Configuration via Protocol (CvP) Implementation in V-series FPGA Devices User Guide

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ID 683889
Date 9/04/2020
Public
Document Table of Contents
Document Table of Contents x
1. Overview 2. FPGA Configuration using CvP 3. CvP Topologies 4. Design Considerations 5. CvP Example Designs 6. CvP Driver and Registers 7. Document Revision History for the Configuration via Protocol (CvP) Implementation in V-series FPGA Devices User Guide
1. Overview x
1.1. Benefits of Using CvP 1.2. CvP System 1.3. CvP Modes 1.4. CvP Revision Design Flow 1.5. CvP Topologies 1.6. Additional Information about PCI Express
2. FPGA Configuration using CvP x
2.1. CvP Configuration Images 2.2. CvP Modes 2.3. Alternative to CvP Initialization: Autonomous HIP Mode 2.4. CvP Compression and Encryption Features 2.5. Core Image Update 2.6. CvP Pins
2.2. CvP Modes x
2.2.1. CvP Initialization Mode 2.2.2. CvP Update Mode
2.4. CvP Compression and Encryption Features x
2.4.1. Data Compression 2.4.2. Data Encryption
3. CvP Topologies x
3.1. Single Endpoint 3.2. Multiple Endpoints 3.3. Mixed Chain
3.3. Mixed Chain x
3.3.1. Configuring Slave FPGAs with Different Configuration Files 3.3.2. Configuring Slave FPGAs with a Single Configuration File
4. Design Considerations x
4.1. Preparing the Design for CvP Revision Design Flow 4.2. Designing CvP for an Open System 4.3. Designing CvP for a Closed System 4.4. Clock Connections for CvP Designs Including the Transceiver Reconfiguration Controller
4.2. Designing CvP for an Open System x
4.2.1. FPGA Power Supplies Ramp Time Requirement 4.2.2. PCIe Wake-Up Time Requirement
4.2.2. PCIe Wake-Up Time Requirement x
4.2.2.1. PCIe Wake-Up Time Requirement for CvP Initialization Mode 4.2.2.2. PCIe Wake-Up Time Requirement for CvP Update Mode
4.2.2.2. PCIe Wake-Up Time Requirement for CvP Update Mode x
4.2.2.2.1. Recommended Configuration Schemes 4.2.2.2.2. Estimating PCIe Wake-Up Time Requirement
5. CvP Example Designs x
5.1. Understanding the Design Steps for CvP Initialization Mode 5.2. Understanding the Design Steps for CvP Initialization Mode with the Revision Design Flow 5.3. Understanding the Design Steps for CvP Update Mode 5.4. Bringing Up the Hardware 5.5. CvP Debugging Check List 5.6. Known Issues and Solutions
5.1. Understanding the Design Steps for CvP Initialization Mode x
5.1.1. Downloading and Generating the High Performance Reference Design 5.1.2. Setting up CvP Parameters for CvP Initialization Mode 5.1.3. Compiling the Design for the CvP Initialization Mode 5.1.4. Splitting the SOF File for the CvP Initialization Design Mode
5.2. Understanding the Design Steps for CvP Initialization Mode with the Revision Design Flow x
5.2.1. Downloading and Generating the High Performance Reference Design 5.2.2. Workaround for a Known Issue with Transceiver Reconfiguration Controller IP Core 5.2.3. Creating an Alternate user_led.v File for the Reconfigurable Core Region 5.2.4. Setting up CvP Parameters for CvP Initialization Mode 5.2.5. Creating CvP Revisions of the Core Logic Region Using the CvP Revision Design Flow 5.2.6. Compiling both the Base and cvp_app Revisions in the CvP Revision Design Flow 5.2.7. Splitting the SOF File for the CvP Initialization Mode with the CvP Revision Design Flow
5.3. Understanding the Design Steps for CvP Update Mode x
5.3.1. Downloading and Generating the High Performance Reference Design 5.3.2. Workaround for a Known Issue with Transceiver Reconfiguration Controller IP Core 5.3.3. Creating an Alternate user_led.v File for the Reconfigurable Core Region 5.3.4. Setting up CvP Parameters for CvP Update Mode 5.3.5. Creating CvP Revisions of the Core Logic Region Using the CvP Revision Design Flow 5.3.6. Compiling the Design for the CvP Update Mode 5.3.7. Splitting the SOF File for the CvP Update Design Mode 5.3.8. Splitting the SOF File for the CvP Update Mode with the CvP Revision Design Flow
5.4. Bringing Up the Hardware x
5.4.1. Installing Jungo WinDriver in Windows Systems 5.4.2. Installing Jungo WinDriver in Linux Systems 5.4.3. Installing Open Source CvP Driver in Linux System 5.4.4. Modifying MSEL for Active Serial x4 Flash on Stratix V Dev-Kit 5.4.5. Programming CvP Images and Validating the Link
5.6. Known Issues and Solutions x
5.6.1. Using MSI-X in CvP Initialization Mode
6. CvP Driver and Registers x
6.1. CvP Driver Support 6.2. CvP Driver Flow 6.3. VSEC Registers for CvP
6.3. VSEC Registers for CvP x
6.3.1. Altera-defined Vendor Specific Capability Header Register 6.3.2. Altera-defined Vendor Specific Header Register 6.3.3. Altera Marker Register 6.3.4. CvP Status Register 6.3.5. CvP Mode Control Register 6.3.6. CvP Data Registers 6.3.7. CvP Programming Control Register 6.3.8. Uncorrectable Internal Error Status Register 6.3.9. Uncorrectable Internal Error Mask Register 6.3.10. Correctable Internal Error Status Register 6.3.11. Correctable Internal Error Mask Register
1. Overview
2. FPGA Configuration using CvP
3. CvP Topologies
4. Design Considerations
5. CvP Example Designs
6. CvP Driver and Registers
7. Document Revision History for the Configuration via Protocol (CvP) Implementation in V-series FPGA Devices User Guide

6.3.4. CvP Status Register

Table 30.  CvP Status Register (Byte Offset: 0x21C)
Bits Name Reset Value Access Description
[31:26] 0x00 RO Reserved.
[25] PLD_CORE_READY Variable RO From FPGA fabric. This status bit is provided for debug.
[24] PLD_CLK_IN_USE Variable RO From clock switch module to fabric. This status bit is provided for debug.
[23] CVP_CONFIG_DONE Variable RO Indicates that the FPGA control block has completed the device configuration via CvP and there were no errors.
[22] Variable RO Reserved.
[21] USERMODE Variable RO Indicates if the configurable FPGA fabric is in user mode.
[20] CVP_EN Variable RO Indicates if the FPGA control block has enabled CvP mode.
[19] CVP_CONFIG_ERROR Variable RO Reflects the value of this signal from the FPGA control block, checked by software to determine if there was an error during configuration.
[18] CVP_CONFIG_READY Variable RO Reflects the value of this signal from the FPGA control block, checked by software during programming algorithm.
[17:0] Variable RO Reserved.
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