SPRUJ53 User guide | 德州仪器 TI.com.cn

SPRUJ53 April 2024 TMS320F28P550SJ , TMS320F28P559SJ-Q1

1
Read This First
1. About This Manual
2. Notational Conventions
3. Glossary
4. Related Documentation From Texas Instruments
5. Support Resources
6. Trademarks
1 C2000™ Microcontrollers Software Support
1. 1.1 Introduction
2. 1.2 C2000Ware Structure
3. 1.3 Documentation
4. 1.4 Devices
5. 1.5 Libraries
6. 1.6 Code Composer Studio™ Integrated Development Environment (IDE)
7. 1.7 SysConfig and PinMUX Tool
2 C28x Processor
1. 2.1 Introduction
2. 2.2 C28X Related Collateral
3. 2.3 Features
4. 2.4 Floating-Point Unit
5. 2.5 Trigonometric Math Unit (TMU)
6. 2.6 VCRC Unit
3 System Control and Interrupts
1. 3.1 Introduction
2. 3.2 Power Management
3. 3.3 Device Identification and Configuration Registers
4. 3.4 Resets
5. 3.5 Peripheral Interrupts
6. 3.6 Exceptions and Non-Maskable Interrupts
7. 3.7 Clocking
8. 3.8 32-Bit CPU Timers 0/1/2
9. 3.9 Watchdog Timer
10. 3.10 Low-Power Modes
11. 3.11 Memory Controller Module
  1. 3.11.1 Functional Description
12. 3.12 JTAG
  1. 3.12.1 JTAG Noise and TAP_STATUS
13. 3.13 Live Firmware Update
14. 3.14 System Control Register Configuration Restrictions
15. 3.15 Software
16. 3.16 SYSCTRL Registers
4 ROM Code and Peripheral Booting
1. 4.1 Introduction
  1. 4.1.1 ROM Related Collateral
2. 4.2 Device Boot Sequence
3. 4.3 Device Boot Modes
  1. 4.3.1 Default Boot Modes
  2. 4.3.2 Custom Boot Modes
4. 4.4 Device Boot Configurations
5. 4.5 Device Boot Flow Diagrams
6. 4.6 Device Reset and Exception Handling
  1. 4.6.1 Reset Causes and Handling
  2. 4.6.2 Exceptions and Interrupts Handling
7. 4.7 Boot ROM Description
8. 4.8 Application Notes for Using the Bootloaders
  1. 4.8.1 Bootloader Data Stream Structure
    1. 4.8.1.1 Data Stream Structure 8-bit
  2. 4.8.2 The C2000 Hex Utility
    1. 4.8.2.1 HEX2000.exe Command Syntax
9. 4.9 Software
  1. 4.9.1 BOOT Examples
5 Dual Code Security Module (DCSM)
1. 5.1 Introduction
  1. 5.1.1 DCSM Related Collateral
2. 5.2 Functional Description
3. 5.3 Flash and OTP Erase/Program
4. 5.4 Secure Copy Code
5. 5.5 SecureCRC
6. 5.6 CSM Impact on Other On-Chip Resources
7. 5.7 Incorporating Code Security in User Applications
8. 5.8 Software
  1. 5.8.1 DCSM Registers to Driverlib Functions
  2. 5.8.2 DCSM Examples
    1. 5.8.2.1 Empty DCSM Tool Example
9. 5.9 DCSM Registers
6 Flash Module
1. 6.1 Introduction to Flash and OTP Memory
2. 6.2 Flash Bank, OTP, and Pump
3. 6.3 Flash Wrapper
4. 6.4 Flash and OTP Memory Performance
5. 6.5 Flash Read Interface
  1. 6.5.1 C28x-Flash Read Interface
6. 6.6 Flash Erase and Program
7. 6.7 Error Correction Code (ECC) Protection
8. 6.8 Reserved Locations Within Flash and OTP
9. 6.9 Migrating an Application from RAM to Flash
10. 6.10 Procedure to Change the Flash Control Registers
11. 6.11 Software
  1. 6.11.1 FLASH Registers to Driverlib Functions
  2. 6.11.2 FLASH Examples
    1. 6.11.2.1 Flash Programming with AutoECC, DataAndECC, DataOnly and EccOnly
    2. 6.11.2.2 Flash Programming with AutoECC, DataAndECC, DataOnly and EccOnly
12. 6.12 FLASH Registers
7 Control Law Accelerator (CLA)
1. 7.1 Introduction
2. 7.2 CLA Interface
3. 7.3 CLA, DMA, and CPU Arbitration
4. 7.4 CLA Configuration and Debug
5. 7.5 Pipeline
6. 7.6 Software
  1. 7.6.1 CLA Registers to Driverlib Functions
  2. 7.6.2 CLA Examples
7. 7.7 Instruction Set
  1. 7.7.1 Instruction Descriptions
  2. 7.7.2 Addressing Modes and Encoding
  3. 7.7.3 Instructions
    1. MABSF32 MRa, MRb
    2. MADD32 MRa, MRb, MRc
    3. MADDF32 MRa, #16FHi, MRb
    4. MADDF32 MRa, MRb, #16FHi
    5. MADDF32 MRa, MRb, MRc
    6. MADDF32 MRd, MRe, MRf||MMOV32 mem32, MRa
    7. MADDF32 MRd, MRe, MRf ||MMOV32 MRa, mem32
    8. MAND32 MRa, MRb, MRc
    9. MASR32 MRa, #SHIFT
    10. MBCNDD 16BitDest {, CNDF}
    11. MCCNDD 16BitDest {, CNDF}
    12. MCMP32 MRa, MRb
    13. MCMPF32 MRa, MRb
    14. MCMPF32 MRa, #16FHi
    15. MDEBUGSTOP
    16. MEALLOW
    17. MEDIS
    18. MEINVF32 MRa, MRb
    19. MEISQRTF32 MRa, MRb
    20. MF32TOI16 MRa, MRb
    21. MF32TOI16R MRa, MRb
    22. MF32TOI32 MRa, MRb
    23. MF32TOUI16 MRa, MRb
    24. MF32TOUI16R MRa, MRb
    25. MF32TOUI32 MRa, MRb
    26. MFRACF32 MRa, MRb
    27. MI16TOF32 MRa, MRb
    28. MI16TOF32 MRa, mem16
    29. MI32TOF32 MRa, mem32
    30. MI32TOF32 MRa, MRb
    31. MLSL32 MRa, #SHIFT
    32. MLSR32 MRa, #SHIFT
    33. MMACF32 MR3, MR2, MRd, MRe, MRf ||MMOV32 MRa, mem32
    34. MMAXF32 MRa, MRb
    35. MMAXF32 MRa, #16FHi
    36. MMINF32 MRa, MRb
    37. MMINF32 MRa, #16FHi
    38. MMOV16 MARx, MRa, #16I
    39. MMOV16 MARx, mem16
    40. MMOV16 mem16, MARx
    41. MMOV16 mem16, MRa
    42. MMOV32 mem32, MRa
    43. MMOV32 mem32, MSTF
    44. MMOV32 MRa, mem32 {, CNDF}
    45. MMOV32 MRa, MRb {, CNDF}
    46. MMOV32 MSTF, mem32
    47. MMOVD32 MRa, mem32
    48. MMOVF32 MRa, #32F
    49. MMOVI16 MARx, #16I
    50. MMOVI32 MRa, #32FHex
    51. MMOVIZ MRa, #16FHi
    52. MMOVZ16 MRa, mem16
    53. MMOVXI MRa, #16FLoHex
    54. MMPYF32 MRa, MRb, MRc
    55. MMPYF32 MRa, #16FHi, MRb
    56. MMPYF32 MRa, MRb, #16FHi
    57. MMPYF32 MRa, MRb, MRc||MADDF32 MRd, MRe, MRf
    58. MMPYF32 MRd, MRe, MRf ||MMOV32 MRa, mem32
    59. MMPYF32 MRd, MRe, MRf ||MMOV32 mem32, MRa
    60. MMPYF32 MRa, MRb, MRc ||MSUBF32 MRd, MRe, MRf
    61. MNEGF32 MRa, MRb{, CNDF}
    62. MNOP
    63. MOR32 MRa, MRb, MRc
    64. MRCNDD {CNDF}
    65. MSETFLG FLAG, VALUE
    66. MSTOP
    67. MSUB32 MRa, MRb, MRc
    68. MSUBF32 MRa, MRb, MRc
    69. MSUBF32 MRa, #16FHi, MRb
    70. MSUBF32 MRd, MRe, MRf ||MMOV32 MRa, mem32
    71. MSUBF32 MRd, MRe, MRf ||MMOV32 mem32, MRa
    72. MSWAPF MRa, MRb {, CNDF}
    73. MTESTTF CNDF
    74. MUI16TOF32 MRa, mem16
    75. MUI16TOF32 MRa, MRb
    76. MUI32TOF32 MRa, mem32
    77. MUI32TOF32 MRa, MRb
    78. MXOR32 MRa, MRb, MRc
8. 7.8 CLA Registers
8 Dual-Clock Comparator (DCC)
1. 8.1 Introduction
  1. 8.1.1 Features
  2. 8.1.2 Block Diagram
2. 8.2 Module Operation
3. 8.3 Interrupts
4. 8.4 Software
  1. 8.4.1 DCC Registers to Driverlib Functions
  2. 8.4.2 DCC Examples
5. 8.5 DCC Registers
  1. 8.5.1 DCC Base Address Table
  2. 8.5.2 DCC_REGS Registers
9 General-Purpose Input/Output (GPIO)
1. 9.1 Introduction
  1. 9.1.1 GPIO Related Collateral
2. 9.2 Configuration Overview
3. 9.3 Digital Inputs on ADC Pins (AIOs)
4. 9.4 Digital Inputs and Outputs on ADC Pins (AGPIOs)
5. 9.5 Digital General-Purpose I/O Control
6. 9.6 Input Qualification
7. 9.7 USB Signals
8. 9.8 PMBUS and I2C Signals
9. 9.9 GPIO and Peripheral Muxing
  1. 9.9.1 GPIO Muxing
  2. 9.9.2 Peripheral Muxing
10. 9.10 Internal Pullup Configuration Requirements
11. 9.11 Software
12. 9.12 GPIO Registers
10Crossbar (X-BAR)
1. 10.1 Input X-BAR and CLB Input X-BAR
  1. 10.1.1 CLB Input X-BAR
2. 10.2 ePWM, CLB, and GPIO Output X-BAR
3. 10.3 Software
4. 10.4 XBAR Registers
11Direct Memory Access (DMA)
1. 11.1 Introduction
  1. 11.1.1 Features
  2. 11.1.2 Block Diagram
2. 11.2 Architecture
  1. 11.2.1 Peripheral Interrupt Event Trigger Sources
  2. 11.2.2 DMA Bus
3. 11.3 Address Pointer and Transfer Control
4. 11.4 Pipeline Timing and Throughput
5. 11.5 CPU and CLA Arbitration
6. 11.6 Channel Priority
  1. 11.6.1 Round-Robin Mode
  2. 11.6.2 Channel 1 High-Priority Mode
7. 11.7 Overrun Detection Feature
8. 11.8 Software
  1. 11.8.1 DMA Registers to Driverlib Functions
  2. 11.8.2 DMA Examples
    1. 11.8.2.1 DMA GSRAM Transfer (dma_ex1_gsram_transfer)
    2. 11.8.2.2 DMA GSRAM Transfer (dma_ex2_gsram_transfer)
9. 11.9 DMA Registers
12Embedded Real-time Analysis and Diagnostic (ERAD)
1. 12.1 Introduction
  1. 12.1.1 ERAD Related Collateral
2. 12.2 Enhanced Bus Comparator Unit
  1. 12.2.1 Enhanced Bus Comparator Unit Operations
  2. 12.2.2 Event Masking and Exporting
3. 12.3 System Event Counter Unit
4. 12.4 ERAD Ownership, Initialization and Reset
5. 12.5 ERAD Programming Sequence
  1. 12.5.1 Hardware Breakpoint and Hardware Watch Point Programming Sequence
  2. 12.5.2 Timer and Counter Programming Sequence
6. 12.6 Cyclic Redundancy Check Unit
  1. 12.6.1 CRC Unit Qualifier
  2. 12.6.2 CRC Unit Programming Sequence
7. 12.7 Program Counter Trace
8. 12.8 Software
  1. 12.8.1 ERAD Registers to Driverlib Functions
  2. 12.8.2 ERAD Examples
9. 12.9 ERAD Registers
13Analog Subsystem
1. 13.1 Introduction
  1. 13.1.1 Features
  2. 13.1.2 Block Diagram
2. 13.2 Optimizing Power-Up Time
3. 13.3 Digital Inputs on ADC Pins (AIOs)
4. 13.4 Digital Inputs and Outputs on ADC Pins (AGPIOs)
5. 13.5 Analog Pins and Internal Connections
6. 13.6 Software
  1. 13.6.1 ASYSCTL Registers to Driverlib Functions
7. 13.7 ASBSYS Registers
  1. 13.7.1 ASBSYS Base Address Table
  2. 13.7.2 ANALOG_SUBSYS_REGS Registers
14Analog-to-Digital Converter (ADC)
1. 14.1 Introduction
2. 14.2 ADC Configurability
3. 14.3 SOC Principle of Operation
4. 14.4 SOC Configuration Examples
5. 14.5 ADC Conversion Priority
6. 14.6 Burst Mode
  1. 14.6.1 Burst Mode Example
  2. 14.6.2 Burst Mode Priority Example
7. 14.7 EOC and Interrupt Operation
8. 14.8 Post-Processing Blocks
9. 14.9 Power-Up Sequence
10. 14.10 ADC Calibration
  1. 14.10.1 ADC Zero Offset Calibration
11. 14.11 ADC Timings
  1. 14.11.1 ADC Timing Diagrams
  2. 14.11.2 Post-Processing Block Timings
12. 14.12 Additional Information
13. 14.13 Software
  1. 14.13.1 ADC Registers to Driverlib Functions
  2. 14.13.2 ADC Examples
14. 14.14 ADC Registers
15Buffered Digital-to-Analog Converter (DAC)
1. 15.1 Introduction
2. 15.2 Using the DAC
3. 15.3 Lock Registers
4. 15.4 Software
  1. 15.4.1 DAC Registers to Driverlib Functions
  2. 15.4.2 DAC Examples
5. 15.5 DAC Registers
  1. 15.5.1 DAC Base Address Table
  2. 15.5.2 DAC_REGS Registers
16Comparator Subsystem (CMPSS)
1. 16.1 Introduction
2. 16.2 Comparator
3. 16.3 Reference DAC
4. 16.4 Ramp Generator
5. 16.5 Digital Filter
  1. 16.5.1 Filter Initialization Sequence
6. 16.6 Using the CMPSS
7. 16.7 CMPSS DAC Output
8. 16.8 Software
  1. 16.8.1 CMPSS Registers to Driverlib Functions
  2. 16.8.2 CMPSS Examples
    1. 16.8.2.1 CMPSS Asynchronous Trip
    2. 16.8.2.2 CMPSS Digital Filter Configuration
9. 16.9 CMPSS Registers
  1. 16.9.1 CMPSS Base Address Table
  2. 16.9.2 CMPSS_REGS Registers
17Programmable Gain Amplifier (PGA)
1. 17.1 Programmable Gain Amplifier (PGA) Overview
  1. 17.1.1 Features
  2. 17.1.2 Block Diagram
2. 17.2 Linear Output Range
3. 17.3 Gain Values
4. 17.4 Modes of Operation
5. 17.5 External Filtering
  1. 17.5.1 Low-Pass Filter Using Internal Filter Resistor and External Capacitor
  2. 17.5.2 Single Pole Low-Pass Filter Using Internal Gain Resistor and External Capacitor
6. 17.6 Error Calibration
  1. 17.6.1 Offset Error
  2. 17.6.2 Gain Error
7. 17.7 Chopping Feature
8. 17.8 Enabling and Disabling the PGA Clock
9. 17.9 Lock Register
10. 17.10 Analog Front-End Integration
11. 17.11 Examples
12. 17.12 Software
  1. 17.12.1 PGA Registers to Driverlib Functions
  2. 17.12.2 PGA Examples
    1. 17.12.2.1 PGA DAC-ADC External Loopback Example
13. 17.13 PGA Registers
  1. 17.13.1 PGA Base Address Table
  2. 17.13.2 PGA_REGS Registers
18Enhanced Pulse Width Modulator (ePWM)
1. 18.1 Introduction
  1. 18.1.1 EPWM Related Collateral
  2. 18.1.2 Submodule Overview
2. 18.2 Configuring Device Pins
3. 18.3 ePWM Modules Overview
4. 18.4 Time-Base (TB) Submodule
5. 18.5 Counter-Compare (CC) Submodule
6. 18.6 Action-Qualifier (AQ) Submodule
7. 18.7 Dead-Band Generator (DB) Submodule
8. 18.8 PWM Chopper (PC) Submodule
9. 18.9 Trip-Zone (TZ) Submodule
10. 18.10 Event-Trigger (ET) Submodule
  1. 18.10.1 Operational Overview of the ePWM Event-Trigger Submodule
11. 18.11 Digital Compare (DC) Submodule
12. 18.12 ePWM Crossbar (X-BAR)
13. 18.13 Applications to Power Topologies
14. 18.14 Register Lock Protection
15. 18.15 High-Resolution Pulse Width Modulator (HRPWM)
  1. 18.15.1 Operational Description of HRPWM
  2. 18.15.2 SFO Library Software - SFO_TI_Build_V8.lib
    1. 18.15.2.1 Scale Factor Optimizer Function - int SFO()
    2. 18.15.2.2 Software Usage
      1. 18.15.2.2.1 A Sample of How to Add "Include" Files
      2. 912
      3. 18.15.2.2.2 Declaring an Element
      4. 914
      5. 18.15.2.2.3 Initializing With a Scale Factor Value
      6. 916
      7. 18.15.2.2.4 SFO Function Calls
16. 18.16 Software
17. 18.17 EPWM Registers
  1. 18.17.1 EPWM Base Address Table
  2. 18.17.2 EPWM_REGS Registers
19Enhanced Capture (eCAP)
1. 19.1 Introduction
  1. 19.1.1 Features
  2. 19.1.2 ECAP Related Collateral
2. 19.2 Description
3. 19.3 Configuring Device Pins for the eCAP
4. 19.4 Capture and APWM Operating Mode
5. 19.5 Capture Mode Description
6. 19.6 Application of the eCAP Module
7. 19.7 Application of the APWM Mode
  1. 19.7.1 Example 1 - Simple PWM Generation (Independent Channels)
8. 19.8 Software
  1. 19.8.1 ECAP Registers to Driverlib Functions
  2. 19.8.2 ECAP Examples
9. 19.9 ECAP Registers
  1. 19.9.1 ECAP Base Address Table
  2. 19.9.2 ECAP_REGS Registers
20Enhanced Quadrature Encoder Pulse (eQEP)
1. 20.1 Introduction
  1. 20.1.1 EQEP Related Collateral
2. 20.2 Configuring Device Pins
3. 20.3 Description
4. 20.4 Quadrature Decoder Unit (QDU)
5. 20.5 Position Counter and Control Unit (PCCU)
6. 20.6 eQEP Edge Capture Unit
7. 20.7 eQEP Watchdog
8. 20.8 eQEP Unit Timer Base
9. 20.9 QMA Module
  1. 20.9.1 Modes of Operation
    1. 20.9.1.1 QMA Mode-1 (QMACTRL[MODE]=1)
    2. 20.9.1.2 QMA Mode-2 (QMACTRL[MODE]=2)
  2. 20.9.2 Interrupt and Error Generation
10. 20.10 eQEP Interrupt Structure
11. 20.11 Software
  1. 20.11.1 EQEP Registers to Driverlib Functions
  2. 20.11.2 EQEP Examples
12. 20.12 EQEP Registers
  1. 20.12.1 EQEP Base Address Table
  2. 20.12.2 EQEP_REGS Registers
21Serial Peripheral Interface (SPI)
1. 21.1 Introduction
2. 21.2 System-Level Integration
3. 21.3 SPI Operation
4. 21.4 Programming Procedure
5. 21.5 Software
  1. 21.5.1 SPI Registers to Driverlib Functions
  2. 21.5.2 SPI Examples
6. 21.6 SPI Registers
  1. 21.6.1 SPI Base Address Table
  2. 21.6.2 SPI_REGS Registers
22Serial Communications Interface (SCI)
1. 22.1 Introduction
2. 22.2 Architecture
3. 22.3 SCI Module Signal Summary
4. 22.4 Configuring Device Pins
5. 22.5 Multiprocessor and Asynchronous Communication Modes
6. 22.6 SCI Programmable Data Format
7. 22.7 SCI Multiprocessor Communication
8. 22.8 Idle-Line Multiprocessor Mode
9. 22.9 Address-Bit Multiprocessor Mode
  1. 22.9.1 Sending an Address
10. 22.10 SCI Communication Format
  1. 22.10.1 Receiver Signals in Communication Modes
  2. 22.10.2 Transmitter Signals in Communication Modes
11. 22.11 SCI Port Interrupts
  1. 22.11.1 Break Detect
12. 22.12 SCI Baud Rate Calculations
13. 22.13 SCI Enhanced Features
14. 22.14 Software
  1. 22.14.1 SCI Registers to Driverlib Functions
  2. 22.14.2 SCI Examples
15. 22.15 SCI Registers
  1. 22.15.1 SCI Base Address Table
  2. 22.15.2 SCI_REGS Registers
23Universal Serial Bus (USB) Controller
1. 23.1 Introduction
2. 23.2 Functional Description
3. 23.3 Initialization and Configuration
  1. 23.3.1 Pin Configuration
  2. 23.3.2 Endpoint Configuration
4. 23.4 USB Global Interrupts
5. 23.5 Software
  1. 23.5.1 USB Examples
6. 23.6 USB Registers
  1. 23.6.1 USB Base Address Table
  2. 23.6.2 USB_REGS Registers
24Fast Serial Interface (FSI)
1. 24.1 Introduction
  1. 24.1.1 FSI Related Collateral
  2. 24.1.2 FSI Features
2. 24.2 System-level Integration
3. 24.3 FSI Functional Description
4. 24.4 FSI Programing Guide
5. 24.5 Software
  1. 24.5.1 FSI Registers to Driverlib Functions
  2. 24.5.2 FSI Examples
6. 24.6 FSI Registers
25Inter-Integrated Circuit Module (I2C)
1. 25.1 Introduction
2. 25.2 Configuring Device Pins
3. 25.3 I2C Module Operational Details
4. 25.4 Interrupt Requests Generated by the I2C Module
  1. 25.4.1 Basic I2C Interrupt Requests
  2. 25.4.2 I2C FIFO Interrupts
5. 25.5 Resetting or Disabling the I2C Module
6. 25.6 Software
  1. 25.6.1 I2C Registers to Driverlib Functions
  2. 25.6.2 I2C Examples
7. 25.7 I2C Registers
  1. 25.7.1 I2C Base Address Table
  2. 25.7.2 I2C_REGS Registers
26Power Management Bus Module (PMBus)
1. 26.1 Introduction
2. 26.2 Configuring Device Pins
3. 26.3 Target Mode Operation
  1. 26.3.1 Configuration
  2. 26.3.2 Message Handling
4. 26.4 Controller Mode Operation
  1. 26.4.1 Configuration
  2. 26.4.2 Message Handling
5. 26.5 Software
  1. 26.5.1 PMBUS Registers to Driverlib Functions
6. 26.6 PMBUS Registers
  1. 26.6.1 PMBUS Base Address Table
  2. 26.6.2 PMBUS_REGS Registers
27Modular Controller Area Network (MCAN)
1. 27.1 MCAN Introduction
  1. 27.1.1 MCAN Related Collateral
  2. 27.1.2 MCAN Features
2. 27.2 MCAN Environment
3. 27.3 CAN Network Basics
4. 27.4 MCAN Integration
5. 27.5 MCAN Functional Description
6. 27.6 Software
  1. 27.6.1 MCAN Registers to Driverlib Functions
  2. 27.6.2 MCAN Examples
7. 27.7 MCAN Registers
28Local Interconnect Network (LIN)
1. 28.1 Introduction
2. 28.2 Serial Communications Interface Module
3. 28.3 Local Interconnect Network Module
4. 28.4 Low-Power Mode
5. 28.5 Emulation Mode
6. 28.6 Software
  1. 28.6.1 LIN Registers to Driverlib Functions
  2. 28.6.2 LIN Examples
7. 28.7 LIN Registers
  1. 28.7.1 LIN Base Address Table
  2. 28.7.2 LIN_REGS Registers
29Configurable Logic Block (CLB)
1. 29.1 Introduction
  1. 29.1.1 CLB Related Collateral
2. 29.2 Description
  1. 29.2.1 CLB Clock
3. 29.3 CLB Input/Output Connection
4. 29.4 CLB Tile
5. 29.5 CPU Interface
  1. 29.5.1 Register Description
  2. 29.5.2 Non-Memory Mapped Registers
6. 29.6 DMA Access
7. 29.7 CLB Data Export Through SPI RX Buffer
8. 29.8 Software
9. 29.9 CLB Registers
30Advanced Encryption Standard (AES) Accelerator
1. 30.1 Introduction
  1. 30.1.1 AES Block Diagram
  2. 30.1.2 AES Algorithm
2. 30.2 AES Operating Modes
3. 30.3 Extended and Combined Modes of Operations
4. 30.4 AES Module Programming Guide
  1. 30.4.1 AES Low-Level Programming Models
5. 30.5 Software
6. 30.6 AES Registers
31Embedded Pattern Generator (EPG)
1. 31.1 Introduction
2. 31.2 Clock Generator Modules
  1. 31.2.1 DCLK (50% duty cycle clock)
  2. 31.2.2 Clock Stop
3. 31.3 Signal Generator Module
4. 31.4 EPG Peripheral Signal Mux Selection
5. 31.5 Application Software Notes
6. 31.6 EPG Example Use Cases
7. 31.7 EPG Interrupt
8. 31.8 Software
  1. 31.8.1 EPG Registers to Driverlib Functions
  2. 31.8.2 EPG Examples
9. 31.9 EPG Registers
32Revision History

29.9.2 CLB_LOGIC_CONFIG_REGS Registers

Table 29-21 lists the memory-mapped registers for the CLB_LOGIC_CONFIG_REGS registers. All register offset addresses not listed in Table 29-21 should be considered as reserved locations and the register contents should not be modified.

Table 29-21 CLB_LOGIC_CONFIG_REGS Registers

Offset	Acronym	Register Name	Write Protection	Section
2h	CLB_COUNT_RESET	Counter Block RESET	EALLOW, LOCK	Go
4h	CLB_COUNT_MODE_1	Counter Block MODE_1	EALLOW, LOCK	Go
6h	CLB_COUNT_MODE_0	Counter Block MODE_0	EALLOW, LOCK	Go
8h	CLB_COUNT_EVENT	Counter Block EVENT	EALLOW, LOCK	Go
Ah	CLB_FSM_EXTRA_IN0	FSM Extra EXT_IN0	EALLOW, LOCK	Go
Ch	CLB_FSM_EXTERNAL_IN0	FSM EXT_IN0	EALLOW, LOCK	Go
Eh	CLB_FSM_EXTERNAL_IN1	FSM_EXT_IN1	EALLOW, LOCK	Go
10h	CLB_FSM_EXTRA_IN1	FSM Extra_EXT_IN1	EALLOW, LOCK	Go
12h	CLB_LUT4_IN0	LUT4_0/1/2 IN0 input source	EALLOW, LOCK	Go
14h	CLB_LUT4_IN1	LUT4_0/1/2 IN1 input source	EALLOW, LOCK	Go
16h	CLB_LUT4_IN2	LUT4_0/1/2 IN2 input source	EALLOW, LOCK	Go
18h	CLB_LUT4_IN3	LUT4_0/1/2 IN3 input source	EALLOW, LOCK	Go
1Ch	CLB_FSM_LUT_FN1_0	LUT function for FSM Unit 1 and Unit 0	EALLOW, LOCK	Go
1Eh	CLB_FSM_LUT_FN2	LUT function for FSM Unit 2	EALLOW, LOCK	Go
20h	CLB_LUT4_FN1_0	LUT function for LUT4 block of Unit 1 and 0	EALLOW, LOCK	Go
22h	CLB_LUT4_FN2	LUT function for LUT4 block of Unit 2	EALLOW, LOCK	Go
24h	CLB_FSM_NEXT_STATE_0	FSM Next state equations for Unit 0	EALLOW, LOCK	Go
26h	CLB_FSM_NEXT_STATE_1	FSM Next state equations for Unit 1	EALLOW, LOCK	Go
28h	CLB_FSM_NEXT_STATE_2	FSM Next state equations for Unit 2	EALLOW, LOCK	Go
2Ah	CLB_MISC_CONTROL	Static controls for Ctr,FSM	EALLOW, LOCK	Go
2Ch	CLB_OUTPUT_LUT_0	Inp Sel, LUT fns for Out0	EALLOW, LOCK	Go
2Eh	CLB_OUTPUT_LUT_1	Inp Sel, LUT fns for Out1	EALLOW, LOCK	Go
30h	CLB_OUTPUT_LUT_2	Inp Sel, LUT fns for Out2	EALLOW, LOCK	Go
32h	CLB_OUTPUT_LUT_3	Inp Sel, LUT fns for Out3	EALLOW, LOCK	Go
34h	CLB_OUTPUT_LUT_4	Inp Sel, LUT fns for Out4	EALLOW, LOCK	Go
36h	CLB_OUTPUT_LUT_5	Inp Sel, LUT fns for Out5	EALLOW, LOCK	Go
38h	CLB_OUTPUT_LUT_6	Inp Sel, LUT fns for Out6	EALLOW, LOCK	Go
3Ah	CLB_OUTPUT_LUT_7	Inp Sel, LUT fns for Out7	EALLOW, LOCK	Go
3Ch	CLB_HLC_EVENT_SEL	Event Selector register for the High Level controller	EALLOW, LOCK	Go
3Eh	CLB_COUNT_MATCH_TAP_SEL	Counter tap values for match1 and match2 outputs	EALLOW, LOCK	Go
40h	CLB_OUTPUT_COND_CTRL_0	Output conditioning control for output 0	EALLOW, LOCK	Go
42h	CLB_OUTPUT_COND_CTRL_1	Output conditioning control for output 1	EALLOW, LOCK	Go
44h	CLB_OUTPUT_COND_CTRL_2	Output conditioning control for output 2	EALLOW, LOCK	Go
46h	CLB_OUTPUT_COND_CTRL_3	Output conditioning control for output 3	EALLOW, LOCK	Go
48h	CLB_OUTPUT_COND_CTRL_4	Output conditioning control for output 4	EALLOW, LOCK	Go
4Ah	CLB_OUTPUT_COND_CTRL_5	Output conditioning control for output 5	EALLOW, LOCK	Go
4Ch	CLB_OUTPUT_COND_CTRL_6	Output conditioning control for output 6	EALLOW, LOCK	Go
4Eh	CLB_OUTPUT_COND_CTRL_7	Output conditioning control for output 7	EALLOW, LOCK	Go
50h	CLB_MISC_ACCESS_CTRL	Miscellaneous Access and enable control	EALLOW, LOCK	Go
51h	CLB_SPI_DATA_CTRL_HI	CLB to SPI buffer control High	EALLOW, LOCK	Go

Complex bit access types are encoded to fit into small table cells. Table 29-22 shows the codes that are used for access types in this section.

Table 29-22 CLB_LOGIC_CONFIG_REGS Access Type Codes

Access Type	Code	Description
Read Type
R	R	Read
R-0	R -0	Read Returns 0s
Write Type
W	W	Write
W1C	W 1C	Write 1 to clear
Reset or Default Value
-n		Value after reset or the default value
Register Array Variables
i,j,k,l,m,n		When these variables are used in a register name, an offset, or an address, they refer to the value of a register array where the register is part of a group of repeating registers. The register groups form a hierarchical structure and the array is represented with a formula.
y		When this variable is used in a register name, an offset, or an address it refers to the value of a register array.

29.9.2.1 CLB_COUNT_RESET Register (Offset = 2h) [Reset = 00000000h]

CLB_COUNT_RESET is shown in Figure 29-22 and described in Table 29-23.

Return to the Summary Table.

Counter Block RESET

Figure 29-22 CLB_COUNT_RESET Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																	SEL_2					SEL_1					SEL_0
R/W1C-0h																	R/W-0h					R/W-0h					R/W-0h

Table 29-23 CLB_COUNT_RESET Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14-10	SEL_2	R/W	0h	Counter reset select inputs for unit 2. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	SEL_1	R/W	0h	Counter reset select inputs for unit 1. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	SEL_0	R/W	0h	Counter reset select inputs for unit 0. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.2 CLB_COUNT_MODE_1 Register (Offset = 4h) [Reset = 00000000h]

CLB_COUNT_MODE_1 is shown in Figure 29-23 and described in Table 29-24.

Return to the Summary Table.

Counter Block MODE_1

Figure 29-23 CLB_COUNT_MODE_1 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																	SEL_2					SEL_1					SEL_0
R/W1C-0h																	R/W-0h					R/W-0h					R/W-0h

Table 29-24 CLB_COUNT_MODE_1 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14-10	SEL_2	R/W	0h	Counter MODE_1 select inputs for unit 2. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	SEL_1	R/W	0h	Counter MODE_1 select inputs for unit 1. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	SEL_0	R/W	0h	Counter MODE_1 select inputs for unit 0. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.3 CLB_COUNT_MODE_0 Register (Offset = 6h) [Reset = 00000000h]

CLB_COUNT_MODE_0 is shown in Figure 29-24 and described in Table 29-25.

Return to the Summary Table.

Counter Block MODE_0

Figure 29-24 CLB_COUNT_MODE_0 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																	SEL_2					SEL_1					SEL_0
R/W1C-0h																	R/W-0h					R/W-0h					R/W-0h

Table 29-25 CLB_COUNT_MODE_0 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14-10	SEL_2	R/W	0h	Counter MODE_0 select inputs for unit 2. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	SEL_1	R/W	0h	Counter MODE_0 select inputs for unit 1. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	SEL_0	R/W	0h	Counter MODE_0 select inputs for unit 0. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.4 CLB_COUNT_EVENT Register (Offset = 8h) [Reset = 00000000h]

CLB_COUNT_EVENT is shown in Figure 29-25 and described in Table 29-26.

Return to the Summary Table.

Counter Block EVENT

Figure 29-25 CLB_COUNT_EVENT Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																	SEL_2					SEL_1					SEL_0
R/W1C-0h																	R/W-0h					R/W-0h					R/W-0h

Table 29-26 CLB_COUNT_EVENT Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14-10	SEL_2	R/W	0h	Counter event select inputs for unit 2. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	SEL_1	R/W	0h	Counter event select inputs for unit 1. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	SEL_0	R/W	0h	Counter event select inputs for unit 0. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.5 CLB_FSM_EXTRA_IN0 Register (Offset = Ah) [Reset = 00000000h]

CLB_FSM_EXTRA_IN0 is shown in Figure 29-26 and described in Table 29-27.

Return to the Summary Table.

FSM Extra EXT_IN0

Figure 29-26 CLB_FSM_EXTRA_IN0 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																	SEL_2					SEL_1					SEL_0
R/W1C-0h																	R/W-0h					R/W-0h					R/W-0h

Table 29-27 CLB_FSM_EXTRA_IN0 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14-10	SEL_2	R/W	0h	FSM block extra external IN0 select inputs for unit 2. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	SEL_1	R/W	0h	FSM block extra external IN0 select inputs for unit 1. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	SEL_0	R/W	0h	FSM block extra external IN0 select inputs for unit 0. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.6 CLB_FSM_EXTERNAL_IN0 Register (Offset = Ch) [Reset = 00000000h]

CLB_FSM_EXTERNAL_IN0 is shown in Figure 29-27 and described in Table 29-28.

Return to the Summary Table.

FSM EXT_IN0

Figure 29-27 CLB_FSM_EXTERNAL_IN0 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																	SEL_2					SEL_1					SEL_0
R/W1C-0h																	R/W-0h					R/W-0h					R/W-0h

Table 29-28 CLB_FSM_EXTERNAL_IN0 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14-10	SEL_2	R/W	0h	FSM block EXT_IN0 select input for unit 2. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	SEL_1	R/W	0h	FSM block EXT_IN0 select input for unit 1. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	SEL_0	R/W	0h	FSM block EXT_IN0 select input for unit 0. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.7 CLB_FSM_EXTERNAL_IN1 Register (Offset = Eh) [Reset = 00000000h]

CLB_FSM_EXTERNAL_IN1 is shown in Figure 29-28 and described in Table 29-29.

Return to the Summary Table.

FSM_EXT_IN1

Figure 29-28 CLB_FSM_EXTERNAL_IN1 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																	SEL_2					SEL_1					SEL_0
R/W1C-0h																	R/W-0h					R/W-0h					R/W-0h

Table 29-29 CLB_FSM_EXTERNAL_IN1 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14-10	SEL_2	R/W	0h	FSM block EXT_IN1 select input for unit 2. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	SEL_1	R/W	0h	FSM block EXT_IN1 select input for unit 1. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	SEL_0	R/W	0h	FSM block EXT_IN1 select input for unit 0. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.8 CLB_FSM_EXTRA_IN1 Register (Offset = 10h) [Reset = 00000000h]

CLB_FSM_EXTRA_IN1 is shown in Figure 29-29 and described in Table 29-30.

Return to the Summary Table.

FSM Extra_EXT_IN1

Figure 29-29 CLB_FSM_EXTRA_IN1 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																	SEL_2					SEL_1					SEL_0
R/W1C-0h																	R/W-0h					R/W-0h					R/W-0h

Table 29-30 CLB_FSM_EXTRA_IN1 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14-10	SEL_2	R/W	0h	FSM block extra external IN1 select inputs for unit 2. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	SEL_1	R/W	0h	FSM block extra external IN1 select inputs for unit 1. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	SEL_0	R/W	0h	FSM block extra external IN1 select inputs for unit 0. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.9 CLB_LUT4_IN0 Register (Offset = 12h) [Reset = 00000000h]

CLB_LUT4_IN0 is shown in Figure 29-30 and described in Table 29-31.

Return to the Summary Table.

LUT4_0/1/2 IN0 input source

Figure 29-30 CLB_LUT4_IN0 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																	SEL_2					SEL_1					SEL_0
R/W1C-0h																	R/W-0h					R/W-0h					R/W-0h

Table 29-31 CLB_LUT4_IN0 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14-10	SEL_2	R/W	0h	LUT4 block IN0 select inputs for unit 2. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	SEL_1	R/W	0h	LUT4 block IN0 select inputs for unit 1. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	SEL_0	R/W	0h	LUT4 block IN0 select inputs for unit 0. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.10 CLB_LUT4_IN1 Register (Offset = 14h) [Reset = 00000000h]

CLB_LUT4_IN1 is shown in Figure 29-31 and described in Table 29-32.

Return to the Summary Table.

LUT4_0/1/2 IN1 input source

Figure 29-31 CLB_LUT4_IN1 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																	SEL_2					SEL_1					SEL_0
R/W1C-0h																	R/W-0h					R/W-0h					R/W-0h

Table 29-32 CLB_LUT4_IN1 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14-10	SEL_2	R/W	0h	LUT4 block IN1 select inputs for unit 2. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	SEL_1	R/W	0h	LUT4 block IN1 select inputs for unit 1. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	SEL_0	R/W	0h	LUT4 block IN1 select inputs for unit 0. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.11 CLB_LUT4_IN2 Register (Offset = 16h) [Reset = 00000000h]

CLB_LUT4_IN2 is shown in Figure 29-32 and described in Table 29-33.

Return to the Summary Table.

LUT4_0/1/2 IN2 input source

Figure 29-32 CLB_LUT4_IN2 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																	SEL_2					SEL_1					SEL_0
R/W1C-0h																	R/W-0h					R/W-0h					R/W-0h

Table 29-33 CLB_LUT4_IN2 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14-10	SEL_2	R/W	0h	LUT4 block IN2 select inputs for unit 2. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	SEL_1	R/W	0h	LUT4 block IN2 select inputs for unit 1. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	SEL_0	R/W	0h	LUT4 block IN2 select inputs for unit 0. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.12 CLB_LUT4_IN3 Register (Offset = 18h) [Reset = 00000000h]

CLB_LUT4_IN3 is shown in Figure 29-33 and described in Table 29-34.

Return to the Summary Table.

LUT4_0/1/2 IN3 input source

Figure 29-33 CLB_LUT4_IN3 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																	SEL_2					SEL_1					SEL_0
R/W1C-0h																	R/W-0h					R/W-0h					R/W-0h

Table 29-34 CLB_LUT4_IN3 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14-10	SEL_2	R/W	0h	LUT4 block IN3 select inputs for unit 2. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	SEL_1	R/W	0h	LUT4 block IN3 select inputs for unit 1. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	SEL_0	R/W	0h	LUT4 block IN3 select inputs for unit 0. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.13 CLB_FSM_LUT_FN1_0 Register (Offset = 1Ch) [Reset = 00000000h]

CLB_FSM_LUT_FN1_0 is shown in Figure 29-34 and described in Table 29-35.

Return to the Summary Table.

LUT function for FSM Unit 1 and Unit 0

Figure 29-34 CLB_FSM_LUT_FN1_0 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
FN1																FN0
R/W-0h																R/W-0h

Table 29-35 CLB_FSM_LUT_FN1_0 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	FN1	R/W	0h	FSM block LUT output function for unit 1 Reset type: SYSRSn
15-0	FN0	R/W	0h	FSM block LUT output function for unit 0 Reset type: SYSRSn

29.9.2.14 CLB_FSM_LUT_FN2 Register (Offset = 1Eh) [Reset = 00000000h]

CLB_FSM_LUT_FN2 is shown in Figure 29-35 and described in Table 29-36.

Return to the Summary Table.

LUT function for FSM Unit 2

Figure 29-35 CLB_FSM_LUT_FN2 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																FN1
R/W1C-0h																R/W-0h

Table 29-36 CLB_FSM_LUT_FN2 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W1C	0h	Reserved
15-0	FN1	R/W	0h	LUT4 output function for unit 2 Reset type: SYSRSn

29.9.2.15 CLB_LUT4_FN1_0 Register (Offset = 20h) [Reset = 00000000h]

CLB_LUT4_FN1_0 is shown in Figure 29-36 and described in Table 29-37.

Return to the Summary Table.

LUT function for LUT4 block of Unit 1 and 0

Figure 29-36 CLB_LUT4_FN1_0 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
FN1																FN0
R/W-0h																R/W-0h

Table 29-37 CLB_LUT4_FN1_0 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	FN1	R/W	0h	LUT4 output function for unit 1 Reset type: SYSRSn
15-0	FN0	R/W	0h	LUT4 output function for unit 0 Reset type: SYSRSn

29.9.2.16 CLB_LUT4_FN2 Register (Offset = 22h) [Reset = 00000000h]

CLB_LUT4_FN2 is shown in Figure 29-37 and described in Table 29-38.

Return to the Summary Table.

LUT function for LUT4 block of Unit 2

Figure 29-37 CLB_LUT4_FN2 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED																FN1
R/W1C-0h																R/W-0h

Table 29-38 CLB_LUT4_FN2 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	RESERVED	R/W1C	0h	Reserved
15-0	FN1	R/W	0h	LUT4 output function for unit 2 Reset type: SYSRSn

29.9.2.17 CLB_FSM_NEXT_STATE_0 Register (Offset = 24h) [Reset = 00000000h]

CLB_FSM_NEXT_STATE_0 is shown in Figure 29-38 and described in Table 29-39.

Return to the Summary Table.

FSM Next state equations for Unit 0

Figure 29-38 CLB_FSM_NEXT_STATE_0 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
S1																S0
R/W-0h																R/W-0h

Table 29-39 CLB_FSM_NEXT_STATE_0 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	S1	R/W	0h	FSM next state function for S1, unit0 Reset type: SYSRSn
15-0	S0	R/W	0h	FSM next state function for S0, unit0 Reset type: SYSRSn

29.9.2.18 CLB_FSM_NEXT_STATE_1 Register (Offset = 26h) [Reset = 00000000h]

CLB_FSM_NEXT_STATE_1 is shown in Figure 29-39 and described in Table 29-40.

Return to the Summary Table.

FSM Next state equations for Unit 1

Figure 29-39 CLB_FSM_NEXT_STATE_1 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
S1																S0
R/W-0h																R/W-0h

Table 29-40 CLB_FSM_NEXT_STATE_1 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	S1	R/W	0h	FSM next state function for S1, unit1 Reset type: SYSRSn
15-0	S0	R/W	0h	FSM next state function for S0, unit1 Reset type: SYSRSn

29.9.2.19 CLB_FSM_NEXT_STATE_2 Register (Offset = 28h) [Reset = 00000000h]

CLB_FSM_NEXT_STATE_2 is shown in Figure 29-40 and described in Table 29-41.

Return to the Summary Table.

FSM Next state equations for Unit 2

Figure 29-40 CLB_FSM_NEXT_STATE_2 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
S1																S0
R/W-0h																R/W-0h

Table 29-41 CLB_FSM_NEXT_STATE_2 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-16	S1	R/W	0h	FSM next state function for S1, unit2 Reset type: SYSRSn
15-0	S0	R/W	0h	FSM next state function for S0, unit2 Reset type: SYSRSn

29.9.2.20 CLB_MISC_CONTROL Register (Offset = 2Ah) [Reset = 00000000h]

CLB_MISC_CONTROL is shown in Figure 29-41 and described in Table 29-42.

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Static controls for Ctr,FSM

Figure 29-41 CLB_MISC_CONTROL Register

31	30	29	28	27	26	25	24
RESERVED					COUNT2_LFSR_EN	COUNT1_LFSR_EN	COUNT0_LFSR_EN
R-0-0h					R/W-0h	R/W-0h	R/W-0h

23	22	21	20	19	18	17	16
COUNT2_MATCH2_TAP_EN	COUNT1_MATCH2_TAP_EN	COUNT0_MATCH2_TAP_EN	COUNT2_MATCH1_TAP_EN	COUNT1_MATCH1_TAP_EN	COUNT0_MATCH1_TAP_EN	FSM_EXTRA_SEL1_2	FSM_EXTRA_SEL0_2
R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

15	14	13	12	11	10	9	8
FSM_EXTRA_SEL1_1	FSM_EXTRA_SEL0_1	FSM_EXTRA_SEL1_0	FSM_EXTRA_SEL0_0	COUNT_SERIALIZER_2	COUNT_SERIALIZER_1	COUNT_SERIALIZER_0	COUNT_EVENT_CTRL_2
R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

7	6	5	4	3	2	1	0
COUNT_DIR_2	COUNT_ADD_SHIFT_2	COUNT_EVENT_CTRL_1	COUNT_DIR_1	COUNT_ADD_SHIFT_1	COUNT_EVENT_CTRL_0	COUNT_DIR_0	COUNT_ADD_SHIFT_0
R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

Table 29-42 CLB_MISC_CONTROL Register Field Descriptions

Bit	Field	Type	Reset	Description
31-27	RESERVED	R-0	0h	Reserved
26	COUNT2_LFSR_EN	R/W	0h	Defines if Counter 2 should operate in LFSR mode. This should be set to 1 only if it is in the SERIALIZER mode. 0 = Selects normal serializer operation 1 = Selects LFSR mode of operation Reset type: SYSRSn
25	COUNT1_LFSR_EN	R/W	0h	Defines if Counter 1 should operate in LFSR mode. This should be set to 1 only if it is in the SERIALIZER mode. 0 = Selects normal serializer operation 1 = Selects LFSR mode of operation Reset type: SYSRSn
24	COUNT0_LFSR_EN	R/W	0h	Defines if Counter 0 should operate in LFSR mode. This should be set to 1 only if it is in the SERIALIZER mode. 0 = Selects normal serializer operation 1 = Selects LFSR mode of operation Reset type: SYSRSn
23	COUNT2_MATCH2_TAP_EN	R/W	0h	Defines if the Match2 output should come from the match unit or tapped from a bit position of the counter 0 = Selects Match2 comaprison output 1 = Selects Bit position defined by Match2_Tap_val Reset type: SYSRSn
22	COUNT1_MATCH2_TAP_EN	R/W	0h	Defines if the Match2 output should come from the match unit or tapped from a bit position of the counter 0 = Selects Match2 comaprison output 1 = Selects Bit position defined by Match2_Tap_val Reset type: SYSRSn
21	COUNT0_MATCH2_TAP_EN	R/W	0h	Defines if the Match2 output should come from the match unit or tapped from a bit position of the counter 0 = Selects Match2 comaprison output 1 = Selects Bit position defined by Match2_Tap_val Reset type: SYSRSn
20	COUNT2_MATCH1_TAP_EN	R/W	0h	Defines if the Match1 output should come from the match unit or tapped from a bit position of the counter 0 = Selects Match1 comaprison output 1 = Selects Bit position defined by Match1_Tap_val Reset type: SYSRSn
19	COUNT1_MATCH1_TAP_EN	R/W	0h	Defines if the Match1 output should come from the match unit or tapped from a bit position of the counter 0 = Selects Match1 comaprison output 1 = Selects Bit position defined by Match1_Tap_val Reset type: SYSRSn
18	COUNT0_MATCH1_TAP_EN	R/W	0h	Defines if the Match1 output should come from the match unit or tapped from a bit position of the counter 0 = Selects Match1 comaprison output 1 = Selects Bit position defined by Match1_Tap_val Reset type: SYSRSn
17	FSM_EXTRA_SEL1_2	R/W	0h	Defines which input should be selected for the FSM LUT of UNIT 2 0 = Selects State S1 for the FSM LUT 1 = Selects EXTRA_EXT_IN1 for the FSM LUT Reset type: SYSRSn
16	FSM_EXTRA_SEL0_2	R/W	0h	Defines which input should be selected for the FSM LUT of UNIT 2 0 = Selects State S0 for the FSM LUT 1 = Selects EXTRA_EXT_IN0 for the FSM LUT Reset type: SYSRSn
15	FSM_EXTRA_SEL1_1	R/W	0h	Defines which input should be selected for the FSM LUT of UNIT 1 0 = Selects State S1 for the FSM LUT 1 = Selects EXTRA_EXT_IN1 for the FSM LUT Reset type: SYSRSn
14	FSM_EXTRA_SEL0_1	R/W	0h	Defines which input should be selected for the FSM LUT of UNIT 1 0 = Selects State S0 for the FSM LUT 1 = Selects EXTRA_EXT_IN0 for the FSM LUT Reset type: SYSRSn
13	FSM_EXTRA_SEL1_0	R/W	0h	Defines which input should be selected for the FSM LUT of UNIT 0 0 = Selects State S1 for the FSM LUT 1 = Selects EXTRA_EXT_IN1 for the FSM LUT Reset type: SYSRSn
12	FSM_EXTRA_SEL0_0	R/W	0h	Defines which input should be selected for the FSM LUT of UNIT 0 0 = Selects State S0 for the FSM LUT 1 = Selects EXTRA_EXT_IN0 for the FSM LUT Reset type: SYSRSn
11	COUNT_SERIALIZER_2	R/W	0h	Controls if the Counter of UNIT 2 is the Serialzer mode or not. 0 = Normal mode 1 = Serializer mode Reset type: SYSRSn
10	COUNT_SERIALIZER_1	R/W	0h	Controls if the Counter of UNIT 1 is the Serialzer mode or not. 0 = Normal mode 1 = Serializer mode Reset type: SYSRSn
9	COUNT_SERIALIZER_0	R/W	0h	Controls if the Counter of UNIT 0 is the Serialzer mode or not. 0 = Normal mode 1 = Serializer mode Reset type: SYSRSn
8	COUNT_EVENT_CTRL_2	R/W	0h	Controls the actions on an EVENT for UNIT2. Must be 0 for indirect loads and HLC loads of the counter to take effect. 0 = No add or shift, but load the predefined value 1 = Based on other bits, add/shift with the predefined value Reset type: SYSRSn
7	COUNT_DIR_2	R/W	0h	Controls add/shift direction for UNIT 2 0 = right shift or subtract 1 = left shift or add Reset type: SYSRSn
6	COUNT_ADD_SHIFT_2	R/W	0h	Controls whether the UNIT 2 counter will do an ADD or a SHIFT on an EVENT. 0 =Shift 1 = ADD Reset type: SYSRSn
5	COUNT_EVENT_CTRL_1	R/W	0h	Controls the actions on an EVENT for UNIT1. Must be 0 for indirect loads and HLC loads of the counter to take effect. 0 = No add or shift, but load the predefined value 1 = Based on other bits, add/shift with the predefined value Reset type: SYSRSn
4	COUNT_DIR_1	R/W	0h	Controls add/shift direction for UNIT 1 0 = right shift or subtract 1 = left shift or add Reset type: SYSRSn
3	COUNT_ADD_SHIFT_1	R/W	0h	Controls whether the UNIT 1 counter will do an ADD or a SHIFT on an EVENT. 0 = Shift 1 = ADD Reset type: SYSRSn
2	COUNT_EVENT_CTRL_0	R/W	0h	Controls the actions on an EVENT for UNIT1. Must be 0 for indirect loads and HLC loads of the counter to take effect. 0 = No add or shift, but load the predefined value 1 = Based on other bits, add/shift with the predefined value Reset type: SYSRSn
1	COUNT_DIR_0	R/W	0h	Controls add/shift direction for UNIT 0 0 = right shift or subtract 1 = left shift or add Reset type: SYSRSn
0	COUNT_ADD_SHIFT_0	R/W	0h	Controls whether the UNIT 0 counter will do an ADD or a SHIFT on an EVENT. 0 = Shift 1 = ADD Reset type: SYSRSn

29.9.2.21 CLB_OUTPUT_LUT_0 Register (Offset = 2Ch) [Reset = 00000000h]

CLB_OUTPUT_LUT_0 is shown in Figure 29-42 and described in Table 29-43.

Return to the Summary Table.

Inp Sel, LUT fns for Out0

Figure 29-42 CLB_OUTPUT_LUT_0 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED									FN								IN2					IN1					IN0
R/W1C-0h									R/W-0h								R/W-0h					R/W-0h					R/W-0h

Table 29-43 CLB_OUTPUT_LUT_0 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-23	RESERVED	R/W1C	0h	Reserved
22-15	FN	R/W	0h	Output function for output LUT Reset type: SYSRSn
14-10	IN2	R/W	0h	Select value for IN2 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	IN1	R/W	0h	Select value for IN1 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	IN0	R/W	0h	Select value for IN0 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.22 CLB_OUTPUT_LUT_1 Register (Offset = 2Eh) [Reset = 00000000h]

CLB_OUTPUT_LUT_1 is shown in Figure 29-43 and described in Table 29-44.

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Inp Sel, LUT fns for Out1

Figure 29-43 CLB_OUTPUT_LUT_1 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED									FN								IN2					IN1					IN0
R/W1C-0h									R/W-0h								R/W-0h					R/W-0h					R/W-0h

Table 29-44 CLB_OUTPUT_LUT_1 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-23	RESERVED	R/W1C	0h	Reserved
22-15	FN	R/W	0h	Output function for output LUT Reset type: SYSRSn
14-10	IN2	R/W	0h	Select value for IN2 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	IN1	R/W	0h	Select value for IN1 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	IN0	R/W	0h	Select value for IN0 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.23 CLB_OUTPUT_LUT_2 Register (Offset = 30h) [Reset = 00000000h]

CLB_OUTPUT_LUT_2 is shown in Figure 29-44 and described in Table 29-45.

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Inp Sel, LUT fns for Out2

Figure 29-44 CLB_OUTPUT_LUT_2 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED									FN								IN2					IN1					IN0
R/W1C-0h									R/W-0h								R/W-0h					R/W-0h					R/W-0h

Table 29-45 CLB_OUTPUT_LUT_2 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-23	RESERVED	R/W1C	0h	Reserved
22-15	FN	R/W	0h	Output function for output LUT Reset type: SYSRSn
14-10	IN2	R/W	0h	Select value for IN2 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	IN1	R/W	0h	Select value for IN1 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	IN0	R/W	0h	Select value for IN0 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.24 CLB_OUTPUT_LUT_3 Register (Offset = 32h) [Reset = 00000000h]

CLB_OUTPUT_LUT_3 is shown in Figure 29-45 and described in Table 29-46.

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Inp Sel, LUT fns for Out3

Figure 29-45 CLB_OUTPUT_LUT_3 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED									FN								IN2					IN1					IN0
R/W1C-0h									R/W-0h								R/W-0h					R/W-0h					R/W-0h

Table 29-46 CLB_OUTPUT_LUT_3 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-23	RESERVED	R/W1C	0h	Reserved
22-15	FN	R/W	0h	Output function for output LUT Reset type: SYSRSn
14-10	IN2	R/W	0h	Select value for IN2 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	IN1	R/W	0h	Select value for IN1 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	IN0	R/W	0h	Select value for IN0 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.25 CLB_OUTPUT_LUT_4 Register (Offset = 34h) [Reset = 00000000h]

CLB_OUTPUT_LUT_4 is shown in Figure 29-46 and described in Table 29-47.

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Inp Sel, LUT fns for Out4

Figure 29-46 CLB_OUTPUT_LUT_4 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED									FN								IN2					IN1					IN0
R/W1C-0h									R/W-0h								R/W-0h					R/W-0h					R/W-0h

Table 29-47 CLB_OUTPUT_LUT_4 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-23	RESERVED	R/W1C	0h	Reserved
22-15	FN	R/W	0h	Output function for output LUT Reset type: SYSRSn
14-10	IN2	R/W	0h	Select value for IN2 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	IN1	R/W	0h	Select value for IN1 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	IN0	R/W	0h	Select value for IN0 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.26 CLB_OUTPUT_LUT_5 Register (Offset = 36h) [Reset = 00000000h]

CLB_OUTPUT_LUT_5 is shown in Figure 29-47 and described in Table 29-48.

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Inp Sel, LUT fns for Out5

Figure 29-47 CLB_OUTPUT_LUT_5 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED									FN								IN2					IN1					IN0
R/W1C-0h									R/W-0h								R/W-0h					R/W-0h					R/W-0h

Table 29-48 CLB_OUTPUT_LUT_5 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-23	RESERVED	R/W1C	0h	Reserved
22-15	FN	R/W	0h	Output function for output LUT Reset type: SYSRSn
14-10	IN2	R/W	0h	Select value for IN2 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	IN1	R/W	0h	Select value for IN1 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	IN0	R/W	0h	Select value for IN0 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.27 CLB_OUTPUT_LUT_6 Register (Offset = 38h) [Reset = 00000000h]

CLB_OUTPUT_LUT_6 is shown in Figure 29-48 and described in Table 29-49.

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Inp Sel, LUT fns for Out6

Figure 29-48 CLB_OUTPUT_LUT_6 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED									FN								IN2					IN1					IN0
R/W1C-0h									R/W-0h								R/W-0h					R/W-0h					R/W-0h

Table 29-49 CLB_OUTPUT_LUT_6 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-23	RESERVED	R/W1C	0h	Reserved
22-15	FN	R/W	0h	Output function for output LUT Reset type: SYSRSn
14-10	IN2	R/W	0h	Select value for IN2 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	IN1	R/W	0h	Select value for IN1 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	IN0	R/W	0h	Select value for IN0 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.28 CLB_OUTPUT_LUT_7 Register (Offset = 3Ah) [Reset = 00000000h]

CLB_OUTPUT_LUT_7 is shown in Figure 29-49 and described in Table 29-50.

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Inp Sel, LUT fns for Out7

Figure 29-49 CLB_OUTPUT_LUT_7 Register

31	30	29	28	27	26	25	24	23	22	21	20	19	18	17	16	15	14	13	12	11	10	9	8	7	6	5	4	3	2	1	0
RESERVED									FN								IN2					IN1					IN0
R/W1C-0h									R/W-0h								R/W-0h					R/W-0h					R/W-0h

Table 29-50 CLB_OUTPUT_LUT_7 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-23	RESERVED	R/W1C	0h	Reserved
22-15	FN	R/W	0h	Output function for output LUT Reset type: SYSRSn
14-10	IN2	R/W	0h	Select value for IN2 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	IN1	R/W	0h	Select value for IN1 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	IN0	R/W	0h	Select value for IN0 of output LUT. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.29 CLB_HLC_EVENT_SEL Register (Offset = 3Ch) [Reset = 00000000h]

CLB_HLC_EVENT_SEL is shown in Figure 29-50 and described in Table 29-51.

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Event Selector register for the High Level controller

Figure 29-50 CLB_HLC_EVENT_SEL Register

31	30	29	28	27	26	25	24
RESERVED
R-0-0h

23	22	21	20	19	18	17	16
ALT_EVENT3_SEL	ALT_EVENT2_SEL	ALT_EVENT1_SEL	ALT_EVENT0_SEL	EVENT3_SEL
R/W-0h	R/W-0h	R/W-0h	R/W-0h	R/W-0h

15	14	13	12	11	10	9	8
EVENT3_SEL	EVENT2_SEL					EVENT1_SEL
R/W-0h	R/W-0h					R/W-0h

7	6	5	4	3	2	1	0
EVENT1_SEL			EVENT0_SEL
R/W-0h			R/W-0h

Table 29-51 CLB_HLC_EVENT_SEL Register Field Descriptions

Bit	Field	Type	Reset	Description
31-24	RESERVED	R-0	0h	Reserved
23	ALT_EVENT3_SEL	R/W	0h	Defines selection of alternate inputs for EVENT3 Reset type: SYSRSn
22	ALT_EVENT2_SEL	R/W	0h	Defines selection of alternate inputs for EVENT2 Reset type: SYSRSn
21	ALT_EVENT1_SEL	R/W	0h	Defines selection of alternate inputs for EVENT1 Reset type: SYSRSn
20	ALT_EVENT0_SEL	R/W	0h	Defines selection of alternate inputs for EVENT0 Reset type: SYSRSn
19-15	EVENT3_SEL	R/W	0h	5 bit select value for EVENT3 of the High Level Controller. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
14-10	EVENT2_SEL	R/W	0h	5 bit select value for EVENT2 of the High Level Controller. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
9-5	EVENT1_SEL	R/W	0h	5 bit select value for EVENT1 of the High Level Controller. See the Static Switch Block Output Mux Table. Reset type: SYSRSn
4-0	EVENT0_SEL	R/W	0h	5 bit select value for EVENT0 of the High Level Controller. See the Static Switch Block Output Mux Table. Reset type: SYSRSn

29.9.2.30 CLB_COUNT_MATCH_TAP_SEL Register (Offset = 3Eh) [Reset = 00000000h]

CLB_COUNT_MATCH_TAP_SEL is shown in Figure 29-51 and described in Table 29-52.

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Counter tap values for match1 and match2 outputs

Figure 29-51 CLB_COUNT_MATCH_TAP_SEL Register

31	30	29	28	27	26	25	24
RESERVED	COUNT2_MATCH2					COUNT1_MATCH2
R-0-0h	R/W-0h					R/W-0h

23	22	21	20	19	18	17	16
COUNT1_MATCH2			COUNT0_MATCH2
R/W-0h			R/W-0h

15	14	13	12	11	10	9	8
RESERVED	COUNT2_MATCH1					COUNT1_MATCH1
R-0-0h	R/W-0h					R/W-0h

7	6	5	4	3	2	1	0
COUNT1_MATCH1			COUNT0_MATCH1
R/W-0h			R/W-0h

Table 29-52 CLB_COUNT_MATCH_TAP_SEL Register Field Descriptions

Bit	Field	Type	Reset	Description
31	RESERVED	R-0	0h	Reserved
30-26	COUNT2_MATCH2	R/W	0h	5 bit MUX Select for Match2 Tap for Counter Unit 2 Reset type: SYSRSn
25-21	COUNT1_MATCH2	R/W	0h	5 bit MUX Select for Match2 Tap for Counter Unit 1 Reset type: SYSRSn
20-16	COUNT0_MATCH2	R/W	0h	5 bit MUX Select for Match2 Tap for Counter Unit 0 Reset type: SYSRSn
15	RESERVED	R-0	0h	Reserved
14-10	COUNT2_MATCH1	R/W	0h	5 bit MUX Select for Match1 Tap for Counter Unit 2 Reset type: SYSRSn
9-5	COUNT1_MATCH1	R/W	0h	5 bit MUX Select for Match1 Tap for Counter Unit 1 Reset type: SYSRSn
4-0	COUNT0_MATCH1	R/W	0h	5 bit MUX Select for Match1 Tap for Counter Unit 0 Reset type: SYSRSn

29.9.2.31 CLB_OUTPUT_COND_CTRL_0 Register (Offset = 40h) [Reset = 00000000h]

CLB_OUTPUT_COND_CTRL_0 is shown in Figure 29-52 and described in Table 29-53.

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Output conditioning control for output 0

Figure 29-52 CLB_OUTPUT_COND_CTRL_0 Register

31	30	29	28	27	26	25	24
RESERVED
R/W1C-0h

23	22	21	20	19	18	17	16
RESERVED
R/W1C-0h

15	14	13	12	11	10	9	8
RESERVED	ASYNC_COND_EN	SEL_RAW_IN	HW_RLS_CTRL_SEL	HW_GATING_CTRL_SEL	SEL_RELEASE_CTRL
R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h

7	6	5	4	3	2	1	0
SEL_GATING_CTRL			LEVEL_3_SEL		LEVEL_2_SEL		LEVEL_1_SEL
R/W1C-0h			R/W1C-0h		R/W1C-0h		R/W1C-0h

Table 29-53 CLB_OUTPUT_COND_CTRL_0 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14	ASYNC_COND_EN	R/W1C	0h	Controls whether the output will pass through the asynchronous conditioning block or bypass it. 0 Bypass the asynchronous conditioning block 1 Enable the asynchronous conditioning path Reset type: SYSRSn
13	SEL_RAW_IN	R/W1C	0h	Controls whether the CELL outputs or inputs are sent to the output conditioning block logic. 0 = CELL output (internally delayed by 1 cycle) is used. 1 = CELL input (raw) is used. Reset type: SYSRSn
12	HW_RLS_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the release control 0 SW register value will act as release control 1 Selected CELL output will act as release control Reset type: SYSRSn
11	HW_GATING_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the gating control 0 SW register value will act as gating control 1 Selected CELL output will act as gating control Reset type: SYSRSn
10-8	SEL_RELEASE_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Release control. Reset type: SYSRSn
7-5	SEL_GATING_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Gating control. Reset type: SYSRSn
4-3	LEVEL_3_SEL	R/W1C	0h	Controls Third level Mux select 00 Input Signal will be sent as is to the output 01 Rising edge of Input signal will cause asynchronous CLEAR of the output 10 Rising edge of Input signal will cause asynchronous SET of the output 11 Input Signal delayed by 1 clock cycle will be sent to the output Reset type: SYSRSn
2-1	LEVEL_2_SEL	R/W1C	0h	Controls Second level Mux select 00 Input Signal sent as output to next level 01 Input Signal AND Gating_control sent as output to next level 10 Input Signal OR Gating_control sent as output to next level 11 Input Signal XOR Gating_control sent as output to next level Reset type: SYSRSn
0	LEVEL_1_SEL	R/W1C	0h	First level MUX select value 0 Direct signal sent as output to next level 1 Inverted signal sent as output to the next level Reset type: SYSRSn

29.9.2.32 CLB_OUTPUT_COND_CTRL_1 Register (Offset = 42h) [Reset = 00000000h]

CLB_OUTPUT_COND_CTRL_1 is shown in Figure 29-53 and described in Table 29-54.

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Output conditioning control for output 1

Figure 29-53 CLB_OUTPUT_COND_CTRL_1 Register

31	30	29	28	27	26	25	24
RESERVED
R/W1C-0h

23	22	21	20	19	18	17	16
RESERVED
R/W1C-0h

15	14	13	12	11	10	9	8
RESERVED	ASYNC_COND_EN	SEL_RAW_IN	HW_RLS_CTRL_SEL	HW_GATING_CTRL_SEL	SEL_RELEASE_CTRL
R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h

7	6	5	4	3	2	1	0
SEL_GATING_CTRL			LEVEL_3_SEL		LEVEL_2_SEL		LEVEL_1_SEL
R/W1C-0h			R/W1C-0h		R/W1C-0h		R/W1C-0h

Table 29-54 CLB_OUTPUT_COND_CTRL_1 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14	ASYNC_COND_EN	R/W1C	0h	Controls whether the output will pass through the asynchronous conditioning block or bypass it. 0 Bypass the asynchronous conditioning block 1 Enable the asynchronous conditioning path Reset type: SYSRSn
13	SEL_RAW_IN	R/W1C	0h	Controls whether the CELL outputs or inputs are sent to the output conditioning block logic. 0 = CELL output (internally delayed by 1 cycle) is used. 1 = CELL input (raw) is used. Reset type: SYSRSn
12	HW_RLS_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the release control 0 SW register value will act as release control 1 Selected CELL output will act as release control Reset type: SYSRSn
11	HW_GATING_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the gating control 0 SW register value will act as gating control 1 Selected CELL output will act as gating control Reset type: SYSRSn
10-8	SEL_RELEASE_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Release control. Reset type: SYSRSn
7-5	SEL_GATING_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Gating control. Reset type: SYSRSn
4-3	LEVEL_3_SEL	R/W1C	0h	Controls Third level Mux select 00 Input Signal will be sent as is to the output 01 Rising edge of Input signal will cause asynchronous CLEAR of the output 10 Rising edge of Input signal will cause asynchronous SET of the output 11 Input Signal delayed by 1 clock cycle will be sent to the output Reset type: SYSRSn
2-1	LEVEL_2_SEL	R/W1C	0h	Controls Second level Mux select 00 Input Signal sent as output to next level 01 Input Signal AND Gating_control sent as output to next level 10 Input Signal OR Gating_control sent as output to next level 11 Input Signal XOR Gating_control sent as output to next level Reset type: SYSRSn
0	LEVEL_1_SEL	R/W1C	0h	First level MUX select value 0 Direct signal sent as output to next level 1 Inverted signal sent as output to the next level Reset type: SYSRSn

29.9.2.33 CLB_OUTPUT_COND_CTRL_2 Register (Offset = 44h) [Reset = 00000000h]

CLB_OUTPUT_COND_CTRL_2 is shown in Figure 29-54 and described in Table 29-55.

Return to the Summary Table.

Output conditioning control for output 2

Figure 29-54 CLB_OUTPUT_COND_CTRL_2 Register

31	30	29	28	27	26	25	24
RESERVED
R/W1C-0h

23	22	21	20	19	18	17	16
RESERVED
R/W1C-0h

15	14	13	12	11	10	9	8
RESERVED	ASYNC_COND_EN	SEL_RAW_IN	HW_RLS_CTRL_SEL	HW_GATING_CTRL_SEL	SEL_RELEASE_CTRL
R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h

7	6	5	4	3	2	1	0
SEL_GATING_CTRL			LEVEL_3_SEL		LEVEL_2_SEL		LEVEL_1_SEL
R/W1C-0h			R/W1C-0h		R/W1C-0h		R/W1C-0h

Table 29-55 CLB_OUTPUT_COND_CTRL_2 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14	ASYNC_COND_EN	R/W1C	0h	Controls whether the output will pass through the asynchronous conditioning block or bypass it. 0 Bypass the asynchronous conditioning block 1 Enable the asynchronous conditioning path Reset type: SYSRSn
13	SEL_RAW_IN	R/W1C	0h	Controls whether the CELL outputs or inputs are sent to the output conditioning block logic. 0 = CELL output (internally delayed by 1 cycle) is used. 1 = CELL input (raw) is used. Reset type: SYSRSn
12	HW_RLS_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the release control 0 SW register value will act as release control 1 Selected CELL output will act as release control Reset type: SYSRSn
11	HW_GATING_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the gating control 0 SW register value will act as gating control 1 Selected CELL output will act as gating control Reset type: SYSRSn
10-8	SEL_RELEASE_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Release control. Reset type: SYSRSn
7-5	SEL_GATING_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Gating control. Reset type: SYSRSn
4-3	LEVEL_3_SEL	R/W1C	0h	Controls Third level Mux select 00 Input Signal will be sent as is to the output 01 Rising edge of Input signal will cause asynchronous CLEAR of the output 10 Rising edge of Input signal will cause asynchronous SET of the output 11 Input Signal delayed by 1 clock cycle will be sent to the output Reset type: SYSRSn
2-1	LEVEL_2_SEL	R/W1C	0h	Controls Second level Mux select 00 Input Signal sent as output to next level 01 Input Signal AND Gating_control sent as output to next level 10 Input Signal OR Gating_control sent as output to next level 11 Input Signal XOR Gating_control sent as output to next level Reset type: SYSRSn
0	LEVEL_1_SEL	R/W1C	0h	First level MUX select value 0 Direct signal sent as output to next level 1 Inverted signal sent as output to the next level Reset type: SYSRSn

29.9.2.34 CLB_OUTPUT_COND_CTRL_3 Register (Offset = 46h) [Reset = 00000000h]

CLB_OUTPUT_COND_CTRL_3 is shown in Figure 29-55 and described in Table 29-56.

Return to the Summary Table.

Output conditioning control for output 3

Figure 29-55 CLB_OUTPUT_COND_CTRL_3 Register

31	30	29	28	27	26	25	24
RESERVED
R/W1C-0h

23	22	21	20	19	18	17	16
RESERVED
R/W1C-0h

15	14	13	12	11	10	9	8
RESERVED	ASYNC_COND_EN	SEL_RAW_IN	HW_RLS_CTRL_SEL	HW_GATING_CTRL_SEL	SEL_RELEASE_CTRL
R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h

7	6	5	4	3	2	1	0
SEL_GATING_CTRL			LEVEL_3_SEL		LEVEL_2_SEL		LEVEL_1_SEL
R/W1C-0h			R/W1C-0h		R/W1C-0h		R/W1C-0h

Table 29-56 CLB_OUTPUT_COND_CTRL_3 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14	ASYNC_COND_EN	R/W1C	0h	Controls whether the output will pass through the asynchronous conditioning block or bypass it. 0 Bypass the asynchronous conditioning block 1 Enable the asynchronous conditioning path Reset type: SYSRSn
13	SEL_RAW_IN	R/W1C	0h	Controls whether the CELL outputs or inputs are sent to the output conditioning block logic. 0 = CELL output (internally delayed by 1 cycle) is used. 1 = CELL input (raw) is used. Reset type: SYSRSn
12	HW_RLS_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the release control 0 SW register value will act as release control 1 Selected CELL output will act as release control Reset type: SYSRSn
11	HW_GATING_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the gating control 0 SW register value will act as gating control 1 Selected CELL output will act as gating control Reset type: SYSRSn
10-8	SEL_RELEASE_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Release control. Reset type: SYSRSn
7-5	SEL_GATING_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Gating control. Reset type: SYSRSn
4-3	LEVEL_3_SEL	R/W1C	0h	Controls Third level Mux select 00 Input Signal will be sent as is to the output 01 Rising edge of Input signal will cause asynchronous CLEAR of the output 10 Rising edge of Input signal will cause asynchronous SET of the output 11 Input Signal delayed by 1 clock cycle will be sent to the output Reset type: SYSRSn
2-1	LEVEL_2_SEL	R/W1C	0h	Controls Second level Mux select 00 Input Signal sent as output to next level 01 Input Signal AND Gating_control sent as output to next level 10 Input Signal OR Gating_control sent as output to next level 11 Input Signal XOR Gating_control sent as output to next level Reset type: SYSRSn
0	LEVEL_1_SEL	R/W1C	0h	First level MUX select value 0 Direct signal sent as output to next level 1 Inverted signal sent as output to the next level Reset type: SYSRSn

29.9.2.35 CLB_OUTPUT_COND_CTRL_4 Register (Offset = 48h) [Reset = 00000000h]

CLB_OUTPUT_COND_CTRL_4 is shown in Figure 29-56 and described in Table 29-57.

Return to the Summary Table.

Output conditioning control for output 4

Figure 29-56 CLB_OUTPUT_COND_CTRL_4 Register

31	30	29	28	27	26	25	24
RESERVED
R/W1C-0h

23	22	21	20	19	18	17	16
RESERVED
R/W1C-0h

15	14	13	12	11	10	9	8
RESERVED	ASYNC_COND_EN	SEL_RAW_IN	HW_RLS_CTRL_SEL	HW_GATING_CTRL_SEL	SEL_RELEASE_CTRL
R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h

7	6	5	4	3	2	1	0
SEL_GATING_CTRL			LEVEL_3_SEL		LEVEL_2_SEL		LEVEL_1_SEL
R/W1C-0h			R/W1C-0h		R/W1C-0h		R/W1C-0h

Table 29-57 CLB_OUTPUT_COND_CTRL_4 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14	ASYNC_COND_EN	R/W1C	0h	Controls whether the output will pass through the asynchronous conditioning block or bypass it. 0 Bypass the asynchronous conditioning block 1 Enable the asynchronous conditioning path Reset type: SYSRSn
13	SEL_RAW_IN	R/W1C	0h	Controls whether the CELL outputs or inputs are sent to the output conditioning block logic. 0 = CELL output (internally delayed by 1 cycle) is used. 1 = CELL input (raw) is used. Reset type: SYSRSn
12	HW_RLS_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the release control 0 SW register value will act as release control 1 Selected CELL output will act as release control Reset type: SYSRSn
11	HW_GATING_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the gating control 0 SW register value will act as gating control 1 Selected CELL output will act as gating control Reset type: SYSRSn
10-8	SEL_RELEASE_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Release control. Reset type: SYSRSn
7-5	SEL_GATING_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Gating control. Reset type: SYSRSn
4-3	LEVEL_3_SEL	R/W1C	0h	Controls Third level Mux select 00 Input Signal will be sent as is to the output 01 Rising edge of Input signal will cause asynchronous CLEAR of the output 10 Rising edge of Input signal will cause asynchronous SET of the output 11 Input Signal delayed by 1 clock cycle will be sent to the output Reset type: SYSRSn
2-1	LEVEL_2_SEL	R/W1C	0h	Controls Second level Mux select 00 Input Signal sent as output to next level 01 Input Signal AND Gating_control sent as output to next level 10 Input Signal OR Gating_control sent as output to next level 11 Input Signal XOR Gating_control sent as output to next level Reset type: SYSRSn
0	LEVEL_1_SEL	R/W1C	0h	First level MUX select value 0 Direct signal sent as output to next level 1 Inverted signal sent as output to the next level Reset type: SYSRSn

29.9.2.36 CLB_OUTPUT_COND_CTRL_5 Register (Offset = 4Ah) [Reset = 00000000h]

CLB_OUTPUT_COND_CTRL_5 is shown in Figure 29-57 and described in Table 29-58.

Return to the Summary Table.

Output conditioning control for output 5

Figure 29-57 CLB_OUTPUT_COND_CTRL_5 Register

31	30	29	28	27	26	25	24
RESERVED
R/W1C-0h

23	22	21	20	19	18	17	16
RESERVED
R/W1C-0h

15	14	13	12	11	10	9	8
RESERVED	ASYNC_COND_EN	SEL_RAW_IN	HW_RLS_CTRL_SEL	HW_GATING_CTRL_SEL	SEL_RELEASE_CTRL
R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h

7	6	5	4	3	2	1	0
SEL_GATING_CTRL			LEVEL_3_SEL		LEVEL_2_SEL		LEVEL_1_SEL
R/W1C-0h			R/W1C-0h		R/W1C-0h		R/W1C-0h

Table 29-58 CLB_OUTPUT_COND_CTRL_5 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14	ASYNC_COND_EN	R/W1C	0h	Controls whether the output will pass through the asynchronous conditioning block or bypass it. 0 Bypass the asynchronous conditioning block 1 Enable the asynchronous conditioning path Reset type: SYSRSn
13	SEL_RAW_IN	R/W1C	0h	Controls whether the CELL outputs or inputs are sent to the output conditioning block logic. 0 = CELL output (internally delayed by 1 cycle) is used. 1 = CELL input (raw) is used. Reset type: SYSRSn
12	HW_RLS_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the release control 0 SW register value will act as release control 1 Selected CELL output will act as release control Reset type: SYSRSn
11	HW_GATING_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the gating control 0 SW register value will act as gating control 1 Selected CELL output will act as gating control Reset type: SYSRSn
10-8	SEL_RELEASE_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Release control. Reset type: SYSRSn
7-5	SEL_GATING_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Gating control. Reset type: SYSRSn
4-3	LEVEL_3_SEL	R/W1C	0h	Controls Third level Mux select 00 Input Signal will be sent as is to the output 01 Rising edge of Input signal will cause asynchronous CLEAR of the output 10 Rising edge of Input signal will cause asynchronous SET of the output 11 Input Signal delayed by 1 clock cycle will be sent to the output Reset type: SYSRSn
2-1	LEVEL_2_SEL	R/W1C	0h	Controls Second level Mux select 00 Input Signal sent as output to next level 01 Input Signal AND Gating_control sent as output to next level 10 Input Signal OR Gating_control sent as output to next level 11 Input Signal XOR Gating_control sent as output to next level Reset type: SYSRSn
0	LEVEL_1_SEL	R/W1C	0h	First level MUX select value 0 Direct signal sent as output to next level 1 Inverted signal sent as output to the next level Reset type: SYSRSn

29.9.2.37 CLB_OUTPUT_COND_CTRL_6 Register (Offset = 4Ch) [Reset = 00000000h]

CLB_OUTPUT_COND_CTRL_6 is shown in Figure 29-58 and described in Table 29-59.

Return to the Summary Table.

Output conditioning control for output 6

Figure 29-58 CLB_OUTPUT_COND_CTRL_6 Register

31	30	29	28	27	26	25	24
RESERVED
R/W1C-0h

23	22	21	20	19	18	17	16
RESERVED
R/W1C-0h

15	14	13	12	11	10	9	8
RESERVED	ASYNC_COND_EN	SEL_RAW_IN	HW_RLS_CTRL_SEL	HW_GATING_CTRL_SEL	SEL_RELEASE_CTRL
R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h

7	6	5	4	3	2	1	0
SEL_GATING_CTRL			LEVEL_3_SEL		LEVEL_2_SEL		LEVEL_1_SEL
R/W1C-0h			R/W1C-0h		R/W1C-0h		R/W1C-0h

Table 29-59 CLB_OUTPUT_COND_CTRL_6 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14	ASYNC_COND_EN	R/W1C	0h	Controls whether the output will pass through the asynchronous conditioning block or bypass it. 0 Bypass the asynchronous conditioning block 1 Enable the asynchronous conditioning path Reset type: SYSRSn
13	SEL_RAW_IN	R/W1C	0h	Controls whether the CELL outputs or inputs are sent to the output conditioning block logic. 0 = CELL output (internally delayed by 1 cycle) is used. 1 = CELL input (raw) is used. Reset type: SYSRSn
12	HW_RLS_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the release control 0 SW register value will act as release control 1 Selected CELL output will act as release control Reset type: SYSRSn
11	HW_GATING_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the gating control 0 SW register value will act as gating control 1 Selected CELL output will act as gating control Reset type: SYSRSn
10-8	SEL_RELEASE_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Release control. Reset type: SYSRSn
7-5	SEL_GATING_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Gating control. Reset type: SYSRSn
4-3	LEVEL_3_SEL	R/W1C	0h	Controls Third level Mux select 00 Input Signal will be sent as is to the output 01 Rising edge of Input signal will cause asynchronous CLEAR of the output 10 Rising edge of Input signal will cause asynchronous SET of the output 11 Input Signal delayed by 1 clock cycle will be sent to the output Reset type: SYSRSn
2-1	LEVEL_2_SEL	R/W1C	0h	Controls Second level Mux select 00 Input Signal sent as output to next level 01 Input Signal AND Gating_control sent as output to next level 10 Input Signal OR Gating_control sent as output to next level 11 Input Signal XOR Gating_control sent as output to next level Reset type: SYSRSn
0	LEVEL_1_SEL	R/W1C	0h	First level MUX select value 0 Direct signal sent as output to next level 1 Inverted signal sent as output to the next level Reset type: SYSRSn

29.9.2.38 CLB_OUTPUT_COND_CTRL_7 Register (Offset = 4Eh) [Reset = 00000000h]

CLB_OUTPUT_COND_CTRL_7 is shown in Figure 29-59 and described in Table 29-60.

Return to the Summary Table.

Output conditioning control for output 7

Figure 29-59 CLB_OUTPUT_COND_CTRL_7 Register

31	30	29	28	27	26	25	24
RESERVED
R/W1C-0h

23	22	21	20	19	18	17	16
RESERVED
R/W1C-0h

15	14	13	12	11	10	9	8
RESERVED	ASYNC_COND_EN	SEL_RAW_IN	HW_RLS_CTRL_SEL	HW_GATING_CTRL_SEL	SEL_RELEASE_CTRL
R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h	R/W1C-0h

7	6	5	4	3	2	1	0
SEL_GATING_CTRL			LEVEL_3_SEL		LEVEL_2_SEL		LEVEL_1_SEL
R/W1C-0h			R/W1C-0h		R/W1C-0h		R/W1C-0h

Table 29-60 CLB_OUTPUT_COND_CTRL_7 Register Field Descriptions

Bit	Field	Type	Reset	Description
31-15	RESERVED	R/W1C	0h	Reserved
14	ASYNC_COND_EN	R/W1C	0h	Controls whether the output will pass through the asynchronous conditioning block or bypass it. 0 Bypass the asynchronous conditioning block 1 Enable the asynchronous conditioning path Reset type: SYSRSn
13	SEL_RAW_IN	R/W1C	0h	Controls whether the CELL outputs or inputs are sent to the output conditioning block logic. 0 = CELL output (internally delayed by 1 cycle) is used. 1 = CELL input (raw) is used. Reset type: SYSRSn
12	HW_RLS_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the release control 0 SW register value will act as release control 1 Selected CELL output will act as release control Reset type: SYSRSn
11	HW_GATING_CTRL_SEL	R/W1C	0h	Controls whether the HW (CELL outputs) or software (GP_REG) will act as the gating control 0 SW register value will act as gating control 1 Selected CELL output will act as gating control Reset type: SYSRSn
10-8	SEL_RELEASE_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Release control. Reset type: SYSRSn
7-5	SEL_GATING_CTRL	R/W1C	0h	3 bit MUX selects which will select one of the 8 CELL outputs for Gating control. Reset type: SYSRSn
4-3	LEVEL_3_SEL	R/W1C	0h	Controls Third level Mux select 00 Input Signal will be sent as is to the output 01 Rising edge of Input signal will cause asynchronous CLEAR of the output 10 Rising edge of Input signal will cause asynchronous SET of the output 11 Input Signal delayed by 1 clock cycle will be sent to the output Reset type: SYSRSn
2-1	LEVEL_2_SEL	R/W1C	0h	Controls Second level Mux select 00 Input Signal sent as output to next level 01 Input Signal AND Gating_control sent as output to next level 10 Input Signal OR Gating_control sent as output to next level 11 Input Signal XOR Gating_control sent as output to next level Reset type: SYSRSn
0	LEVEL_1_SEL	R/W1C	0h	First level MUX select value 0 Direct signal sent as output to next level 1 Inverted signal sent as output to the next level Reset type: SYSRSn

29.9.2.39 CLB_MISC_ACCESS_CTRL Register (Offset = 50h) [Reset = 0000h]

CLB_MISC_ACCESS_CTRL is shown in Figure 29-60 and described in Table 29-61.

Return to the Summary Table.

Miscellaneous Access and enable control

Figure 29-60 CLB_MISC_ACCESS_CTRL Register

15	14	13	12	11	10	9	8
RESERVED
R/W1C-0h

7	6	5	4	3	2	1	0
RESERVED						BLKEN	SPIEN
R/W1C-0h						R/W1C-0h	R/W1C-0h

Table 29-61 CLB_MISC_ACCESS_CTRL Register Field Descriptions

Bit	Field	Type	Reset	Description
15-2	RESERVED	R/W1C	0h	Reserved
1	BLKEN	R/W1C	0h	This bit is used to block writes to CLB_OUT_EN 0 Writes to CLB_OUT_EN are allowed 1 Writes to CLB_OUT_EN are blocked Reset type: SYSRSn
0	SPIEN	R/W1C	0h	This bit indicates the status of the SPI buffers ability to export CLB output data. 0 Feature Disabled 1 Feature Enabled Reset type: SYSRSn

29.9.2.40 CLB_SPI_DATA_CTRL_HI Register (Offset = 51h) [Reset = 0000h]

CLB_SPI_DATA_CTRL_HI is shown in Figure 29-61 and described in Table 29-62.

Return to the Summary Table.

CLB to SPI buffer control High

Figure 29-61 CLB_SPI_DATA_CTRL_HI Register

15	14	13	12	11	10	9	8
RESERVED			SHIFT
R/W1C-0h			R/W1C-0h

7	6	5	4	3	2	1	0
RESERVED			STRB
R/W1C-0h			R/W1C-0h

Table 29-62 CLB_SPI_DATA_CTRL_HI Register Field Descriptions

Bit	Field	Type	Reset	Description
15-13	RESERVED	R/W1C	0h	Reserved
12-8	SHIFT	R/W1C	0h	This is a 5 bit value which denotes the first bit position of register R0 from which the Least Significant Bit of the output data should start. 00000 Output data is R0[15:0] 00001 Output data is R0[16:1] 00010 Output data is R0[17:2] 00011 Output data is R0[18:3] ... ... 10000 Output data is R0[31:16] Reset type: SYSRSn
7-5	RESERVED	R/W1C	0h	Reserved
4-0	STRB	R/W1C	0h	This is a 5 bit value which selects one of the HLC_EVENT inputs to be treated as the data_valid strobe Reset type: SYSRSn