Intel® Stratix® 10 Configuration User Guide

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ID 683762
Date 1/10/2022
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Document Table of Contents
Document Table of Contents x
1. Intel® Stratix® 10 Configuration User Guide 2. Intel® Stratix® 10 Configuration Details 3. Intel® Stratix® 10 Configuration Schemes 4. Including the Reset Release Intel® FPGA IP in Your Design 5. Remote System Update (RSU) 6. Intel® Stratix® 10 Configuration Features 7. Intel® Stratix® 10 Debugging Guide 8. Intel® Stratix® 10 Configuration User Guide Archives 9. Document Revision History for the Intel® Stratix® 10 Configuration User Guide
1. Intel® Stratix® 10 Configuration User Guide x
1.1. Intel® Stratix® 10 Configuration Overview 1.2. Intel® Stratix® 10 Configuration Architecture
1.1. Intel® Stratix® 10 Configuration Overview x
1.1.1. Configuration and Related Signals 1.1.2. Intel Download Cables Supporting Configuration in Intel® Stratix® 10 Devices
1.2. Intel® Stratix® 10 Configuration Architecture x
1.2.1. Secure Device Manager
1.2.1. Secure Device Manager x
1.2.1.1. Restricting Security Features 1.2.1.2. Updating the SDM Firmware 1.2.1.3. Specifying Boot Order for Intel® Stratix® 10 SoC Devices
2. Intel® Stratix® 10 Configuration Details x
2.1. Intel® Stratix® 10 Configuration Timing Diagram 2.2. Configuration Flow Diagram 2.3. Device Response to Configuration and Reset Events 2.4. Additional Clock Requirements for HPS, PCIe* , eSRAM, and HBM2 2.5. Intel® Stratix® 10 Configuration Pins 2.6. Configuration Clocks 2.7. Maximum Configuration Time Estimation 2.8. Generating Compressed .sof File
2.5. Intel® Stratix® 10 Configuration Pins x
2.5.1. SDM Pin Mapping 2.5.2. MSEL Settings 2.5.3. Device Configuration Pins for Optional Configuration Signals
2.5.3. Device Configuration Pins for Optional Configuration Signals x
2.5.3.1. Specifying Optional Configuration Pins 2.5.3.2. Enabling Dual-Purpose Pins 2.5.3.3. Configuration Pins I/O Standard, Drive Strength, and IBIS Model 2.5.3.4. SDM I/O Pins for Power Management and SmartVID 2.5.3.5. Specifying Pins for Partial Reconfiguration (PR)
2.5.3.1. Specifying Optional Configuration Pins x
2.5.3.1.1. nCONFIG 2.5.3.1.2. nSTATUS 2.5.3.1.3. CONF_DONE and INIT_DONE 2.5.3.1.4. SDM_IO Pins
2.6. Configuration Clocks x
2.6.1. Setting Configuration Clock Source 2.6.2. OSC_CLK_1 Clock Input
3. Intel® Stratix® 10 Configuration Schemes x
3.1. Avalon-ST Configuration 3.2. AS Configuration 3.3. JTAG Configuration
3.1. Avalon-ST Configuration x
3.1.1. Avalon® -ST Configuration Scheme Hardware Components and File Types 3.1.2. Enabling Avalon-ST Device Configuration 3.1.3. The AVST_READY Signal 3.1.4. RBF Configuration File Format 3.1.5. Avalon-ST Single-Device Configuration 3.1.6. Debugging Guidelines for the Avalon® -ST Configuration Scheme 3.1.7. IP for Use with the Avalon® -ST Configuration Scheme: Intel FPGA Parallel Flash Loader II IP Core
3.1.7. IP for Use with the Avalon® -ST Configuration Scheme: Intel FPGA Parallel Flash Loader II IP Core x
3.1.7.1. Functional Description 3.1.7.2. Designing with the PFL II IP Core for Avalon-ST Single Device Configuration 3.1.7.3. Generating the PFL II IP Core 3.1.7.4. Constraining the PFL II IP Core 3.1.7.5. Using the PFL II IP Core
3.1.7.1. Functional Description x
3.1.7.1.1. Generating and Programming a .pof into CFI Flash 3.1.7.1.2. Implementing Multiple Pages in the Flash .pof 3.1.7.1.3. Storing Option Bits 3.1.7.1.4. Verifying the Option Bit Start and End Addresses 3.1.7.1.5. Implementing Page Mode and Option Bits in the CFI Flash Memory Device
3.1.7.2. Designing with the PFL II IP Core for Avalon-ST Single Device Configuration x
3.1.7.2.1. PFL II Parameters 3.1.7.2.2. PFL II Signals
3.1.7.3. Generating the PFL II IP Core x
3.1.7.3.1. Controlling Avalon-ST Configuration with PFL II IP Core 3.1.7.3.2. Mapping PFL II IP Core and Flash Address 3.1.7.3.3. Creating a Single PFL II IP for Programming and Configuration 3.1.7.3.4. Creating Separate PFL II Functions
3.1.7.4. Constraining the PFL II IP Core x
3.1.7.4.1. PFL II IP Recommended Design Constraints to FPGA Avalon-ST Pins 3.1.7.4.2. PFL II IP Recommended Design Constraints for Using QSPI Flash 3.1.7.4.3. PFL II IP Recommended Design Constraints for using CFI Flash 3.1.7.4.4. PFL II IP Recommended Constraints for Other Input Pins 3.1.7.4.5. PFL II IP Recommended Constraints for Other Output Pins
3.1.7.5. Using the PFL II IP Core x
3.1.7.5.1. Converting .sof to .pof File 3.1.7.5.2. Programming CPLDs and Flash Memory Devices Sequentially 3.1.7.5.3. Programming CPLDs and Flash Memory Devices Separately 3.1.7.5.4. Defining New CFI Flash Memory Device
3.2. AS Configuration x
3.2.1. AS Configuration Scheme Hardware Components and File Types 3.2.2. AS Single-Device Configuration 3.2.3. AS Using Multiple Serial Flash Devices 3.2.4. AS Configuration Timing Parameters 3.2.5. Maximum Allowable External AS_DATA Pin Skew Delay Guidelines 3.2.6. Programming Serial Flash Devices 3.2.7. Serial Flash Memory Layout 3.2.8. AS_CLK 3.2.9. Active Serial Configuration Software Settings 3.2.10. Intel® Quartus® Prime Programming Steps 3.2.11. Debugging Guidelines for the AS Configuration Scheme
3.2.6. Programming Serial Flash Devices x
3.2.6.1. Programming Serial Flash Devices using the AS Interface 3.2.6.2. Programming Serial Flash Devices using the JTAG Interface
3.2.7. Serial Flash Memory Layout x
3.2.7.1. Understanding Quad SPI Flash Byte-Addressing
3.2.10. Intel® Quartus® Prime Programming Steps x
3.2.10.1. Generating Programming Files using the Programming File Generator 3.2.10.2. Programming .pof files into Serial Flash Device 3.2.10.3. Programming .jic files into Serial Flash Device
3.3. JTAG Configuration x
3.3.1. JTAG Configuration Scheme Hardware Components and File Types 3.3.2. JTAG Device Configuration 3.3.3. JTAG Multi-Device Configuration 3.3.4. Debugging Guidelines for the JTAG Configuration Scheme
3.3.2. JTAG Device Configuration x
3.3.2.1. JTAG Single-Device Configuration using Download Cable Connections 3.3.2.2. JTAG Single-Device Configuration using a Microprocessor
3.3.3. JTAG Multi-Device Configuration x
3.3.3.1. JTAG Multi-Device Configuration using Download Cable
4. Including the Reset Release Intel® FPGA IP in Your Design x
4.1. Understanding the Reset Release IP Requirement 4.2. Instantiating the Reset Release IP In Your Design 4.3. Gating the PLL Reset Signal 4.4. Guidance When Using Partial Reconfiguration (PR) 4.5. Detailed Description of Device Configuration
4.5. Detailed Description of Device Configuration x
4.5.1. Device Initialization 4.5.2. Preventing Register Initialization During Power-On 4.5.3. Embedded Memory Block Initial Conditions 4.5.4. Protecting State Machine Logic
5. Remote System Update (RSU) x
5.1. Remote System Update Functional Description 5.2. Guidelines for Performing Remote System Update Functions for Non-HPS 5.3. Commands and Responses 5.4. Quad SPI Flash Layout 5.5. Generating Remote System Update Image Files Using the Programming File Generator 5.6. Remote System Update from FPGA Core Example
5.1. Remote System Update Functional Description x
5.1.1. RSU Glossary 5.1.2. Remote System Update Using AS Configuration 5.1.3. Remote System Update Configuration Images 5.1.4. Remote System Update Configuration Sequence 5.1.5. RSU Recovery from Corrupted Images 5.1.6. Updates with the Factory Update Image
5.3. Commands and Responses x
5.3.1. Operation Commands 5.3.2. Error Code Responses 5.3.3. Error Code Recovery
5.4. Quad SPI Flash Layout x
5.4.1. High Level Flash Layout 5.4.2. Detailed Quad SPI Flash Layout
5.4.1. High Level Flash Layout x
5.4.1.1. Standard (non-RSU) Image Layout in Flash 5.4.1.2. RSU Image Layout in Flash – SDM Perspective 5.4.1.3. RSU Image Layout – Your Perspective
5.4.1.2. RSU Image Layout in Flash – SDM Perspective x
5.4.1.2.1. Firmware Version Information
5.4.2. Detailed Quad SPI Flash Layout x
5.4.2.1. RSU Image Sub-Partitions Layout 5.4.2.2. Sub-Partition Table Layout 5.4.2.3. Configuration Pointer Block Layout 5.4.2.4. Modifying the List of Application Images 5.4.2.5. Application Image Layout
5.5. Generating Remote System Update Image Files Using the Programming File Generator x
5.5.1. Generating the Initial RSU Image 5.5.2. Generating an Application Image 5.5.3. Generating a Factory Update Image 5.5.4. Command Sequence To Perform Quad SPI Operations
5.5.1. Generating the Initial RSU Image x
5.5.1.1. Generating the Initial RSU Image Using SOF Files 5.5.1.2. Generating the Initial RSU Image Using RBF Files 5.5.1.3. Updating Decision Firmware
5.6. Remote System Update from FPGA Core Example x
5.6.1. Prerequisites 5.6.2. Creating Initial Flash Image Containing Bitstreams for Factory Image and One Application Image 5.6.3. Programming Flash Memory with the Initial Remote System Update Image 5.6.4. Reconfiguring the Device with an Application or Factory Image 5.6.5. Adding an Application Image 5.6.6. Removing an Application Image
6. Intel® Stratix® 10 Configuration Features x
6.1. Device Security 6.2. Configuration via Protocol 6.3. Partial Reconfiguration
7. Intel® Stratix® 10 Debugging Guide x
7.1. Configuration Debugging Checklist 7.2. Intel® Stratix® 10 Configuration Architecture Overview 7.3. Understanding Configuration Status Using quartus_pgm command 7.4. SDM Debug Toolkit Overview 7.5. Configuration Pin Differences from Previous Device Families 7.6. Configuration File Format Differences 7.7. Understanding SEUs 7.8. Reading the Unique 64-Bit CHIP ID 7.9. E-Tile Transceivers May Fail To Configure 7.10. Understanding and Troubleshooting Configuration Pin Behavior
7.4. SDM Debug Toolkit Overview x
7.4.1. Using the SDM Debug Toolkit
1. Intel® Stratix® 10 Configuration User Guide
2. Intel® Stratix® 10 Configuration Details
3. Intel® Stratix® 10 Configuration Schemes
4. Including the Reset Release Intel® FPGA IP in Your Design
5. Remote System Update (RSU)
6. Intel® Stratix® 10 Configuration Features
7. Intel® Stratix® 10 Debugging Guide
8. Intel® Stratix® 10 Configuration User Guide Archives
9. Document Revision History for the Intel® Stratix® 10 Configuration User Guide

2.2. Configuration Flow Diagram

This topic describes the configuration flow for Intel® Stratix® 10 devices.

Figure 7.  Intel® Stratix® 10 FPGA Configuration Flow
Note: You can perform JTAG configuration anytime from any state if the device is powered up and the power is intact. The Intel® Stratix® 10 device cancels the previous configuration and accepts the reconfiguration data from the JTAG interface. The nCONFIG signal must be held in a stable state during JTAG configuration. A falling edge on the nCONFIG signal cancels the JTAG configuration.

Power-On

  • The Intel® Stratix® 10 power supplies follow the guidelines in the Power-Up Sequence Requirements for Intel® Stratix® 10 Devices section of the Intel® Stratix® 10 Power Management User Guide.
  • A device-wide power-on reset (POR) asserts after the power supplies reach the correct operating voltages. The external power supply ramp must not be slower than the minimum ramping rate until the supplies reach the operating voltage.
  • During power-on stage, internal circuitry pulls the SDM_IO0, SDM_IO8, and SDM_IO16 low internally. Internal circuitry pulls the remaining SDM_IO pins to a weak high.
  • After POR, internal circuitry also pulls all GPIO pins to a weak high until the device enters user mode.

SDM Startup

  • The SDM samples the MSEL pins during power-on.
  • If MSEL is set to JTAG, the SDM remains in the Startup state.
  • The SDM runs firmware stored in the on-chip boot ROM and enters the Idle state until the host drives nCONFIG high. The host should not drive nCONFIG high before all clocks are stable.

Idle

  • The SDM remains in IDLE state until the external host initiates configuration by driving the nCONFIG pin from low to high. Alternatively, the SDM enters the idle state after it exits the error state.

FPGA Configuration

  • After the SDM receives a configuration initiation request (nCONFIG = HIGH), the SDM signals the beginning of configuration by driving the nSTATUS pin high.
  • Upon receiving configuration data, the SDM performs authentication, decryption and decompression.
  • The nCONFIG pin remains high during configuration and in user mode. The host monitors the nSTATUS pin continuously for configuration errors.
  • The power management activity is ongoing during the device configuration. For more information, refer to the Intel® Stratix® 10 Power Management User Guide.
  • The SDM drives the CONF_DONE pin high after successfully receiving full bitstream.
  • The CONF_DONE pin signals an external host that bitstream transfer is successful.

Failed FPGA Configuration

  • A low pulse on the nSTATUS pin indicates a configuration error.
  • An internal device wipe occurs followed by errors requiring reconfiguration.
  • After a low pulse indicating an error, configuration stops. The nSTATUS pin remains high.
  • Following an error, the SDM drives nSTATUS low after the external host drives nCONFIG low.
  • The device enters Idle state after the nSTATUS pin recovers to initial pre-configuration low state.

User Mode

  • The SDM drives the INIT_DONE pin high after initializing internal registers and releases GPIO pins from the high impedance state. The device enters user mode. After CONF_DONE asserts and before INIT_DONE asserts, parts of the device start to enter user mode. The assertion of INIT_DONE indicates that the entire device entered user mode. Intel requires you to include the Reset Release in your design. Use the nINIT_DONE output of the Reset Release Intel® FPGA IP to hold your application logic in the reset state until the entire FPGA fabric is in user mode. Failure to include this IP in your design may result in intermittent application logic failures.
  • The nCONFIG pin should remain high in user mode.

  • You may re-configure the device by driving nCONFIG pin from low to high.

Device Clean

  • In the Device Clean state the design stops functioning.
  • Device cleaning zeros out all configuration data.
  • The Intel® Stratix® 10 device drives CONF_DONE and INIT_DONE low.
  • The SDM drives the nSTATUS pin low when device cleaning completes.
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