTL_336 Register
31302928272625242322212019181716
WRLVL_DFI_PROMOTE_THRESHOLD_F1
R/W-0h
1514131211109876543210
WRLVL_SW_PROMOTE_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-862 DDRSS_CTL_336 Register Field Descriptions
BitFieldTypeResetDescription
31-16WRLVL_DFI_PROMOTE_THRESHOLD_F1R/W0h

Write leveling promotion number of long counts until the high priority request is asserted.
Applies to DFI commands.

15-0WRLVL_SW_PROMOTE_THRESHOLD_F1R/W0h

Write leveling promotion number of long counts until the high priority request is asserted.
Applies to SW commands.

2.5.2.336 DDRSS_CTL_337 Register (Offset = 544h) [reset = 0h]

DDRSS_CTL_337 is shown in Figure 8-428 and described in Table 8-864.

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Table 8-863 DDRSS_CTL_337 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0544h
Figure 8-428 DDRSS_CTL_337 Register
31302928272625242322212019181716
WRLVL_HIGH_THRESHOLD_F2
R/W-0h
1514131211109876543210
WRLVL_NORM_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-864 DDRSS_CTL_337 Register Field Descriptions
BitFieldTypeResetDescription
31-16WRLVL_HIGH_THRESHOLD_F2R/W0h

Write leveling high threshold number of long counts until the high priority request is asserted.

15-0WRLVL_NORM_THRESHOLD_F2R/W0h

Write leveling normal threshold number of long counts until the normal priority request is asserted.

2.5.2.337 DDRSS_CTL_338 Register (Offset = 548h) [reset = 0h]

DDRSS_CTL_338 is shown in Figure 8-429 and described in Table 8-866.

Return to Summary Table.

Table 8-865 DDRSS_CTL_338 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0548h
Figure 8-429 DDRSS_CTL_338 Register
31302928272625242322212019181716
WRLVL_SW_PROMOTE_THRESHOLD_F2
R/W-0h
1514131211109876543210
WRLVL_TIMEOUT_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-866 DDRSS_CTL_338 Register Field Descriptions
BitFieldTypeResetDescription
31-16WRLVL_SW_PROMOTE_THRESHOLD_F2R/W0h

Write leveling promotion number of long counts until the high priority request is asserted.
Applies to SW commands.

15-0WRLVL_TIMEOUT_F2R/W0h

Write leveling timeout number of long counts until the timeout is asserted.

2.5.2.338 DDRSS_CTL_339 Register (Offset = 54Ch) [reset = X]

DDRSS_CTL_339 is shown in Figure 8-430 and described in Table 8-868.

Return to Summary Table.

Table 8-867 DDRSS_CTL_339 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 054Ch
Figure 8-430 DDRSS_CTL_339 Register
3130292827262524
RESERVEDRDLVL_GATE_REQ
R/W-XW-0h
2322212019181716
RESERVEDRDLVL_REQ
R/W-XW-0h
15141312111098
WRLVL_DFI_PROMOTE_THRESHOLD_F2
R/W-0h
76543210
WRLVL_DFI_PROMOTE_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-868 DDRSS_CTL_339 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24RDLVL_GATE_REQW0h

User request to initiate gate training.
Set to 1 to trigger.
WRITE-ONLY

23-17RESERVEDR/WX
16RDLVL_REQW0h

User request to initiate data eye training.
Set to 1 to trigger.
WRITE-ONLY

15-0WRLVL_DFI_PROMOTE_THRESHOLD_F2R/W0h

Write leveling promotion number of long counts until the high priority request is asserted.
Applies to DFI commands.

2.5.2.339 DDRSS_CTL_340 Register (Offset = 550h) [reset = X]

DDRSS_CTL_340 is shown in Figure 8-431 and described in Table 8-870.

Return to Summary Table.

Table 8-869 DDRSS_CTL_340 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0550h
Figure 8-431 DDRSS_CTL_340 Register
3130292827262524
RESERVEDDFI_PHY_RDLVL_MODE
R/W-XR/W-0h
2322212019181716
RESERVEDRDLVL_GATE_SEQ_EN
R/W-XR/W-0h
15141312111098
RESERVEDRDLVL_SEQ_EN
R/W-XR/W-0h
76543210
RESERVEDRDLVL_CS
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-870 DDRSS_CTL_340 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24DFI_PHY_RDLVL_MODER/W0h

Specifies the PHY support for DFI data eye training.
Set to 1 for supported.

23-20RESERVEDR/WX
19-16RDLVL_GATE_SEQ_ENR/W0h

Specifies the pattern, format and MPR for gate training.

15-12RESERVEDR/WX
11-8RDLVL_SEQ_ENR/W0h

Specifies the pattern, format and MPR for data eye training.

7-1RESERVEDR/WX
0RDLVL_CSR/W0h

Specifies the target chip select for the data eye training operation initiated through the RDLVL_REQ parameter or the gate training operation initiated through the RDLVL_GATE_REQ parameter.

2.5.2.340 DDRSS_CTL_341 Register (Offset = 554h) [reset = X]

DDRSS_CTL_341 is shown in Figure 8-432 and described in Table 8-872.

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Table 8-871 DDRSS_CTL_341 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0554h
Figure 8-432 DDRSS_CTL_341 Register
3130292827262524
RESERVEDRDLVL_GATE_PERIODIC
R/W-XR/W-0h
2322212019181716
RESERVEDRDLVL_ON_SREF_EXIT
R/W-XR/W-0h
15141312111098
RESERVEDRDLVL_PERIODIC
R/W-XR/W-0h
76543210
RESERVEDDFI_PHY_RDLVL_GATE_MODE
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-872 DDRSS_CTL_341 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24RDLVL_GATE_PERIODICR/W0h

Enables the use of the dfi_lvl_periodic signal during gate training.
Set to 1 to enable.

23-17RESERVEDR/WX
16RDLVL_ON_SREF_EXITR/W0h

Enables automatic data eye training on a self-refresh exit.
Set to 1 to enable.

15-9RESERVEDR/WX
8RDLVL_PERIODICR/W0h

Enables the use of the dfi_lvl_periodic signal during data eye training.
Set to 1 to enable.

7-1RESERVEDR/WX
0DFI_PHY_RDLVL_GATE_MODER/W0h

Specifies the PHY support for DFI gate training.
Set to 1 for supported.

2.5.2.341 DDRSS_CTL_342 Register (Offset = 558h) [reset = X]

DDRSS_CTL_342 is shown in Figure 8-433 and described in Table 8-874.

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Table 8-873 DDRSS_CTL_342 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0558h
Figure 8-433 DDRSS_CTL_342 Register
3130292827262524
RESERVEDRESERVED
R/W-XR/W-0h
2322212019181716
RESERVEDRDLVL_GATE_AREF_EN
R/W-XR/W-0h
15141312111098
RESERVEDRDLVL_AREF_EN
R/W-XR/W-0h
76543210
RESERVEDRDLVL_GATE_ON_SREF_EXIT
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-874 DDRSS_CTL_342 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24RESERVEDR/W0h

Reserved

23-17RESERVEDR/WX
16RDLVL_GATE_AREF_ENR/W0h

Enables refreshes and other non-data commands to execute in the middle of gate training.
Set to 1 to enable.

15-9RESERVEDR/WX
8RDLVL_AREF_ENR/W0h

Enables refreshes and other non-data commands to execute in the middle of data eye training.
Set to 1 to enable.

7-1RESERVEDR/WX
0RDLVL_GATE_ON_SREF_EXITR/W0h

Enables automatic gate training on a self-refresh exit.
Set to 1 to enable.

2.5.2.342 DDRSS_CTL_343 Register (Offset = 55Ch) [reset = X]

DDRSS_CTL_343 is shown in Figure 8-434 and described in Table 8-876.

Return to Summary Table.

Table 8-875 DDRSS_CTL_343 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 055Ch
Figure 8-434 DDRSS_CTL_343 Register
3130292827262524
RESERVEDRDLVL_GATE_CS_MAP
R/W-XR/W-0h
2322212019181716
RESERVEDRDLVL_CS_MAP
R/W-XR/W-0h
15141312111098
RESERVEDRDLVL_GATE_ROTATE
R/W-XR/W-0h
76543210
RESERVEDRDLVL_ROTATE
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-876 DDRSS_CTL_343 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-24RDLVL_GATE_CS_MAPR/W0h

Defines the chip select map for gate training operations.
Bit (0) controls cs0, bit (1) controls cs1, etc.
Set each bit to 1 to enable chip for gate training.

23-18RESERVEDR/WX
17-16RDLVL_CS_MAPR/W0h

Defines the chip select map for data eye training operations.
Bit (0) controls cs0, bit (1) controls cs1, etc.
Set each bit to 1 to enable chip for data eye training.

15-9RESERVEDR/WX
8RDLVL_GATE_ROTATER/W0h

Enables rotational CS for interval gate training.
Set to 1 for rotating CS.

7-1RESERVEDR/WX
0RDLVL_ROTATER/W0h

Enables rotational CS for interval data eye training.
Set to 1 for rotating CS.

2.5.2.343 DDRSS_CTL_344 Register (Offset = 560h) [reset = 0h]

DDRSS_CTL_344 is shown in Figure 8-435 and described in Table 8-878.

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Table 8-877 DDRSS_CTL_344 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0560h
Figure 8-435 DDRSS_CTL_344 Register
31302928272625242322212019181716
RDLVL_HIGH_THRESHOLD_F0
R/W-0h
1514131211109876543210
RDLVL_NORM_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-878 DDRSS_CTL_344 Register Field Descriptions
BitFieldTypeResetDescription
31-16RDLVL_HIGH_THRESHOLD_F0R/W0h

Read leveling high threshold number of long counts until the high priority request is asserted.

15-0RDLVL_NORM_THRESHOLD_F0R/W0h

Read leveling normal threshold number of long counts until the normal priority request is asserted.

2.5.2.344 DDRSS_CTL_345 Register (Offset = 564h) [reset = 0h]

DDRSS_CTL_345 is shown in Figure 8-436 and described in Table 8-880.

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Table 8-879 DDRSS_CTL_345 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0564h
Figure 8-436 DDRSS_CTL_345 Register
31302928272625242322212019181716
RDLVL_SW_PROMOTE_THRESHOLD_F0
R/W-0h
1514131211109876543210
RDLVL_TIMEOUT_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-880 DDRSS_CTL_345 Register Field Descriptions
BitFieldTypeResetDescription
31-16RDLVL_SW_PROMOTE_THRESHOLD_F0R/W0h

Read leveling promotion number of long counts until the high priority request is asserted.
Applies to SW commands.

15-0RDLVL_TIMEOUT_F0R/W0h

Read leveling timeout number of long counts until the timeout is asserted.

2.5.2.345 DDRSS_CTL_346 Register (Offset = 568h) [reset = 0h]

DDRSS_CTL_346 is shown in Figure 8-437 and described in Table 8-882.

Return to Summary Table.

Table 8-881 DDRSS_CTL_346 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0568h
Figure 8-437 DDRSS_CTL_346 Register
31302928272625242322212019181716
RDLVL_GATE_NORM_THRESHOLD_F0
R/W-0h
1514131211109876543210
RDLVL_DFI_PROMOTE_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-882 DDRSS_CTL_346 Register Field Descriptions
BitFieldTypeResetDescription
31-16RDLVL_GATE_NORM_THRESHOLD_F0R/W0h

Gate training normal threshold number of long counts until the normal priority request is asserted.

15-0RDLVL_DFI_PROMOTE_THRESHOLD_F0R/W0h

Read leveling promotion number of long counts until the high priority request is asserted.
Applies to DFI commands.

2.5.2.346 DDRSS_CTL_347 Register (Offset = 56Ch) [reset = 0h]

DDRSS_CTL_347 is shown in Figure 8-438 and described in Table 8-884.

Return to Summary Table.

Table 8-883 DDRSS_CTL_347 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 056Ch
Figure 8-438 DDRSS_CTL_347 Register
31302928272625242322212019181716
RDLVL_GATE_TIMEOUT_F0
R/W-0h
1514131211109876543210
RDLVL_GATE_HIGH_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-884 DDRSS_CTL_347 Register Field Descriptions
BitFieldTypeResetDescription
31-16RDLVL_GATE_TIMEOUT_F0R/W0h

Gate training timeout number of long counts until the timeout is asserted.

15-0RDLVL_GATE_HIGH_THRESHOLD_F0R/W0h

Gate training high threshold number of long counts until the high priority request is asserted.

2.5.2.347 DDRSS_CTL_348 Register (Offset = 570h) [reset = 0h]

DDRSS_CTL_348 is shown in Figure 8-439 and described in Table 8-886.

Return to Summary Table.

Table 8-885 DDRSS_CTL_348 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0570h
Figure 8-439 DDRSS_CTL_348 Register
31302928272625242322212019181716
RDLVL_GATE_DFI_PROMOTE_THRESHOLD_F0
R/W-0h
1514131211109876543210
RDLVL_GATE_SW_PROMOTE_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-886 DDRSS_CTL_348 Register Field Descriptions
BitFieldTypeResetDescription
31-16RDLVL_GATE_DFI_PROMOTE_THRESHOLD_F0R/W0h

Gate training promotion number of long counts until the high priority request is asserted.
Applies to DFI commands.

15-0RDLVL_GATE_SW_PROMOTE_THRESHOLD_F0R/W0h

Gate training promotion number of long counts until the high priority request is asserted.
Applies to SW commands.

2.5.2.348 DDRSS_CTL_349 Register (Offset = 574h) [reset = 0h]

DDRSS_CTL_349 is shown in Figure 8-440 and described in Table 8-888.

Return to Summary Table.

Table 8-887 DDRSS_CTL_349 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0574h
Figure 8-440 DDRSS_CTL_349 Register
31302928272625242322212019181716
RDLVL_HIGH_THRESHOLD_F1
R/W-0h
1514131211109876543210
RDLVL_NORM_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-888 DDRSS_CTL_349 Register Field Descriptions
BitFieldTypeResetDescription
31-16RDLVL_HIGH_THRESHOLD_F1R/W0h

Read leveling high threshold number of long counts until the high priority request is asserted.

15-0RDLVL_NORM_THRESHOLD_F1R/W0h

Read leveling normal threshold number of long counts until the normal priority request is asserted.

2.5.2.349 DDRSS_CTL_350 Register (Offset = 578h) [reset = 0h]

DDRSS_CTL_350 is shown in Figure 8-441 and described in Table 8-890.

Return to Summary Table.

Table 8-889 DDRSS_CTL_350 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0578h
Figure 8-441 DDRSS_CTL_350 Register
31302928272625242322212019181716
RDLVL_SW_PROMOTE_THRESHOLD_F1
R/W-0h
1514131211109876543210
RDLVL_TIMEOUT_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-890 DDRSS_CTL_350 Register Field Descriptions
BitFieldTypeResetDescription
31-16RDLVL_SW_PROMOTE_THRESHOLD_F1R/W0h

Read leveling promotion number of long counts until the high priority request is asserted.
Applies to SW commands.

15-0RDLVL_TIMEOUT_F1R/W0h

Read leveling timeout number of long counts until the timeout is asserted.

2.5.2.350 DDRSS_CTL_351 Register (Offset = 57Ch) [reset = 0h]

DDRSS_CTL_351 is shown in Figure 8-442 and described in Table 8-892.

Return to Summary Table.

Table 8-891 DDRSS_CTL_351 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 057Ch
Figure 8-442 DDRSS_CTL_351 Register
31302928272625242322212019181716
RDLVL_GATE_NORM_THRESHOLD_F1
R/W-0h
1514131211109876543210
RDLVL_DFI_PROMOTE_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-892 DDRSS_CTL_351 Register Field Descriptions
BitFieldTypeResetDescription
31-16RDLVL_GATE_NORM_THRESHOLD_F1R/W0h

Gate training normal threshold number of long counts until the normal priority request is asserted.

15-0RDLVL_DFI_PROMOTE_THRESHOLD_F1R/W0h

Read leveling promotion number of long counts until the high priority request is asserted.
Applies to DFI commands.

2.5.2.351 DDRSS_CTL_352 Register (Offset = 580h) [reset = 0h]

DDRSS_CTL_352 is shown in Figure 8-443 and described in Table 8-894.

Return to Summary Table.

Table 8-893 DDRSS_CTL_352 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0580h
Figure 8-443 DDRSS_CTL_352 Register
31302928272625242322212019181716
RDLVL_GATE_TIMEOUT_F1
R/W-0h
1514131211109876543210
RDLVL_GATE_HIGH_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-894 DDRSS_CTL_352 Register Field Descriptions
BitFieldTypeResetDescription
31-16RDLVL_GATE_TIMEOUT_F1R/W0h

Gate training timeout number of long counts until the timeout is asserted.

15-0RDLVL_GATE_HIGH_THRESHOLD_F1R/W0h

Gate training high threshold number of long counts until the high priority request is asserted.

2.5.2.352 DDRSS_CTL_353 Register (Offset = 584h) [reset = 0h]

DDRSS_CTL_353 is shown in Figure 8-444 and described in Table 8-896.

Return to Summary Table.

Table 8-895 DDRSS_CTL_353 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0584h
Figure 8-444 DDRSS_CTL_353 Register
31302928272625242322212019181716
RDLVL_GATE_DFI_PROMOTE_THRESHOLD_F1
R/W-0h
1514131211109876543210
RDLVL_GATE_SW_PROMOTE_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-896 DDRSS_CTL_353 Register Field Descriptions
BitFieldTypeResetDescription
31-16RDLVL_GATE_DFI_PROMOTE_THRESHOLD_F1R/W0h

Gate training promotion number of long counts until the high priority request is asserted.
Applies to DFI commands.

15-0RDLVL_GATE_SW_PROMOTE_THRESHOLD_F1R/W0h

Gate training promotion number of long counts until the high priority request is asserted.
Applies to SW commands.

2.5.2.353 DDRSS_CTL_354 Register (Offset = 588h) [reset = 0h]

DDRSS_CTL_354 is shown in Figure 8-445 and described in Table 8-898.

Return to Summary Table.

Table 8-897 DDRSS_CTL_354 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0588h
Figure 8-445 DDRSS_CTL_354 Register
31302928272625242322212019181716
RDLVL_HIGH_THRESHOLD_F2
R/W-0h
1514131211109876543210
RDLVL_NORM_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-898 DDRSS_CTL_354 Register Field Descriptions
BitFieldTypeResetDescription
31-16RDLVL_HIGH_THRESHOLD_F2R/W0h

Read leveling high threshold number of long counts until the high priority request is asserted.

15-0RDLVL_NORM_THRESHOLD_F2R/W0h

Read leveling normal threshold number of long counts until the normal priority request is asserted.

2.5.2.354 DDRSS_CTL_355 Register (Offset = 58Ch) [reset = 0h]

DDRSS_CTL_355 is shown in Figure 8-446 and described in Table 8-900.

Return to Summary Table.

Table 8-899 DDRSS_CTL_355 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 058Ch
Figure 8-446 DDRSS_CTL_355 Register
31302928272625242322212019181716
RDLVL_SW_PROMOTE_THRESHOLD_F2
R/W-0h
1514131211109876543210
RDLVL_TIMEOUT_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-900 DDRSS_CTL_355 Register Field Descriptions
BitFieldTypeResetDescription
31-16RDLVL_SW_PROMOTE_THRESHOLD_F2R/W0h

Read leveling promotion number of long counts until the high priority request is asserted.
Applies to SW commands.

15-0RDLVL_TIMEOUT_F2R/W0h

Read leveling timeout number of long counts until the timeout is asserted.

2.5.2.355 DDRSS_CTL_356 Register (Offset = 590h) [reset = 0h]

DDRSS_CTL_356 is shown in Figure 8-447 and described in Table 8-902.

Return to Summary Table.

Table 8-901 DDRSS_CTL_356 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0590h
Figure 8-447 DDRSS_CTL_356 Register
31302928272625242322212019181716
RDLVL_GATE_NORM_THRESHOLD_F2
R/W-0h
1514131211109876543210
RDLVL_DFI_PROMOTE_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-902 DDRSS_CTL_356 Register Field Descriptions
BitFieldTypeResetDescription
31-16RDLVL_GATE_NORM_THRESHOLD_F2R/W0h

Gate training normal threshold number of long counts until the normal priority request is asserted.

15-0RDLVL_DFI_PROMOTE_THRESHOLD_F2R/W0h

Read leveling promotion number of long counts until the high priority request is asserted.
Applies to DFI commands.

2.5.2.356 DDRSS_CTL_357 Register (Offset = 594h) [reset = 0h]

DDRSS_CTL_357 is shown in Figure 8-448 and described in Table 8-904.

Return to Summary Table.

Table 8-903 DDRSS_CTL_357 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0594h
Figure 8-448 DDRSS_CTL_357 Register
31302928272625242322212019181716
RDLVL_GATE_TIMEOUT_F2
R/W-0h
1514131211109876543210
RDLVL_GATE_HIGH_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-904 DDRSS_CTL_357 Register Field Descriptions
BitFieldTypeResetDescription
31-16RDLVL_GATE_TIMEOUT_F2R/W0h

Gate training timeout number of long counts until the timeout is asserted.

15-0RDLVL_GATE_HIGH_THRESHOLD_F2R/W0h

Gate training high threshold number of long counts until the high priority request is asserted.

2.5.2.357 DDRSS_CTL_358 Register (Offset = 598h) [reset = 0h]

DDRSS_CTL_358 is shown in Figure 8-449 and described in Table 8-906.

Return to Summary Table.

Table 8-905 DDRSS_CTL_358 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0598h
Figure 8-449 DDRSS_CTL_358 Register
31302928272625242322212019181716
RDLVL_GATE_DFI_PROMOTE_THRESHOLD_F2
R/W-0h
1514131211109876543210
RDLVL_GATE_SW_PROMOTE_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-906 DDRSS_CTL_358 Register Field Descriptions
BitFieldTypeResetDescription
31-16RDLVL_GATE_DFI_PROMOTE_THRESHOLD_F2R/W0h

Gate training promotion number of long counts until the high priority request is asserted.
Applies to DFI commands.

15-0RDLVL_GATE_SW_PROMOTE_THRESHOLD_F2R/W0h

Gate training promotion number of long counts until the high priority request is asserted.
Applies to SW commands.

2.5.2.358 DDRSS_CTL_359 Register (Offset = 59Ch) [reset = X]

DDRSS_CTL_359 is shown in Figure 8-450 and described in Table 8-908.

Return to Summary Table.

Table 8-907 DDRSS_CTL_359 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 059Ch
Figure 8-450 DDRSS_CTL_359 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVED
R/W-X
15141312111098
RESERVEDCALVL_CS
R/W-XR/W-0h
76543210
RESERVEDCALVL_REQ
R/W-XW-0h
LEGEND: R/W = Read/Write; W = Write Only; -n = value after reset
Table 8-908 DDRSS_CTL_359 Register Field Descriptions
BitFieldTypeResetDescription
31-9RESERVEDR/WX
8CALVL_CSR/W0h

Specifies the target chip select for the CA training operation initiated through the CALVL_REQ parameter.

7-1RESERVEDR/WX
0CALVL_REQW0h

User request to initiate CA training.
Set to 1 to trigger.
WRITE-ONLY

2.5.2.359 DDRSS_CTL_360 Register (Offset = 5A0h) [reset = X]

DDRSS_CTL_360 is shown in Figure 8-451 and described in Table 8-910.

Return to Summary Table.

Table 8-909 DDRSS_CTL_360 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05A0h
Figure 8-451 DDRSS_CTL_360 Register
313029282726252423222120191817161514131211109876543210
RESERVEDCALVL_PAT_0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-910 DDRSS_CTL_360 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-0CALVL_PAT_0R/W0h

CA Training pattern 0 driven on the CA bus during a calibration command.

2.5.2.360 DDRSS_CTL_361 Register (Offset = 5A4h) [reset = X]

DDRSS_CTL_361 is shown in Figure 8-452 and described in Table 8-912.

Return to Summary Table.

Table 8-911 DDRSS_CTL_361 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05A4h
Figure 8-452 DDRSS_CTL_361 Register
313029282726252423222120191817161514131211109876543210
RESERVEDCALVL_BG_PAT_0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-912 DDRSS_CTL_361 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-0CALVL_BG_PAT_0R/W0h

CA Training pattern 0 driven on the CA bus before and after a calibration command.

2.5.2.361 DDRSS_CTL_362 Register (Offset = 5A8h) [reset = X]

DDRSS_CTL_362 is shown in Figure 8-453 and described in Table 8-914.

Return to Summary Table.

Table 8-913 DDRSS_CTL_362 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05A8h
Figure 8-453 DDRSS_CTL_362 Register
313029282726252423222120191817161514131211109876543210
RESERVEDCALVL_PAT_1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-914 DDRSS_CTL_362 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-0CALVL_PAT_1R/W0h

CA Training pattern 1 driven on the CA bus during a calibration command.

2.5.2.362 DDRSS_CTL_363 Register (Offset = 5ACh) [reset = X]

DDRSS_CTL_363 is shown in Figure 8-454 and described in Table 8-916.

Return to Summary Table.

Table 8-915 DDRSS_CTL_363 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05ACh
Figure 8-454 DDRSS_CTL_363 Register
313029282726252423222120191817161514131211109876543210
RESERVEDCALVL_BG_PAT_1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-916 DDRSS_CTL_363 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-0CALVL_BG_PAT_1R/W0h

CA Training pattern 1 driven on the CA bus before and after a calibration command.

2.5.2.363 DDRSS_CTL_364 Register (Offset = 5B0h) [reset = X]

DDRSS_CTL_364 is shown in Figure 8-455 and described in Table 8-918.

Return to Summary Table.

Table 8-917 DDRSS_CTL_364 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05B0h
Figure 8-455 DDRSS_CTL_364 Register
313029282726252423222120191817161514131211109876543210
RESERVEDCALVL_PAT_2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-918 DDRSS_CTL_364 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-0CALVL_PAT_2R/W0h

CA Training pattern 2 driven on the CA bus during a calibration command.

2.5.2.364 DDRSS_CTL_365 Register (Offset = 5B4h) [reset = X]

DDRSS_CTL_365 is shown in Figure 8-456 and described in Table 8-920.

Return to Summary Table.

Table 8-919 DDRSS_CTL_365 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05B4h
Figure 8-456 DDRSS_CTL_365 Register
313029282726252423222120191817161514131211109876543210
RESERVEDCALVL_BG_PAT_2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-920 DDRSS_CTL_365 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-0CALVL_BG_PAT_2R/W0h

CA Training pattern 2 driven on the CA bus before and after a calibration command.

2.5.2.365 DDRSS_CTL_366 Register (Offset = 5B8h) [reset = X]

DDRSS_CTL_366 is shown in Figure 8-457 and described in Table 8-922.

Return to Summary Table.

Table 8-921 DDRSS_CTL_366 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05B8h
Figure 8-457 DDRSS_CTL_366 Register
313029282726252423222120191817161514131211109876543210
RESERVEDCALVL_PAT_3
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-922 DDRSS_CTL_366 Register Field Descriptions
BitFieldTypeResetDescription
31-20RESERVEDR/WX
19-0CALVL_PAT_3R/W0h

CA Training pattern 3 driven on the CA bus during a calibration command.

2.5.2.366 DDRSS_CTL_367 Register (Offset = 5BCh) [reset = X]

DDRSS_CTL_367 is shown in Figure 8-458 and described in Table 8-924.

Return to Summary Table.

Table 8-923 DDRSS_CTL_367 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05BCh
Figure 8-458 DDRSS_CTL_367 Register
3130292827262524
RESERVEDRESERVED
R/W-XR/W-0h
2322212019181716
RESERVEDCALVL_BG_PAT_3
R/W-XR/W-0h
15141312111098
CALVL_BG_PAT_3
R/W-0h
76543210
CALVL_BG_PAT_3
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-924 DDRSS_CTL_367 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24RESERVEDR/W0h

Reserved

23-20RESERVEDR/WX
19-0CALVL_BG_PAT_3R/W0h

CA Training pattern 3 driven on the CA bus before and after a calibration command.

2.5.2.367 DDRSS_CTL_368 Register (Offset = 5C0h) [reset = X]

DDRSS_CTL_368 is shown in Figure 8-459 and described in Table 8-926.

Return to Summary Table.

Table 8-925 DDRSS_CTL_368 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05C0h
Figure 8-459 DDRSS_CTL_368 Register
3130292827262524
RESERVEDCALVL_PERIODIC
R/W-XR/W-0h
2322212019181716
RESERVEDDFI_PHY_CALVL_MODE
R/W-XR/W-0h
15141312111098
RESERVEDCALVL_SEQ_EN
R/W-XR/W-0h
76543210
RESERVEDRESERVED
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-926 DDRSS_CTL_368 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24CALVL_PERIODICR/W0h

Enables the use of the dfi_lvl_periodic signal during CA training.
Set to 1 to enable.

23-17RESERVEDR/WX
16DFI_PHY_CALVL_MODER/W0h

Specifies the PHY support for DFI CA training.
Set to 1 for supported.

15-10RESERVEDR/WX
9-8CALVL_SEQ_ENR/W0h

Specifies which CA training patterns will be used.
Clear to 0 for pattern 0 only, program to 1 for patterns 0 and 1, program to 2 for patterns 0, 1 and 2, or program to 3 for all patterns.

7-4RESERVEDR/WX
3-0RESERVEDR/W0h

Reserved

2.5.2.368 DDRSS_CTL_369 Register (Offset = 5C4h) [reset = X]

DDRSS_CTL_369 is shown in Figure 8-460 and described in Table 8-928.

Return to Summary Table.

Table 8-927 DDRSS_CTL_369 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05C4h
Figure 8-460 DDRSS_CTL_369 Register
3130292827262524
RESERVEDCALVL_CS_MAP
R/W-XR/W-0h
2322212019181716
RESERVEDCALVL_ROTATE
R/W-XR/W-0h
15141312111098
RESERVEDCALVL_AREF_EN
R/W-XR/W-0h
76543210
RESERVEDCALVL_ON_SREF_EXIT
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-928 DDRSS_CTL_369 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-24CALVL_CS_MAPR/W0h

Defines the chip select map for CA training operations.
Bit (0) controls cs0, bit (1) controls cs1, etc.
Set each bit to 1 to enable chip for CA training.

23-17RESERVEDR/WX
16CALVL_ROTATER/W0h

Enables rotational CS for interval CA training.
Set to 1 for rotating CS.

15-9RESERVEDR/WX
8CALVL_AREF_ENR/W0h

Enables refreshes and other non-data commands to execute in the middle of CA training.
Set to 1 to enable.

7-1RESERVEDR/WX
0CALVL_ON_SREF_EXITR/W0h

Enables automatic CA training on a self-refresh exit.
Set to 1 to enable.

2.5.2.369 DDRSS_CTL_370 Register (Offset = 5C8h) [reset = 0h]

DDRSS_CTL_370 is shown in Figure 8-461 and described in Table 8-930.

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Table 8-929 DDRSS_CTL_370 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05C8h
Figure 8-461 DDRSS_CTL_370 Register
31302928272625242322212019181716
CALVL_HIGH_THRESHOLD_F0
R/W-0h
1514131211109876543210
CALVL_NORM_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-930 DDRSS_CTL_370 Register Field Descriptions
BitFieldTypeResetDescription
31-16CALVL_HIGH_THRESHOLD_F0R/W0h

CA training high threshold number of long counts until the high priority request is asserted.

15-0CALVL_NORM_THRESHOLD_F0R/W0h

CA training normal threshold number of long counts until the normal priority request is asserted.

2.5.2.370 DDRSS_CTL_371 Register (Offset = 5CCh) [reset = 0h]

DDRSS_CTL_371 is shown in Figure 8-462 and described in Table 8-932.

Return to Summary Table.

Table 8-931 DDRSS_CTL_371 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05CCh
Figure 8-462 DDRSS_CTL_371 Register
31302928272625242322212019181716
CALVL_SW_PROMOTE_THRESHOLD_F0
R/W-0h
1514131211109876543210
CALVL_TIMEOUT_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-932 DDRSS_CTL_371 Register Field Descriptions
BitFieldTypeResetDescription
31-16CALVL_SW_PROMOTE_THRESHOLD_F0R/W0h

CA training promotion number of long counts until the high priority request is asserted.
Applies to SW commands.

15-0CALVL_TIMEOUT_F0R/W0h

CA training timeout number of long counts until the timeout is asserted.

2.5.2.371 DDRSS_CTL_372 Register (Offset = 5D0h) [reset = 0h]

DDRSS_CTL_372 is shown in Figure 8-463 and described in Table 8-934.

Return to Summary Table.

Table 8-933 DDRSS_CTL_372 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05D0h
Figure 8-463 DDRSS_CTL_372 Register
31302928272625242322212019181716
CALVL_NORM_THRESHOLD_F1
R/W-0h
1514131211109876543210
CALVL_DFI_PROMOTE_THRESHOLD_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-934 DDRSS_CTL_372 Register Field Descriptions
BitFieldTypeResetDescription
31-16CALVL_NORM_THRESHOLD_F1R/W0h

CA training normal threshold number of long counts until the normal priority request is asserted.

15-0CALVL_DFI_PROMOTE_THRESHOLD_F0R/W0h

CA training promotion number of long counts until the high priority request is asserted.
Applies to DFI commands.

2.5.2.372 DDRSS_CTL_373 Register (Offset = 5D4h) [reset = 0h]

DDRSS_CTL_373 is shown in Figure 8-464 and described in Table 8-936.

Return to Summary Table.

Table 8-935 DDRSS_CTL_373 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05D4h
Figure 8-464 DDRSS_CTL_373 Register
31302928272625242322212019181716
CALVL_TIMEOUT_F1
R/W-0h
1514131211109876543210
CALVL_HIGH_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-936 DDRSS_CTL_373 Register Field Descriptions
BitFieldTypeResetDescription
31-16CALVL_TIMEOUT_F1R/W0h

CA training timeout number of long counts until the timeout is asserted.

15-0CALVL_HIGH_THRESHOLD_F1R/W0h

CA training high threshold number of long counts until the high priority request is asserted.

2.5.2.373 DDRSS_CTL_374 Register (Offset = 5D8h) [reset = 0h]

DDRSS_CTL_374 is shown in Figure 8-465 and described in Table 8-938.

Return to Summary Table.

Table 8-937 DDRSS_CTL_374 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05D8h
Figure 8-465 DDRSS_CTL_374 Register
31302928272625242322212019181716
CALVL_DFI_PROMOTE_THRESHOLD_F1
R/W-0h
1514131211109876543210
CALVL_SW_PROMOTE_THRESHOLD_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-938 DDRSS_CTL_374 Register Field Descriptions
BitFieldTypeResetDescription
31-16CALVL_DFI_PROMOTE_THRESHOLD_F1R/W0h

CA training promotion number of long counts until the high priority request is asserted.
Applies to DFI commands.

15-0CALVL_SW_PROMOTE_THRESHOLD_F1R/W0h

CA training promotion number of long counts until the high priority request is asserted.
Applies to SW commands.

2.5.2.374 DDRSS_CTL_375 Register (Offset = 5DCh) [reset = 0h]

DDRSS_CTL_375 is shown in Figure 8-466 and described in Table 8-940.

Return to Summary Table.

Table 8-939 DDRSS_CTL_375 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05DCh
Figure 8-466 DDRSS_CTL_375 Register
31302928272625242322212019181716
CALVL_HIGH_THRESHOLD_F2
R/W-0h
1514131211109876543210
CALVL_NORM_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-940 DDRSS_CTL_375 Register Field Descriptions
BitFieldTypeResetDescription
31-16CALVL_HIGH_THRESHOLD_F2R/W0h

CA training high threshold number of long counts until the high priority request is asserted.

15-0CALVL_NORM_THRESHOLD_F2R/W0h

CA training normal threshold number of long counts until the normal priority request is asserted.

2.5.2.375 DDRSS_CTL_376 Register (Offset = 5E0h) [reset = 0h]

DDRSS_CTL_376 is shown in Figure 8-467 and described in Table 8-942.

Return to Summary Table.

Table 8-941 DDRSS_CTL_376 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05E0h
Figure 8-467 DDRSS_CTL_376 Register
31302928272625242322212019181716
CALVL_SW_PROMOTE_THRESHOLD_F2
R/W-0h
1514131211109876543210
CALVL_TIMEOUT_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-942 DDRSS_CTL_376 Register Field Descriptions
BitFieldTypeResetDescription
31-16CALVL_SW_PROMOTE_THRESHOLD_F2R/W0h

CA training promotion number of long counts until the high priority request is asserted.
Applies to SW commands.

15-0CALVL_TIMEOUT_F2R/W0h

CA training timeout number of long counts until the timeout is asserted.

2.5.2.376 DDRSS_CTL_377 Register (Offset = 5E4h) [reset = X]

DDRSS_CTL_377 is shown in Figure 8-468 and described in Table 8-944.

Return to Summary Table.

Table 8-943 DDRSS_CTL_377 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05E4h
Figure 8-468 DDRSS_CTL_377 Register
3130292827262524
RESERVEDAXI0_FIXED_PORT_PRIORITY_ENABLE
R/W-XR/W-0h
2322212019181716
RESERVEDAXI0_ALL_STROBES_USED_ENABLE
R/W-XR/W-0h
15141312111098
CALVL_DFI_PROMOTE_THRESHOLD_F2
R/W-0h
76543210
CALVL_DFI_PROMOTE_THRESHOLD_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-944 DDRSS_CTL_377 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24AXI0_FIXED_PORT_PRIORITY_ENABLER/W0h

Defines the priority control for AXI port 0 as per-port or per-command.
Set to 1 for per-port with priority defined through the AXI.4._R_PRIORITY and AXI.4._W_PRIORITY parameters.
Clear to 0 for per-command.

23-17RESERVEDR/WX
16AXI0_ALL_STROBES_USED_ENABLER/W0h

Enables use of the AWALLSTRB signal for AXI port 0.
Set to 1 to enable.

15-0CALVL_DFI_PROMOTE_THRESHOLD_F2R/W0h

CA training promotion number of long counts until the high priority request is asserted.
Applies to DFI commands.

2.5.2.377 DDRSS_CTL_378 Register (Offset = 5E8h) [reset = X]

DDRSS_CTL_378 is shown in Figure 8-469 and described in Table 8-946.

Return to Summary Table.

Table 8-945 DDRSS_CTL_378 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05E8h
Figure 8-469 DDRSS_CTL_378 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVED
R/W-X
15141312111098
RESERVEDAXI0_W_PRIORITY
R/W-XR/W-0h
76543210
RESERVEDAXI0_R_PRIORITY
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-946 DDRSS_CTL_378 Register Field Descriptions
BitFieldTypeResetDescription
31-11RESERVEDR/WX
10-8AXI0_W_PRIORITYR/W0h

Priority of write commands from AXI port 0.
0 is the highest priority.
This may only be changed before initialization begins or when the controller is quiescent, there is no data in the port FIFOs, and the AXI0_FIXED_PORT_PRIORITY_ENABLE parameter is low.

7-3RESERVEDR/WX
2-0AXI0_R_PRIORITYR/W0h

Priority of read commands from AXI port 0.
0 is the highest priority.
This may only be changed before initialization begins or when the controller is quiescent, there is no data in the port FIFOs, and the AXI0_FIXED_PORT_PRIORITY_ENABLE parameter is low.

2.5.2.378 DDRSS_CTL_379 Register (Offset = 5ECh) [reset = 0h]

DDRSS_CTL_379 is shown in Figure 8-470 and described in Table 8-948.

Return to Summary Table.

Table 8-947 DDRSS_CTL_379 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05ECh
Figure 8-470 DDRSS_CTL_379 Register
313029282726252423222120191817161514131211109876543210
PARITY_ERROR_ADDRESS_0
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-948 DDRSS_CTL_379 Register Field Descriptions
BitFieldTypeResetDescription
31-0PARITY_ERROR_ADDRESS_0R0h

Address of the AXI command that resulted in the parity error.
READ-ONLY

2.5.2.379 DDRSS_CTL_380 Register (Offset = 5F0h) [reset = X]

DDRSS_CTL_380 is shown in Figure 8-471 and described in Table 8-950.

Return to Summary Table.

Table 8-949 DDRSS_CTL_380 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05F0h
Figure 8-471 DDRSS_CTL_380 Register
3130292827262524
RESERVEDPARITY_ERROR_BUS_CHANNEL
R-XR-0h
2322212019181716
PARITY_ERROR_BUS_CHANNEL
R-0h
15141312111098
RESERVEDPARITY_ERROR_MASTER_ID
R-XR-0h
76543210
RESERVEDPARITY_ERROR_ADDRESS_1
R-XR-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-950 DDRSS_CTL_380 Register Field Descriptions
BitFieldTypeResetDescription
31-29RESERVEDRX
28-16PARITY_ERROR_BUS_CHANNELR0h

Reports the AXI field that resulted in the parity error.
Bit (0) specifies if the error was on the read channel (value of 0) or the write channel (value of 1).
Subsequent bits specify the exact signal that had a parity error.
Bit (1): ARADDR/AWADDR, Bit (2): ARID/AWID, Bit (3): ARLEN/AWLEN, Bit (4): ARSIZE/AWSIZE, Bit (5): ARBURST/AWBURST, Bit (6): ARQOS/AWQOS, Bit (7): Misc group signals, Bit (8): Reserved, Bit (9): Reserved, Bit (10): WDATA, Bit (11): (WLAST,WSTRB), and Bit (12): Reserved.
READ-ONLY

15-14RESERVEDRX
13-8PARITY_ERROR_MASTER_IDR0h

Port ID and Master ID of the AXI command that resulted in the parity error.
READ-ONLY

7-3RESERVEDRX
2-0PARITY_ERROR_ADDRESS_1R0h

Address of the AXI command that resulted in the parity error.
READ-ONLY

2.5.2.380 DDRSS_CTL_381 Register (Offset = 5F4h) [reset = 0h]

DDRSS_CTL_381 is shown in Figure 8-472 and described in Table 8-952.

Return to Summary Table.

Table 8-951 DDRSS_CTL_381 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05F4h
Figure 8-472 DDRSS_CTL_381 Register
313029282726252423222120191817161514131211109876543210
PARITY_ERROR_WRITE_DATA_0
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-952 DDRSS_CTL_381 Register Field Descriptions
BitFieldTypeResetDescription
31-0PARITY_ERROR_WRITE_DATA_0R0h

Write data of the AXI command that resulted in the parity error.
READ-ONLY

2.5.2.381 DDRSS_CTL_382 Register (Offset = 5F8h) [reset = 0h]

DDRSS_CTL_382 is shown in Figure 8-473 and described in Table 8-954.

Return to Summary Table.

Table 8-953 DDRSS_CTL_382 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05F8h
Figure 8-473 DDRSS_CTL_382 Register
313029282726252423222120191817161514131211109876543210
PARITY_ERROR_WRITE_DATA_1
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-954 DDRSS_CTL_382 Register Field Descriptions
BitFieldTypeResetDescription
31-0PARITY_ERROR_WRITE_DATA_1R0h

Write data of the AXI command that resulted in the parity error.
READ-ONLY

2.5.2.382 DDRSS_CTL_383 Register (Offset = 5FCh) [reset = 0h]

DDRSS_CTL_383 is shown in Figure 8-474 and described in Table 8-956.

Return to Summary Table.

Table 8-955 DDRSS_CTL_383 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 05FCh
Figure 8-474 DDRSS_CTL_383 Register
313029282726252423222120191817161514131211109876543210
PARITY_ERROR_WRITE_DATA_2
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-956 DDRSS_CTL_383 Register Field Descriptions
BitFieldTypeResetDescription
31-0PARITY_ERROR_WRITE_DATA_2R0h

Write data of the AXI command that resulted in the parity error.
READ-ONLY

2.5.2.383 DDRSS_CTL_384 Register (Offset = 600h) [reset = 0h]

DDRSS_CTL_384 is shown in Figure 8-475 and described in Table 8-958.

Return to Summary Table.

Table 8-957 DDRSS_CTL_384 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0600h
Figure 8-475 DDRSS_CTL_384 Register
313029282726252423222120191817161514131211109876543210
PARITY_ERROR_WRITE_DATA_3
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-958 DDRSS_CTL_384 Register Field Descriptions
BitFieldTypeResetDescription
31-0PARITY_ERROR_WRITE_DATA_3R0h

Write data of the AXI command that resulted in the parity error.
READ-ONLY

2.5.2.384 DDRSS_CTL_385 Register (Offset = 604h) [reset = X]

DDRSS_CTL_385 is shown in Figure 8-476 and described in Table 8-960.

Return to Summary Table.

Table 8-959 DDRSS_CTL_385 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0604h
Figure 8-476 DDRSS_CTL_385 Register
3130292827262524
RESERVEDMEM_RST_VALID
R-XR-0h
2322212019181716
RESERVEDCKE_STATUS
R-XR-0h
15141312111098
PARITY_ERROR_WRITE_DATA_PARITY_VECTOR
R-0h
76543210
PARITY_ERROR_WRITE_DATA_PARITY_VECTOR
R-0h
LEGEND: R = Read Only; -n = value after reset
Table 8-960 DDRSS_CTL_385 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDRX
24MEM_RST_VALIDR0h

Register access to mem_rst_valid signal.
READ-ONLY

23-18RESERVEDRX
17-16CKE_STATUSR0h

Register access to cke_status signal.
READ-ONLY

15-0PARITY_ERROR_WRITE_DATA_PARITY_VECTORR0h

Write data parity vector associated with the AXI command that resulted in the parity error.
READ-ONLY

2.5.2.385 DDRSS_CTL_386 Register (Offset = 608h) [reset = X]

DDRSS_CTL_386 is shown in Figure 8-477 and described in Table 8-962.

Return to Summary Table.

Table 8-961 DDRSS_CTL_386 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0608h
Figure 8-477 DDRSS_CTL_386 Register
31302928272625242322212019181716
RESERVEDTDFI_PHY_WRLATDLL_RST_ADJ_DLY
R/W-XR-0hR/W-0h
1514131211109876543210
DLL_RST_DELAY
R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-962 DDRSS_CTL_386 Register Field Descriptions
BitFieldTypeResetDescription
31RESERVEDR/WX
30-24TDFI_PHY_WRLATR0h

Holds the calculated DFI tPHY_WRLAT timing parameter (in DFI PHY clocks), the maximum cycles between a write command and a dfi_wrdata_en assertion.
READ-ONLY

23-16DLL_RST_ADJ_DLYR/W0h

Minimum cycles after setting master delay in DLL until the DLL reset signal dll_rst_n may be asserted.
If this signal is not being used by the PHY, this parameter may be ignored.

15-0DLL_RST_DELAYR/W0h

Minimum cycles required for DLL reset signal dll_rst_n to be held.
If this signal is not being used by the PHY, this parameter may be ignored.

2.5.2.386 DDRSS_CTL_387 Register (Offset = 60Ch) [reset = X]

DDRSS_CTL_387 is shown in Figure 8-478 and described in Table 8-964.

Return to Summary Table.

Table 8-963 DDRSS_CTL_387 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 060Ch
Figure 8-478 DDRSS_CTL_387 Register
3130292827262524
RESERVEDTDFI_PHY_RDLAT_F2
R/W-XR/W-6h
2322212019181716
RESERVEDTDFI_PHY_RDLAT_F1
R/W-XR/W-6h
15141312111098
RESERVEDTDFI_PHY_RDLAT_F0
R/W-XR/W-6h
76543210
RESERVEDUPDATE_ERROR_STATUS
R/W-XR-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-964 DDRSS_CTL_387 Register Field Descriptions
BitFieldTypeResetDescription
31RESERVEDR/WX
30-24TDFI_PHY_RDLAT_F2R/W6h

Defines the DFI tPHY_RDLAT timing parameter (in DFI PHY clocks), the maximum cycles between a dfi_rddata_en assertion and a dfi_rddata_valid assertion.

23RESERVEDR/WX
22-16TDFI_PHY_RDLAT_F1R/W6h

Defines the DFI tPHY_RDLAT timing parameter (in DFI PHY clocks), the maximum cycles between a dfi_rddata_en assertion and a dfi_rddata_valid assertion.

15RESERVEDR/WX
14-8TDFI_PHY_RDLAT_F0R/W6h

Defines the DFI tPHY_RDLAT timing parameter (in DFI PHY clocks), the maximum cycles between a dfi_rddata_en assertion and a dfi_rddata_valid assertion.

7RESERVEDR/WX
6-0UPDATE_ERROR_STATUSR0h

Identifies the source of any DFI MC-initiated or PHY-initiated update errors.
Value of 1 indicates a timing violation of the associated timing parameter.
READ-ONLY

2.5.2.387 DDRSS_CTL_388 Register (Offset = 610h) [reset = X]

DDRSS_CTL_388 is shown in Figure 8-479 and described in Table 8-966.

Return to Summary Table.

Table 8-965 DDRSS_CTL_388 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0610h
Figure 8-479 DDRSS_CTL_388 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
TDFI_CTRLUPD_MIN
R/W-0h
15141312111098
RESERVEDDRAM_CLK_DISABLE
R/W-XR/W-0h
76543210
RESERVEDTDFI_RDDATA_EN
R/W-XR-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-966 DDRSS_CTL_388 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-16TDFI_CTRLUPD_MINR/W0h

Defines the DFI tCTRLUPD_MIN timing parameter (in DFI clocks), the minimum cycles that dfi_ctrlupd_req must be asserted.

15-10RESERVEDR/WX
9-8DRAM_CLK_DISABLER/W0h

Set value for the dfi_dram_clk_disable signal.
Bit (0) controls cs0, bit (1) controls cs1, etc.
Set each bit to 1 to disable.

7RESERVEDR/WX
6-0TDFI_RDDATA_ENR0h

Holds the calculated DFI tRDDATA_EN timing parameter (in DFI PHY clocks), the maximum cycles between a read command and a dfi_rddata_en assertion.
READ-ONLY

2.5.2.388 DDRSS_CTL_389 Register (Offset = 614h) [reset = X]

DDRSS_CTL_389 is shown in Figure 8-480 and described in Table 8-968.

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Table 8-967 DDRSS_CTL_389 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0614h
Figure 8-480 DDRSS_CTL_389 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTDFI_CTRLUPD_MAX_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-968 DDRSS_CTL_389 Register Field Descriptions
BitFieldTypeResetDescription
31-21RESERVEDR/WX
20-0TDFI_CTRLUPD_MAX_F0R/W0h

Defines the DFI tCTRLUPD_MAX timing parameter (in DFI clocks), the maximum cycles that dfi_ctrlupd_req can be asserted.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.389 DDRSS_CTL_390 Register (Offset = 618h) [reset = 0h]

DDRSS_CTL_390 is shown in Figure 8-481 and described in Table 8-970.

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Table 8-969 DDRSS_CTL_390 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0618h
Figure 8-481 DDRSS_CTL_390 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYUPD_TYPE0_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-970 DDRSS_CTL_390 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYUPD_TYPE0_F0R/W0h

Defines the DFI tPHYUPD_TYPE0 timing parameter (in DFI clocks), the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 0.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (1) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.390 DDRSS_CTL_391 Register (Offset = 61Ch) [reset = 0h]

DDRSS_CTL_391 is shown in Figure 8-482 and described in Table 8-972.

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Table 8-971 DDRSS_CTL_391 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 061Ch
Figure 8-482 DDRSS_CTL_391 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYUPD_TYPE1_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-972 DDRSS_CTL_391 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYUPD_TYPE1_F0R/W0h

Defines the DFI tPHYUPD_TYPE1 timing parameter (in DFI clocks), the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 1.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (2) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.391 DDRSS_CTL_392 Register (Offset = 620h) [reset = 0h]

DDRSS_CTL_392 is shown in Figure 8-483 and described in Table 8-974.

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Table 8-973 DDRSS_CTL_392 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0620h
Figure 8-483 DDRSS_CTL_392 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYUPD_TYPE2_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-974 DDRSS_CTL_392 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYUPD_TYPE2_F0R/W0h

Defines the DFI tPHYUPD_TYPE2 timing parameter (in DFI clocks), the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 2.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (3) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.392 DDRSS_CTL_393 Register (Offset = 624h) [reset = 0h]

DDRSS_CTL_393 is shown in Figure 8-484 and described in Table 8-976.

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Table 8-975 DDRSS_CTL_393 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0624h
Figure 8-484 DDRSS_CTL_393 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYUPD_TYPE3_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-976 DDRSS_CTL_393 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYUPD_TYPE3_F0R/W0h

Defines the DFI tPHYUPD_TYPE3 timing parameter (in DFI clocks), the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 3.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (4) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.393 DDRSS_CTL_394 Register (Offset = 628h) [reset = X]

DDRSS_CTL_394 is shown in Figure 8-485 and described in Table 8-978.

Return to Summary Table.

Table 8-977 DDRSS_CTL_394 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0628h
Figure 8-485 DDRSS_CTL_394 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTDFI_PHYUPD_RESP_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-978 DDRSS_CTL_394 Register Field Descriptions
BitFieldTypeResetDescription
31-23RESERVEDR/WX
22-0TDFI_PHYUPD_RESP_F0R/W0h

Defines the DFI tPHYUPD_RESP timing parameter (in DFI clocks), the maximum cycles between a dfi_phyupd_req assertion and a dfi_phyupd_ack assertion.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (5) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.394 DDRSS_CTL_395 Register (Offset = 62Ch) [reset = 0h]

DDRSS_CTL_395 is shown in Figure 8-486 and described in Table 8-980.

Return to Summary Table.

Table 8-979 DDRSS_CTL_395 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 062Ch
Figure 8-486 DDRSS_CTL_395 Register
313029282726252423222120191817161514131211109876543210
TDFI_CTRLUPD_INTERVAL_F0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-980 DDRSS_CTL_395 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_CTRLUPD_INTERVAL_F0R/W0h

Defines the DFI tCTRLUPD_INTERVAL timing parameter (in DFI clocks), the maximum cycles between dfi_ctrlupd_req assertions.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (6) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.395 DDRSS_CTL_396 Register (Offset = 630h) [reset = X]

DDRSS_CTL_396 is shown in Figure 8-487 and described in Table 8-982.

Return to Summary Table.

Table 8-981 DDRSS_CTL_396 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0630h
Figure 8-487 DDRSS_CTL_396 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVED
R/W-X
15141312111098
RESERVEDWRLAT_ADJ_F0
R/W-XR/W-0h
76543210
RESERVEDRDLAT_ADJ_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-982 DDRSS_CTL_396 Register Field Descriptions
BitFieldTypeResetDescription
31-15RESERVEDR/WX
14-8WRLAT_ADJ_F0R/W0h

Adjustment value for PHY write timing.

7RESERVEDR/WX
6-0RDLAT_ADJ_F0R/W0h

Adjustment value for PHY read timing.

2.5.2.396 DDRSS_CTL_397 Register (Offset = 634h) [reset = X]

DDRSS_CTL_397 is shown in Figure 8-488 and described in Table 8-984.

Return to Summary Table.

Table 8-983 DDRSS_CTL_397 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0634h
Figure 8-488 DDRSS_CTL_397 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTDFI_CTRLUPD_MAX_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-984 DDRSS_CTL_397 Register Field Descriptions
BitFieldTypeResetDescription
31-21RESERVEDR/WX
20-0TDFI_CTRLUPD_MAX_F1R/W0h

Defines the DFI tCTRLUPD_MAX timing parameter (in DFI clocks), the maximum cycles that dfi_ctrlupd_req can be asserted.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.397 DDRSS_CTL_398 Register (Offset = 638h) [reset = 0h]

DDRSS_CTL_398 is shown in Figure 8-489 and described in Table 8-986.

Return to Summary Table.

Table 8-985 DDRSS_CTL_398 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0638h
Figure 8-489 DDRSS_CTL_398 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYUPD_TYPE0_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-986 DDRSS_CTL_398 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYUPD_TYPE0_F1R/W0h

Defines the DFI tPHYUPD_TYPE0 timing parameter (in DFI clocks), the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 0.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (1) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.398 DDRSS_CTL_399 Register (Offset = 63Ch) [reset = 0h]

DDRSS_CTL_399 is shown in Figure 8-490 and described in Table 8-988.

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Table 8-987 DDRSS_CTL_399 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 063Ch
Figure 8-490 DDRSS_CTL_399 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYUPD_TYPE1_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-988 DDRSS_CTL_399 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYUPD_TYPE1_F1R/W0h

Defines the DFI tPHYUPD_TYPE1 timing parameter (in DFI clocks), the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 1.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (2) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.399 DDRSS_CTL_400 Register (Offset = 640h) [reset = 0h]

DDRSS_CTL_400 is shown in Figure 8-491 and described in Table 8-990.

Return to Summary Table.

Table 8-989 DDRSS_CTL_400 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0640h
Figure 8-491 DDRSS_CTL_400 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYUPD_TYPE2_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-990 DDRSS_CTL_400 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYUPD_TYPE2_F1R/W0h

Defines the DFI tPHYUPD_TYPE2 timing parameter (in DFI clocks), the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 2.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (3) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.400 DDRSS_CTL_401 Register (Offset = 644h) [reset = 0h]

DDRSS_CTL_401 is shown in Figure 8-492 and described in Table 8-992.

Return to Summary Table.

Table 8-991 DDRSS_CTL_401 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0644h
Figure 8-492 DDRSS_CTL_401 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYUPD_TYPE3_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-992 DDRSS_CTL_401 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYUPD_TYPE3_F1R/W0h

Defines the DFI tPHYUPD_TYPE3 timing parameter (in DFI clocks), the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 3.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (4) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.401 DDRSS_CTL_402 Register (Offset = 648h) [reset = X]

DDRSS_CTL_402 is shown in Figure 8-493 and described in Table 8-994.

Return to Summary Table.

Table 8-993 DDRSS_CTL_402 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0648h
Figure 8-493 DDRSS_CTL_402 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTDFI_PHYUPD_RESP_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-994 DDRSS_CTL_402 Register Field Descriptions
BitFieldTypeResetDescription
31-23RESERVEDR/WX
22-0TDFI_PHYUPD_RESP_F1R/W0h

Defines the DFI tPHYUPD_RESP timing parameter (in DFI clocks), the maximum cycles between a dfi_phyupd_req assertion and a dfi_phyupd_ack assertion.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (5) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.402 DDRSS_CTL_403 Register (Offset = 64Ch) [reset = 0h]

DDRSS_CTL_403 is shown in Figure 8-494 and described in Table 8-996.

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Table 8-995 DDRSS_CTL_403 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 064Ch
Figure 8-494 DDRSS_CTL_403 Register
313029282726252423222120191817161514131211109876543210
TDFI_CTRLUPD_INTERVAL_F1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-996 DDRSS_CTL_403 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_CTRLUPD_INTERVAL_F1R/W0h

Defines the DFI tCTRLUPD_INTERVAL timing parameter (in DFI clocks), the maximum cycles between dfi_ctrlupd_req assertions.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (6) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.403 DDRSS_CTL_404 Register (Offset = 650h) [reset = X]

DDRSS_CTL_404 is shown in Figure 8-495 and described in Table 8-998.

Return to Summary Table.

Table 8-997 DDRSS_CTL_404 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0650h
Figure 8-495 DDRSS_CTL_404 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVED
R/W-X
15141312111098
RESERVEDWRLAT_ADJ_F1
R/W-XR/W-0h
76543210
RESERVEDRDLAT_ADJ_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-998 DDRSS_CTL_404 Register Field Descriptions
BitFieldTypeResetDescription
31-15RESERVEDR/WX
14-8WRLAT_ADJ_F1R/W0h

Adjustment value for PHY write timing.

7RESERVEDR/WX
6-0RDLAT_ADJ_F1R/W0h

Adjustment value for PHY read timing.

2.5.2.404 DDRSS_CTL_405 Register (Offset = 654h) [reset = X]

DDRSS_CTL_405 is shown in Figure 8-496 and described in Table 8-1000.

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Table 8-999 DDRSS_CTL_405 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0654h
Figure 8-496 DDRSS_CTL_405 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTDFI_CTRLUPD_MAX_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1000 DDRSS_CTL_405 Register Field Descriptions
BitFieldTypeResetDescription
31-21RESERVEDR/WX
20-0TDFI_CTRLUPD_MAX_F2R/W0h

Defines the DFI tCTRLUPD_MAX timing parameter (in DFI clocks), the maximum cycles that dfi_ctrlupd_req can be asserted.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (0) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.405 DDRSS_CTL_406 Register (Offset = 658h) [reset = 0h]

DDRSS_CTL_406 is shown in Figure 8-497 and described in Table 8-1002.

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Table 8-1001 DDRSS_CTL_406 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0658h
Figure 8-497 DDRSS_CTL_406 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYUPD_TYPE0_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1002 DDRSS_CTL_406 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYUPD_TYPE0_F2R/W0h

Defines the DFI tPHYUPD_TYPE0 timing parameter (in DFI clocks), the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 0.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (1) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.406 DDRSS_CTL_407 Register (Offset = 65Ch) [reset = 0h]

DDRSS_CTL_407 is shown in Figure 8-498 and described in Table 8-1004.

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Table 8-1003 DDRSS_CTL_407 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 065Ch
Figure 8-498 DDRSS_CTL_407 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYUPD_TYPE1_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1004 DDRSS_CTL_407 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYUPD_TYPE1_F2R/W0h

Defines the DFI tPHYUPD_TYPE1 timing parameter (in DFI clocks), the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 1.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (2) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.407 DDRSS_CTL_408 Register (Offset = 660h) [reset = 0h]

DDRSS_CTL_408 is shown in Figure 8-499 and described in Table 8-1006.

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Table 8-1005 DDRSS_CTL_408 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0660h
Figure 8-499 DDRSS_CTL_408 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYUPD_TYPE2_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1006 DDRSS_CTL_408 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYUPD_TYPE2_F2R/W0h

Defines the DFI tPHYUPD_TYPE2 timing parameter (in DFI clocks), the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 2.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (3) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.408 DDRSS_CTL_409 Register (Offset = 664h) [reset = 0h]

DDRSS_CTL_409 is shown in Figure 8-500 and described in Table 8-1008.

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Table 8-1007 DDRSS_CTL_409 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0664h
Figure 8-500 DDRSS_CTL_409 Register
313029282726252423222120191817161514131211109876543210
TDFI_PHYUPD_TYPE3_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1008 DDRSS_CTL_409 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_PHYUPD_TYPE3_F2R/W0h

Defines the DFI tPHYUPD_TYPE3 timing parameter (in DFI clocks), the maximum cycles that dfi_phyupd_req can assert after dfi_phyupd_ack for dfi_phyupd_type 3.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (4) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.409 DDRSS_CTL_410 Register (Offset = 668h) [reset = X]

DDRSS_CTL_410 is shown in Figure 8-501 and described in Table 8-1010.

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Table 8-1009 DDRSS_CTL_410 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0668h
Figure 8-501 DDRSS_CTL_410 Register
313029282726252423222120191817161514131211109876543210
RESERVEDTDFI_PHYUPD_RESP_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1010 DDRSS_CTL_410 Register Field Descriptions
BitFieldTypeResetDescription
31-23RESERVEDR/WX
22-0TDFI_PHYUPD_RESP_F2R/W0h

Defines the DFI tPHYUPD_RESP timing parameter (in DFI clocks), the maximum cycles between a dfi_phyupd_req assertion and a dfi_phyupd_ack assertion.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (5) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.410 DDRSS_CTL_411 Register (Offset = 66Ch) [reset = 0h]

DDRSS_CTL_411 is shown in Figure 8-502 and described in Table 8-1012.

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Table 8-1011 DDRSS_CTL_411 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 066Ch
Figure 8-502 DDRSS_CTL_411 Register
313029282726252423222120191817161514131211109876543210
TDFI_CTRLUPD_INTERVAL_F2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1012 DDRSS_CTL_411 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_CTRLUPD_INTERVAL_F2R/W0h

Defines the DFI tCTRLUPD_INTERVAL timing parameter (in DFI clocks), the maximum cycles between dfi_ctrlupd_req assertions.
If programmed to a non-zero, a timing violation will cause an interrupt and bit (6) set in the UPDATE_ERROR_STATUS parameter.

2.5.2.411 DDRSS_CTL_412 Register (Offset = 670h) [reset = X]

DDRSS_CTL_412 is shown in Figure 8-503 and described in Table 8-1014.

Return to Summary Table.

Table 8-1013 DDRSS_CTL_412 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0670h
Figure 8-503 DDRSS_CTL_412 Register
3130292827262524
RESERVEDTDFI_CTRL_DELAY_F1
R/W-XR/W-2h
2322212019181716
RESERVEDTDFI_CTRL_DELAY_F0
R/W-XR/W-2h
15141312111098
RESERVEDWRLAT_ADJ_F2
R/W-XR/W-0h
76543210
RESERVEDRDLAT_ADJ_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1014 DDRSS_CTL_412 Register Field Descriptions
BitFieldTypeResetDescription
31-28RESERVEDR/WX
27-24TDFI_CTRL_DELAY_F1R/W2h

Defines the DFI tCTRL_DELAY timing parameter (in DFI clocks), the delay between a DFI command change and a memory command.

23-20RESERVEDR/WX
19-16TDFI_CTRL_DELAY_F0R/W2h

Defines the DFI tCTRL_DELAY timing parameter (in DFI clocks), the delay between a DFI command change and a memory command.

15RESERVEDR/WX
14-8WRLAT_ADJ_F2R/W0h

Adjustment value for PHY write timing.

7RESERVEDR/WX
6-0RDLAT_ADJ_F2R/W0h

Adjustment value for PHY read timing.

2.5.2.412 DDRSS_CTL_413 Register (Offset = 674h) [reset = X]

DDRSS_CTL_413 is shown in Figure 8-504 and described in Table 8-1016.

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Table 8-1015 DDRSS_CTL_413 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0674h
Figure 8-504 DDRSS_CTL_413 Register
3130292827262524
TDFI_WRLVL_EN
R/W-0h
2322212019181716
RESERVEDTDFI_DRAM_CLK_ENABLE
R/W-XR/W-0h
15141312111098
RESERVEDTDFI_DRAM_CLK_DISABLE
R/W-XR/W-0h
76543210
RESERVEDTDFI_CTRL_DELAY_F2
R/W-XR/W-2h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1016 DDRSS_CTL_413 Register Field Descriptions
BitFieldTypeResetDescription
31-24TDFI_WRLVL_ENR/W0h

Defines the DFI tWRLVL_EN timing parameter (in DFI clocks), the minimum cycles from a dfi_wrlvl_en assertion to the first dfi_wrlvl_strobe assertion.

23-20RESERVEDR/WX
19-16TDFI_DRAM_CLK_ENABLER/W0h

Defines the DFI tDRAM_CLK_ENABLE timing parameter (in DFI clocks), the delay between a dfi_dram_clk_disable de-assertion and the memory clock enable.

15-12RESERVEDR/WX
11-8TDFI_DRAM_CLK_DISABLER/W0h

Defines the DFI tDRAM_CLK_DISABLE timing parameter (in DFI clocks), the delay between a dfi_dram_clock_disable assertion and the memory clock disable.

7-4RESERVEDR/WX
3-0TDFI_CTRL_DELAY_F2R/W2h

Defines the DFI tCTRL_DELAY timing parameter (in DFI clocks), the delay between a DFI command change and a memory command.

2.5.2.413 DDRSS_CTL_414 Register (Offset = 678h) [reset = X]

DDRSS_CTL_414 is shown in Figure 8-505 and described in Table 8-1018.

Return to Summary Table.

Table 8-1017 DDRSS_CTL_414 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0678h
Figure 8-505 DDRSS_CTL_414 Register
31302928272625242322212019181716
RESERVED
R/W-X
1514131211109876543210
RESERVEDTDFI_WRLVL_WW
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1018 DDRSS_CTL_414 Register Field Descriptions
BitFieldTypeResetDescription
31-10RESERVEDR/WX
9-0TDFI_WRLVL_WWR/W0h

Defines the DFI tWRLVL_WW timing parameter (in DFI clocks), the minimum cycles between dfi_wrlvl_strobe assertions.

2.5.2.414 DDRSS_CTL_415 Register (Offset = 67Ch) [reset = 0h]

DDRSS_CTL_415 is shown in Figure 8-506 and described in Table 8-1020.

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Table 8-1019 DDRSS_CTL_415 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 067Ch
Figure 8-506 DDRSS_CTL_415 Register
313029282726252423222120191817161514131211109876543210
TDFI_WRLVL_RESP
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1020 DDRSS_CTL_415 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_WRLVL_RESPR/W0h

Defines the DFI tWRLVL_RESP timing parameter (in DFI clocks), the maximum cycles between a dfi_wrlvl_req assertion and a dfi_wrlvl_en assertion.

2.5.2.415 DDRSS_CTL_416 Register (Offset = 680h) [reset = 0h]

DDRSS_CTL_416 is shown in Figure 8-507 and described in Table 8-1022.

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Table 8-1021 DDRSS_CTL_416 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0680h
Figure 8-507 DDRSS_CTL_416 Register
313029282726252423222120191817161514131211109876543210
TDFI_WRLVL_MAX
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1022 DDRSS_CTL_416 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_WRLVL_MAXR/W0h

Defines the DFI tWRLVL_MAX timing parameter (in DFI clocks), the maximum cycles between a dfi_wrlvl_en assertion and a valid dfi_wrlvl_resp.

2.5.2.416 DDRSS_CTL_417 Register (Offset = 684h) [reset = X]

DDRSS_CTL_417 is shown in Figure 8-508 and described in Table 8-1024.

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Table 8-1023 DDRSS_CTL_417 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0684h
Figure 8-508 DDRSS_CTL_417 Register
31302928272625242322212019181716
RESERVEDTDFI_RDLVL_RR
R/W-XR/W-0h
1514131211109876543210
TDFI_RDLVL_RRTDFI_RDLVL_EN
R/W-0hR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1024 DDRSS_CTL_417 Register Field Descriptions
BitFieldTypeResetDescription
31-18RESERVEDR/WX
17-8TDFI_RDLVL_RRR/W0h

Defines the DFI tRDLVL_RR timing parameter (in DFI clocks), the minimum cycles between read commands.

7-0TDFI_RDLVL_ENR/W0h

Defines the DFI tRDLVL_EN timing parameter (in DFI clocks), the minimum cycles from a dfi_rdlvl_en or dfi_rdlvl_gate_en assertion to the first read or MRR.

2.5.2.417 DDRSS_CTL_418 Register (Offset = 688h) [reset = 0h]

DDRSS_CTL_418 is shown in Figure 8-509 and described in Table 8-1026.

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Table 8-1025 DDRSS_CTL_418 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0688h
Figure 8-509 DDRSS_CTL_418 Register
313029282726252423222120191817161514131211109876543210
TDFI_RDLVL_RESP
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1026 DDRSS_CTL_418 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_RDLVL_RESPR/W0h

Defines the DFI tRDLVL_RESP timing parameter (in DFI clocks), the maximum cycles between a dfi_rdlvl_req or dfi_rdlvl_gate_req assertion and a dfi_rdlvl_en or dfi_rdlvl_gate_en assertion.

2.5.2.418 DDRSS_CTL_419 Register (Offset = 68Ch) [reset = X]

DDRSS_CTL_419 is shown in Figure 8-510 and described in Table 8-1028.

Return to Summary Table.

Table 8-1027 DDRSS_CTL_419 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 068Ch
Figure 8-510 DDRSS_CTL_419 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVEDRDLVL_GATE_EN
R/W-XR/W-0h
15141312111098
RESERVEDRDLVL_EN
R/W-XR/W-0h
76543210
RDLVL_RESP_MASK
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1028 DDRSS_CTL_419 Register Field Descriptions
BitFieldTypeResetDescription
31-17RESERVEDR/WX
16RDLVL_GATE_ENR/W0h

Enable the MC gate training module.
Set to 1 to enable.

15-9RESERVEDR/WX
8RDLVL_ENR/W0h

Enable the MC data eye training module.
Set to 1 to enable.

7-0RDLVL_RESP_MASKR/W0h

Mask for the dfi_rdlvl_resp signal during data eye training.

2.5.2.419 DDRSS_CTL_420 Register (Offset = 690h) [reset = 0h]

DDRSS_CTL_420 is shown in Figure 8-511 and described in Table 8-1030.

Return to Summary Table.

Table 8-1029 DDRSS_CTL_420 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0690h
Figure 8-511 DDRSS_CTL_420 Register
313029282726252423222120191817161514131211109876543210
TDFI_RDLVL_MAX
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1030 DDRSS_CTL_420 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_RDLVL_MAXR/W0h

Defines the DFI tRDLVL_MAX timing parameter (in DFI clocks), the maximum cycles between a dfi_rdlvl_en or dfi_rdlvl_gate_en assertion and a valid dfi_rdlvl_resp.

2.5.2.420 DDRSS_CTL_421 Register (Offset = 694h) [reset = X]

DDRSS_CTL_421 is shown in Figure 8-512 and described in Table 8-1032.

Return to Summary Table.

Table 8-1031 DDRSS_CTL_421 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0694h
Figure 8-512 DDRSS_CTL_421 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
TDFI_CALVL_EN
R/W-0h
15141312111098
RESERVEDRDLVL_GATE_ERROR_STATUS
R/W-XR-0h
76543210
RESERVEDRDLVL_ERROR_STATUS
R/W-XR-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-1032 DDRSS_CTL_421 Register Field Descriptions
BitFieldTypeResetDescription
31-24RESERVEDR/WX
23-16TDFI_CALVL_ENR/W0h

Defines the DFI tCALVL_EN timing parameter (in DFI clocks), the minimum cycles between a dfi_calvl_en assertion and a dfi_cke de-assertion.

15-11RESERVEDR/WX
10-8RDLVL_GATE_ERROR_STATUSR0h

Holds the error associated with the read gate training error or gate training error interrupt.
Bit (0) set indicates a TDFI_RDLVL_MAX parameter violation, bit (1) set indicates a TDFI_RDLVL_RESP parameter violation, and bit (2) set indicates a gate training operation was attempted while memory was in self-refresh mode or self-refresh power-down mode and therefore a false rdlvl_done was signaled to move the state machine back to idle state.
READ-ONLY

7-3RESERVEDR/WX
2-0RDLVL_ERROR_STATUSR0h

Holds the error associated with the data eye training error or gate training error interrupt.
Bit (0) set indicates a TDFI_RDLVL_MAX parameter violation, bit (1) set indicates a TDFI_RDLVL_RESP parameter violation, and bit (2) set indicates a read leveling operation was attempted while memory was in self-refresh mode or self-refresh power-down mode and therefore a false rdlvl_done was signaled to move the state machine back to idle state.
READ-ONLY

2.5.2.421 DDRSS_CTL_422 Register (Offset = 698h) [reset = X]

DDRSS_CTL_422 is shown in Figure 8-513 and described in Table 8-1034.

Return to Summary Table.

Table 8-1033 DDRSS_CTL_422 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0698h
Figure 8-513 DDRSS_CTL_422 Register
31302928272625242322212019181716
RESERVEDTDFI_CALVL_CAPTURE_F0
R/W-XR/W-0h
1514131211109876543210
RESERVEDTDFI_CALVL_CC_F0
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1034 DDRSS_CTL_422 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-16TDFI_CALVL_CAPTURE_F0R/W0h

Defines the DFI tCALVL_CAPTURE timing parameter (in DFI clocks), the minimum cycles between a calibration command and a dfi_calvl_capture pulse.

15-10RESERVEDR/WX
9-0TDFI_CALVL_CC_F0R/W0h

Defines the DFI tCALVL_CC timing parameter (in DFI clocks), the minimum cycles between calibration commands.

2.5.2.422 DDRSS_CTL_423 Register (Offset = 69Ch) [reset = X]

DDRSS_CTL_423 is shown in Figure 8-514 and described in Table 8-1036.

Return to Summary Table.

Table 8-1035 DDRSS_CTL_423 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 069Ch
Figure 8-514 DDRSS_CTL_423 Register
31302928272625242322212019181716
RESERVEDTDFI_CALVL_CAPTURE_F1
R/W-XR/W-0h
1514131211109876543210
RESERVEDTDFI_CALVL_CC_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1036 DDRSS_CTL_423 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-16TDFI_CALVL_CAPTURE_F1R/W0h

Defines the DFI tCALVL_CAPTURE timing parameter (in DFI clocks), the minimum cycles between a calibration command and a dfi_calvl_capture pulse.

15-10RESERVEDR/WX
9-0TDFI_CALVL_CC_F1R/W0h

Defines the DFI tCALVL_CC timing parameter (in DFI clocks), the minimum cycles between calibration commands.

2.5.2.423 DDRSS_CTL_424 Register (Offset = 6A0h) [reset = X]

DDRSS_CTL_424 is shown in Figure 8-515 and described in Table 8-1038.

Return to Summary Table.

Table 8-1037 DDRSS_CTL_424 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06A0h
Figure 8-515 DDRSS_CTL_424 Register
31302928272625242322212019181716
RESERVEDTDFI_CALVL_CAPTURE_F2
R/W-XR/W-0h
1514131211109876543210
RESERVEDTDFI_CALVL_CC_F2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1038 DDRSS_CTL_424 Register Field Descriptions
BitFieldTypeResetDescription
31-26RESERVEDR/WX
25-16TDFI_CALVL_CAPTURE_F2R/W0h

Defines the DFI tCALVL_CAPTURE timing parameter (in DFI clocks), the minimum cycles between a calibration command and a dfi_calvl_capture pulse.

15-10RESERVEDR/WX
9-0TDFI_CALVL_CC_F2R/W0h

Defines the DFI tCALVL_CC timing parameter (in DFI clocks), the minimum cycles between calibration commands.

2.5.2.424 DDRSS_CTL_425 Register (Offset = 6A4h) [reset = 0h]

DDRSS_CTL_425 is shown in Figure 8-516 and described in Table 8-1040.

Return to Summary Table.

Table 8-1039 DDRSS_CTL_425 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06A4h
Figure 8-516 DDRSS_CTL_425 Register
313029282726252423222120191817161514131211109876543210
TDFI_CALVL_RESP
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1040 DDRSS_CTL_425 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_CALVL_RESPR/W0h

Defines the DFI tCALVL_RESP timing parameter (in DFI clocks), the maximum cycles between a dfi_calvl_req assertion and a dfi_calvl_en assertion.

2.5.2.425 DDRSS_CTL_426 Register (Offset = 6A8h) [reset = 0h]

DDRSS_CTL_426 is shown in Figure 8-517 and described in Table 8-1042.

Return to Summary Table.

Table 8-1041 DDRSS_CTL_426 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06A8h
Figure 8-517 DDRSS_CTL_426 Register
313029282726252423222120191817161514131211109876543210
TDFI_CALVL_MAX
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1042 DDRSS_CTL_426 Register Field Descriptions
BitFieldTypeResetDescription
31-0TDFI_CALVL_MAXR/W0h

Defines the DFI tCALVL_MAX timing parameter (in DFI clocks), the maximum cycles between a dfi_calvl_en assertion and a valid dfi_calvl_resp.

2.5.2.426 DDRSS_CTL_427 Register (Offset = 6ACh) [reset = X]

DDRSS_CTL_427 is shown in Figure 8-518 and described in Table 8-1044.

Return to Summary Table.

Table 8-1043 DDRSS_CTL_427 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06ACh
Figure 8-518 DDRSS_CTL_427 Register
3130292827262524
RESERVEDTDFI_PHY_WRDATA_F0
R/W-XR/W-1h
2322212019181716
RESERVEDCALVL_ERROR_STATUS
R/W-XR-0h
15141312111098
RESERVEDCALVL_EN
R/W-XR/W-0h
76543210
RESERVEDCALVL_RESP_MASK
R/W-XR/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-1044 DDRSS_CTL_427 Register Field Descriptions
BitFieldTypeResetDescription
31-27RESERVEDR/WX
26-24TDFI_PHY_WRDATA_F0R/W1h

Defines the DFI tPHY_WRDATA timing parameter (in DFI PHY clocks), the maximum cycles between a dfi_wrdata_en assertion and a dfi_wrdata signal.

23-20RESERVEDR/WX
19-16CALVL_ERROR_STATUSR0h

Holds the error associated with the CA training error interrupt.
Bit (0) set indicates a TDFI_CALVL_MAX parameter violation, bit (1) set indicates a TDFI_CALVL_RESP parameter violation, and bit (2) set indicates that a CA leveling operation was attempted while memory was in self-refresh mode or self-refresh power-down mode.
READ-ONLY

15-9RESERVEDR/WX
8CALVL_ENR/W0h

Enable the MC CA training module.
Set to 1 to enable.

7-1RESERVEDR/WX
0CALVL_RESP_MASKR/W0h

Mask for the dfi_calvl_resp signal during CA training.

2.5.2.427 DDRSS_CTL_428 Register (Offset = 6B0h) [reset = X]

DDRSS_CTL_428 is shown in Figure 8-519 and described in Table 8-1046.

Return to Summary Table.

Table 8-1045 DDRSS_CTL_428 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06B0h
Figure 8-519 DDRSS_CTL_428 Register
3130292827262524
RESERVEDTDFI_WRCSLAT_F0
R/W-XR/W-0h
2322212019181716
RESERVEDTDFI_RDCSLAT_F0
R/W-XR/W-0h
15141312111098
RESERVEDTDFI_PHY_WRDATA_F2
R/W-XR/W-1h
76543210
RESERVEDTDFI_PHY_WRDATA_F1
R/W-XR/W-1h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1046 DDRSS_CTL_428 Register Field Descriptions
BitFieldTypeResetDescription
31RESERVEDR/WX
30-24TDFI_WRCSLAT_F0R/W0h

Defines the DFI tPHY_WRCSLAT timing parameter (in DFI PHY clocks), the maximum cycles between a write command and a dfi_wrdata_cs_n assertion.

23RESERVEDR/WX
22-16TDFI_RDCSLAT_F0R/W0h

Defines the DFI tPHY_RDCSLAT timing parameter (in DFI PHY clocks), the maximum cycles between a read command and a dfi_rddata_cs_n assertion.

15-11RESERVEDR/WX
10-8TDFI_PHY_WRDATA_F2R/W1h

Defines the DFI tPHY_WRDATA timing parameter (in DFI PHY clocks), the maximum cycles between a dfi_wrdata_en assertion and a dfi_wrdata signal.

7-3RESERVEDR/WX
2-0TDFI_PHY_WRDATA_F1R/W1h

Defines the DFI tPHY_WRDATA timing parameter (in DFI PHY clocks), the maximum cycles between a dfi_wrdata_en assertion and a dfi_wrdata signal.

2.5.2.428 DDRSS_CTL_429 Register (Offset = 6B4h) [reset = X]

DDRSS_CTL_429 is shown in Figure 8-520 and described in Table 8-1048.

Return to Summary Table.

Table 8-1047 DDRSS_CTL_429 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06B4h
Figure 8-520 DDRSS_CTL_429 Register
3130292827262524
RESERVEDTDFI_WRCSLAT_F2
R/W-XR/W-0h
2322212019181716
RESERVEDTDFI_RDCSLAT_F2
R/W-XR/W-0h
15141312111098
RESERVEDTDFI_WRCSLAT_F1
R/W-XR/W-0h
76543210
RESERVEDTDFI_RDCSLAT_F1
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1048 DDRSS_CTL_429 Register Field Descriptions
BitFieldTypeResetDescription
31RESERVEDR/WX
30-24TDFI_WRCSLAT_F2R/W0h

Defines the DFI tPHY_WRCSLAT timing parameter (in DFI PHY clocks), the maximum cycles between a write command and a dfi_wrdata_cs_n assertion.

23RESERVEDR/WX
22-16TDFI_RDCSLAT_F2R/W0h

Defines the DFI tPHY_RDCSLAT timing parameter (in DFI PHY clocks), the maximum cycles between a read command and a dfi_rddata_cs_n assertion.

15RESERVEDR/WX
14-8TDFI_WRCSLAT_F1R/W0h

Defines the DFI tPHY_WRCSLAT timing parameter (in DFI PHY clocks), the maximum cycles between a write command and a dfi_wrdata_cs_n assertion.

7RESERVEDR/WX
6-0TDFI_RDCSLAT_F1R/W0h

Defines the DFI tPHY_RDCSLAT timing parameter (in DFI PHY clocks), the maximum cycles between a read command and a dfi_rddata_cs_n assertion.

2.5.2.429 DDRSS_CTL_430 Register (Offset = 6B8h) [reset = X]

DDRSS_CTL_430 is shown in Figure 8-521 and described in Table 8-1050.

Return to Summary Table.

Table 8-1049 DDRSS_CTL_430 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06B8h
Figure 8-521 DDRSS_CTL_430 Register
3130292827262524
RESERVEDBL_ON_FLY_ENABLE
R/W-XR/W-0h
2322212019181716
RESERVEDDISABLE_MEMORY_MASKED_WRITE
R/W-XR/W-0h
15141312111098
RESERVEDEN_1T_TIMING
R/W-XR/W-0h
76543210
TDFI_WRDATA_DELAY
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1050 DDRSS_CTL_430 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24BL_ON_FLY_ENABLER/W0h

Enables the burst length on the fly feature.
Set to 1 to enable.

23-17RESERVEDR/WX
16DISABLE_MEMORY_MASKED_WRITER/W0h

Restricts the controller from masked write commands.
Set to 1 to not issue these commands.
Only used if connected to an LPDDR4 device.

15-9RESERVEDR/WX
8EN_1T_TIMINGR/W0h

Enable 1T timing in a system supporting both 1T and 2T timing.
Set to 1 to enable.

7-0TDFI_WRDATA_DELAYR/W0h

Defines the tWRDATA_DELAY timing parameter (in DFI PHY clocks), the maximum cycles between when the dfi_wrdata_en signal is asserted and when the corresponding write data transfer is completed on the DRAM bus.

2.5.2.430 DDRSS_CTL_437 Register (Offset = 6D4h) [reset = X]

DDRSS_CTL_437 is shown in Figure 8-522 and described in Table 8-1052.

Return to Summary Table.

Table 8-1051 DDRSS_CTL_437 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06D4h
Figure 8-522 DDRSS_CTL_437 Register
31302928272625242322212019181716
GLOBAL_ERROR_INFORESERVEDRESERVED
R/W-0hR/W-XR/W-0h
1514131211109876543210
RESERVEDRESERVEDRESERVEDRESERVED
R/W-XR/W-2hR/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1052 DDRSS_CTL_437 Register Field Descriptions
BitFieldTypeResetDescription
31-24GLOBAL_ERROR_INFOR/W0h

Indicates the source of DDR controller safety error interrupts.
Write a 1 to a bit to clear the error.

23-20RESERVEDR/WX
19-16RESERVEDR/W0h

Reserved

15-12RESERVEDR/WX
11-8RESERVEDR/W2h

Reserved

7-4RESERVEDR/WX
3-0RESERVEDR/W0h

Reserved

2.5.2.431 DDRSS_CTL_438 Register (Offset = 6D8h) [reset = X]

DDRSS_CTL_438 is shown in Figure 8-523 and described in Table 8-1054.

Return to Summary Table.

Table 8-1053 DDRSS_CTL_438 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06D8h
Figure 8-523 DDRSS_CTL_438 Register
3130292827262524
NWR_F1
R/W-28h
2322212019181716
NWR_F0
R/W-28h
15141312111098
RESERVEDAXI_PARITY_ERROR_STATUS
R/W-XR-0h
76543210
GLOBAL_ERROR_MASK
R/W-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-1054 DDRSS_CTL_438 Register Field Descriptions
BitFieldTypeResetDescription
31-24NWR_F1R/W28h

DRAM NWR value in cycles for chip select 2.

23-16NWR_F0R/W28h

DRAM NWR value in cycles for chip select 2.

15-10RESERVEDR/WX
9-8AXI_PARITY_ERROR_STATUSR0h

Specifies the source of the GLOBAL_ERROR_INFO bit (3) error.
Bit (0) correlates to an overlapping write data parity error and bit (1) correlates to a write data parity error or an AXI command parity error.
Value of 1 indicates that violation occurs.
Both bits may be set simultaneously.
READ-ONLY

7-0GLOBAL_ERROR_MASKR/W0h

Mask for the DDR0_DDRSS_CONTROLLER_GLOBAL_ERROR_FATAL_0 and DDR0_DDRSS_CONTROLLER_GLOBAL_ERROR_NONFATAL_0 signals from the GLOBAL_ERROR_INFO parameter.
Set each bit to 1 to mask interrupt from the output signal.

2.5.2.432 DDRSS_CTL_439 Register (Offset = 6DCh) [reset = X]

DDRSS_CTL_439 is shown in Figure 8-524 and described in Table 8-1056.

Return to Summary Table.

Table 8-1055 DDRSS_CTL_439 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06DCh
Figure 8-524 DDRSS_CTL_439 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVEDREGPORT_PARAM_PARITY_PROTECTION_STATUS
R/W-XR-0h
15141312111098
RESERVEDRESERVED
R/W-XR/W-0h
76543210
NWR_F2
R/W-28h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-1056 DDRSS_CTL_439 Register Field Descriptions
BitFieldTypeResetDescription
31-21RESERVEDR/WX
20-16REGPORT_PARAM_PARITY_PROTECTION_STATUSR0h

Specifies the source of the GLOBAL_ERROR_INFO bit (5) error.
Bit (0) correlates to an address parity error, bit (1) correlates to a write data mask parity error, bit (2) correlates to a write data parity error, bit (3) correlates to a read data parity error, and bit (4) correlates to a param register parity error.
Value of 1 indicates a violation.
READ-ONLY

15-9RESERVEDR/WX
8RESERVEDR/W0h

Reserved

7-0NWR_F2R/W28h

DRAM NWR value in cycles for chip select 2.

2.5.2.433 DDRSS_CTL_440 Register (Offset = 6E0h) [reset = 0h]

DDRSS_CTL_440 is shown in Figure 8-525 and described in Table 8-1058.

Return to Summary Table.

Table 8-1057 DDRSS_CTL_440 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06E0h
Figure 8-525 DDRSS_CTL_440 Register
313029282726252423222120191817161514131211109876543210
MC_PARITY_INJECTION_BYTE_ENABLE_0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1058 DDRSS_CTL_440 Register Field Descriptions
BitFieldTypeResetDescription
31-0MC_PARITY_INJECTION_BYTE_ENABLE_0R/W0h

Enables a parity error injection on the assocated byte.
This parameter is a global parameter that affects all MC fault logic.
To actually inject an error, the user would need to set this parameter and then set the logic injection enable parameter.
Set each bit to 1 to enable the associated byte to have an error injected.

2.5.2.434 DDRSS_CTL_441 Register (Offset = 6E4h) [reset = 0h]

DDRSS_CTL_441 is shown in Figure 8-526 and described in Table 8-1060.

Return to Summary Table.

Table 8-1059 DDRSS_CTL_441 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06E4h
Figure 8-526 DDRSS_CTL_441 Register
313029282726252423222120191817161514131211109876543210
MC_PARITY_INJECTION_BYTE_ENABLE_1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1060 DDRSS_CTL_441 Register Field Descriptions
BitFieldTypeResetDescription
31-0MC_PARITY_INJECTION_BYTE_ENABLE_1R/W0h

Enables a parity error injection on the assocated byte.
This parameter is a global parameter that affects all MC fault logic.
To actually inject an error, the user would need to set this parameter and then set the logic injection enable parameter.
Set each bit to 1 to enable the associated byte to have an error injected.

2.5.2.435 DDRSS_CTL_442 Register (Offset = 6E8h) [reset = X]

DDRSS_CTL_442 is shown in Figure 8-527 and described in Table 8-1062.

Return to Summary Table.

Table 8-1061 DDRSS_CTL_442 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06E8h
Figure 8-527 DDRSS_CTL_442 Register
3130292827262524
RESERVEDREGPORT_WRITE_PARITY_PROTECTION_EN
R/W-XR/W-0h
2322212019181716
RESERVEDREGPORT_WRITEMASK_PARITY_PROTECTION_EN
R/W-XR/W-0h
15141312111098
RESERVEDREGPORT_ADDR_PARITY_PROTECTION_EN
R/W-XR/W-0h
76543210
RESERVEDMC_PARITY_ERROR_TYPE
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1062 DDRSS_CTL_442 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24REGPORT_WRITE_PARITY_PROTECTION_ENR/W0h

Enables regport write data parity checking from the regport to the param block.
Set to 1 to enable.

23-17RESERVEDR/WX
16REGPORT_WRITEMASK_PARITY_PROTECTION_ENR/W0h

Enables regport write data mask parity checking from the regport to the param block.
Set to 1 to enable.

15-9RESERVEDR/WX
8REGPORT_ADDR_PARITY_PROTECTION_ENR/W0h

Enables regport address/command parity checking from the regport to the param block.
Set to 1 to enable.

7-1RESERVEDR/WX
0MC_PARITY_ERROR_TYPER/W0h

Defines if the parity error injected is a transient (one-time) or stuck-at (every time) error.
Clear to 0 for transient or set to 1 for stuck-at.

2.5.2.436 DDRSS_CTL_443 Register (Offset = 6ECh) [reset = X]

DDRSS_CTL_443 is shown in Figure 8-528 and described in Table 8-1064.

Return to Summary Table.

Table 8-1063 DDRSS_CTL_443 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06ECh
Figure 8-528 DDRSS_CTL_443 Register
3130292827262524
RESERVEDREGPORT_WRITEMASK_PARITY_PROTECTION_INJECTION_EN
R/W-XR/W-0h
2322212019181716
RESERVEDREGPORT_ADDR_PARITY_PROTECTION_INJECTION_EN
R/W-XR/W-0h
15141312111098
RESERVEDPARAMREG_PARITY_PROTECTION_EN
R/W-XR/W-0h
76543210
RESERVEDREGPORT_READ_PARITY_PROTECTION_EN
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1064 DDRSS_CTL_443 Register Field Descriptions
BitFieldTypeResetDescription
31-25RESERVEDR/WX
24REGPORT_WRITEMASK_PARITY_PROTECTION_INJECTION_ENR/W0h

Enables regport write mask data parity error injection from the regport to the param block.
Set to 1 to enable.
Only the bytes enabled in the MC_PARITY_INJECTION_BYTE_ENABLE parameter will be injected with an error on the next use of this signal/logic.
This parameter is only meaningful if the REGPORT_WRITEMASK_PARITY_PROTECTION_EN parameter is also set to 1.

23-17RESERVEDR/WX
16REGPORT_ADDR_PARITY_PROTECTION_INJECTION_ENR/W0h

Enables regport address/command parity error injection from the regport to the param block.
Set to 1 to enable.
Only the bytes enabled in the MC_PARITY_INJECTION_BYTE_ENABLE parameter will be injected with an error on the next use of this signal/logic.
This parameter is only meaningful if the REGPORT_ADDR_PARITY_PROTECTION_EN parameter is also set to 1.

15-9RESERVEDR/WX
8PARAMREG_PARITY_PROTECTION_ENR/W0h

Enables parity checking on the param registers.
Set to 1 to enable.

7-1RESERVEDR/WX
0REGPORT_READ_PARITY_PROTECTION_ENR/W0h

Enables regport read data parity checking from the param block to the regport.
Set to 1 to enable.

2.5.2.437 DDRSS_CTL_444 Register (Offset = 6F0h) [reset = X]

DDRSS_CTL_444 is shown in Figure 8-529 and described in Table 8-1066.

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Table 8-1065 DDRSS_CTL_444 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06F0h
Figure 8-529 DDRSS_CTL_444 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVEDPARAMREG_PARITY_PROTECTION_INJECTION_EN
R/W-XR/W-0h
15141312111098
RESERVEDREGPORT_READ_PARITY_PROTECTION_INJECTION_EN
R/W-XR/W-0h
76543210
RESERVEDREGPORT_WRITE_PARITY_PROTECTION_INJECTION_EN
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1066 DDRSS_CTL_444 Register Field Descriptions
BitFieldTypeResetDescription
31-17RESERVEDR/WX
16PARAMREG_PARITY_PROTECTION_INJECTION_ENR/W0h

Enables parity error injection on the param registers.
Set to 1 to enable.
Only the bytes enabled in the MC_PARITY_INJECTION_BYTE_ENABLE parameter will be injected with an error on the next use of this signal/logic.
This parameter is only meaningful if the PARAMREG_PARITY_PROTECTION_EN parameter is also set to 1.

15-9RESERVEDR/WX
8REGPORT_READ_PARITY_PROTECTION_INJECTION_ENR/W0h

Enables regport read data parity error injection from the param block to the regport.
Set to 1 to enable.
Only the bytes enabled in the MC_PARITY_INJECTION_BYTE_ENABLE parameter will be injected with an error on the next use of this signal/logic.
This parameter is only meaningful if the REGPORT_READ_PARITY_PROTECTION_EN parameter is also set to 1.

7-1RESERVEDR/WX
0REGPORT_WRITE_PARITY_PROTECTION_INJECTION_ENR/W0h

Enables regport write data parity error injection from the regport to the param block.
Set to 1 to enable.
Only the bytes enabled in the MC_PARITY_INJECTION_BYTE_ENABLE parameter will be injected with an error on the next use of this signal/logic.
This parameter is only meaningful if the REGPORT_WRITE_PARITY_PROTECTION_EN parameter is also set to 1.

2.5.2.438 DDRSS_CTL_447 Register (Offset = 6FCh) [reset = X]

DDRSS_CTL_447 is shown in Figure 8-530 and described in Table 8-1068.

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Table 8-1067 DDRSS_CTL_447 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 06FCh
Figure 8-530 DDRSS_CTL_447 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVED
R/W-X
15141312111098
RESERVEDPORT_TO_CORE_PROTECTION_EN
R/W-XR/W-0h
76543210
RESERVEDRESERVED
R/W-XR-0h
LEGEND: R = Read Only; R/W = Read/Write; -n = value after reset
Table 8-1068 DDRSS_CTL_447 Register Field Descriptions
BitFieldTypeResetDescription
31-9RESERVEDR/WX
8PORT_TO_CORE_PROTECTION_ENR/W0h

Enables parity checking and logic replication protection from the port to the controller core.
Set to 1 to enable.

7-3RESERVEDR/WX
2-0RESERVEDR0h

Reserved

2.5.2.439 DDRSS_CTL_448 Register (Offset = 700h) [reset = 0h]

DDRSS_CTL_448 is shown in Figure 8-531 and described in Table 8-1070.

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Table 8-1069 DDRSS_CTL_448 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0700h
Figure 8-531 DDRSS_CTL_448 Register
313029282726252423222120191817161514131211109876543210
PORT_TO_CORE_PROTECTION_INJECTION_EN_0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1070 DDRSS_CTL_448 Register Field Descriptions
BitFieldTypeResetDescription
31-0PORT_TO_CORE_PROTECTION_INJECTION_EN_0R/W0h

Enables parity error injection from the port to the controller core.
Set to 1 to enable.
Only the bytes enabled in the MC_PARITY_INJECTION_BYTE_ENABLE parameter will be injected with an error on the next use of this signal/logic.
This parameter is only meaningful if the PORT_TO_CORE_PROTECTION_EN parameter is also set to 1.

2.5.2.440 DDRSS_CTL_449 Register (Offset = 704h) [reset = 0h]

DDRSS_CTL_449 is shown in Figure 8-532 and described in Table 8-1072.

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Table 8-1071 DDRSS_CTL_449 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0704h
Figure 8-532 DDRSS_CTL_449 Register
313029282726252423222120191817161514131211109876543210
PORT_TO_CORE_PROTECTION_INJECTION_EN_1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1072 DDRSS_CTL_449 Register Field Descriptions
BitFieldTypeResetDescription
31-0PORT_TO_CORE_PROTECTION_INJECTION_EN_1R/W0h

Enables parity error injection from the port to the controller core.
Set to 1 to enable.
Only the bytes enabled in the MC_PARITY_INJECTION_BYTE_ENABLE parameter will be injected with an error on the next use of this signal/logic.
This parameter is only meaningful if the PORT_TO_CORE_PROTECTION_EN parameter is also set to 1.

2.5.2.441 DDRSS_CTL_450 Register (Offset = 708h) [reset = X]

DDRSS_CTL_450 is shown in Figure 8-533 and described in Table 8-1074.

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Table 8-1073 DDRSS_CTL_450 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0708h
Figure 8-533 DDRSS_CTL_450 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVED
R/W-X
15141312111098
RESERVED
R/W-X
76543210
RESERVEDPORT_TO_CORE_PROTECTION_INJECTION_EN_2
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1074 DDRSS_CTL_450 Register Field Descriptions
BitFieldTypeResetDescription
31-3RESERVEDR/WX
2-0PORT_TO_CORE_PROTECTION_INJECTION_EN_2R/W0h

Enables parity error injection from the port to the controller core.
Set to 1 to enable.
Only the bytes enabled in the MC_PARITY_INJECTION_BYTE_ENABLE parameter will be injected with an error on the next use of this signal/logic.
This parameter is only meaningful if the PORT_TO_CORE_PROTECTION_EN parameter is also set to 1.

2.5.2.442 DDRSS_CTL_455 Register (Offset = 71Ch) [reset = 0h]

DDRSS_CTL_455 is shown in Figure 8-534 and described in Table 8-1076.

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Table 8-1075 DDRSS_CTL_455 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 071Ch
Figure 8-534 DDRSS_CTL_455 Register
313029282726252423222120191817161514131211109876543210
PORT_TO_CORE_LR_ERR_INJ_EN_0
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1076 DDRSS_CTL_455 Register Field Descriptions
BitFieldTypeResetDescription
31-0PORT_TO_CORE_LR_ERR_INJ_EN_0R/W0h

Enables error injection from the port to the controller core.
Set to 1 to enable.
This parameter is only meaningful if the PORT_TO_CORE_PROTECTION_EN parameter is also set to 1.

2.5.2.443 DDRSS_CTL_456 Register (Offset = 720h) [reset = 0h]

DDRSS_CTL_456 is shown in Figure 8-535 and described in Table 8-1078.

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Table 8-1077 DDRSS_CTL_456 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0720h
Figure 8-535 DDRSS_CTL_456 Register
313029282726252423222120191817161514131211109876543210
PORT_TO_CORE_LR_ERR_INJ_EN_1
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1078 DDRSS_CTL_456 Register Field Descriptions
BitFieldTypeResetDescription
31-0PORT_TO_CORE_LR_ERR_INJ_EN_1R/W0h

Enables error injection from the port to the controller core.
Set to 1 to enable.
This parameter is only meaningful if the PORT_TO_CORE_PROTECTION_EN parameter is also set to 1.

2.5.2.444 DDRSS_CTL_457 Register (Offset = 724h) [reset = 0h]

DDRSS_CTL_457 is shown in Figure 8-536 and described in Table 8-1080.

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Table 8-1079 DDRSS_CTL_457 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0724h
Figure 8-536 DDRSS_CTL_457 Register
313029282726252423222120191817161514131211109876543210
PORT_TO_CORE_LR_ERR_INJ_EN_2
R/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1080 DDRSS_CTL_457 Register Field Descriptions
BitFieldTypeResetDescription
31-0PORT_TO_CORE_LR_ERR_INJ_EN_2R/W0h

Enables error injection from the port to the controller core.
Set to 1 to enable.
This parameter is only meaningful if the PORT_TO_CORE_PROTECTION_EN parameter is also set to 1.

2.5.2.445 DDRSS_CTL_458 Register (Offset = 728h) [reset = X]

DDRSS_CTL_458 is shown in Figure 8-537 and described in Table 8-1082.

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Table 8-1081 DDRSS_CTL_458 Instances
InstancePhysical Address
COMPUTE_CLUSTER0_CTL_CFG0299 0728h
Figure 8-537 DDRSS_CTL_458 Register
3130292827262524
RESERVED
R/W-X
2322212019181716
RESERVED
R/W-X
15141312111098
RESERVED
R/W-X
76543210
RESERVEDPORT_TO_CORE_LR_ERR_INJ_EN_3
R/W-XR/W-0h
LEGEND: R/W = Read/Write; -n = value after reset
Table 8-1082 DDRSS_CTL_458 Register Field Descriptions
BitFieldTypeResetDescription
31-4RESERVEDR/WX
3-0PORT_TO_CORE_LR_ERR_INJ_EN_3R/W0h

Enables error injection from the port to the controller core.
Set to 1 to enable.
This parameter is only meaningful if the PORT_TO_CORE_PROTECTION_EN parameter is also set to 1.