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1. Introduction
2. Features
3. Getting Started with the AXI Streaming Intel® FPGA IP for PCI Express*
4. IP Architecture and Functional Description
5. AXI Streaming Intel® FPGA IP for PCI Express* Parameters
6. Interfaces and Signals
7. Register Descriptions
8. Document Revision History for the AXI Streaming Intel® FPGA IP for PCI Express* User Guide
A. Specifications
B. Simulating the Design Example
1.1. Goal of the AXI Streaming Intel® FPGA IP for PCI Express* User Guide
1.2. Intended Audience for the AXI Streaming Intel® FPGA IP for PCI Express* User Guide
1.3. What is PCI Express* ?
1.4. What are the Intel® FPGA IPs for PCI Express* ?
1.5. What is the AXI Streaming Intel® FPGA IP for PCI Express* ?
1.6. Example Use Models
1.7. Design Flow Requirements
3.1. Download and Install Quartus Software
3.2. Obtain and Install Intel FPGA IPs and Licenses
3.3. Configure and Generate the AXI Streaming Intel® FPGA IP for PCI Express*
3.4. About the AXI Streaming Intel® FPGA IP for PCI Express Design Examples
3.5. Instantiate and Connect the AXI Streaming Intel® FPGA IP for PCI Express* Interfaces
3.6. Simulate the AXI Streaming Intel® FPGA IP for PCI Express* IP Variant
3.7. Compile the AXI Streaming Intel® FPGA IP for PCI Express* IP Variant
3.8. Software Drivers for AXI Streaming Intel® FPGA IP for PCI Express* IP Variant
3.9. Build the Application for the AXI Streaming Intel® FPGA IP for PCI Express* IP Variant
3.10. Verification with the AXI Streaming Intel® FPGA IP for PCI Express* IP Variant
3.11. Debugging with the AXI Streaming Intel® FPGA IP for PCI Express* IP Variant
4.1. Clocks and Resets
4.2. PCIe Hard IP (HIP)
4.3. HIP Interface (IF) Adaptor
4.4. Application Error Reporting
4.5. Debug Toolkit and Hard IP (HIP) Reconfiguration Interface
4.6. Configuration Space Extension
4.7. Control Shadow
4.8. Configuration Intercept Interface
4.9. Power Management
4.10. Legacy Interrupt
4.11. Credit Handling
4.12. Completion Timeout
4.13. Transaction Ordering
4.14. Page Request Service (PRS) Events
4.15. TX Non-Posted Metering Requirement on Application
4.16. MSI Pending
4.17. D-State Status
4.18. Configuration Retry Status Enable
4.19. AXI-Streaming Interface
4.20. Precision Time Measurement (PTM) [F/R-Tiles Only]
6.1. Overview
6.2. Clocks and Resets
6.3. Application Packet Interface
6.4. Configuration Extension Bus Interface
6.5. Configuration Intercept Interface
6.6. Function Level Reset Interface
6.7. Control Shadow Interface (st_ctrlshadow)
6.8. Completion Timeout Interface (st_cplto)
6.9. Miscellaneous Signals
6.10. Control and Status Register Responder Interface (lite_csr)
6.11. Error Interface (st_err)
6.12. VF Error Flag Interface (vf_err/sent_vfnonfatalmsg)
6.13. VIRTIO PCI* Configuration Access Interface
6.14. Serial Data Signals
7.3.1.1. AXI Streaming Intel® FPGA IP for PCI Express* Version
7.3.1.2. AXI Streaming Intel® FPGA IP for PCI Express* Features
7.3.1.3. AXI Streaming Intel® FPGA IP for PCI Express* Interface Attributes
7.3.1.4. HOT PLUG GEN CTRL
7.3.1.5. POWER MANAGEMENT CTRL
7.3.1.6. LEGACY INTERRUPT CTRL
7.3.1.7. CFG REG IA CTRL
7.3.1.8. CFG REG IA FN NUM
7.3.1.9. CFG REG IA WRDATA
7.3.1.10. CFG REG IA RDDATA
7.3.1.11. PRS CTRL
7.3.1.12. MSI PENDING CTRL
7.3.1.13. MSI PENDING
7.3.1.14. D-STATE STS
7.3.1.15. CFG RETRY CTRL
7.3.3.1. PERFMON CTRL
7.3.3.2. TX MRD TLP
7.3.3.3. TX MWR TLP
7.3.3.4. TX MSG TLP
7.3.3.5. TX CFGWR TLP
7.3.3.6. TX CFGRD TLP
7.3.3.7. RX MRD TLP
7.3.3.8. RX MWR TLP
7.3.3.9. RX MSG TLP
7.3.3.10. RX CFGWR TLP
7.3.3.11. RX CFGRD TLP
7.3.3.12. TX MEM DATA
7.3.3.13. TX CPL DATA
7.3.3.14. RX MEM DATA
7.3.3.15. RX CPL DATA
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3.9.1.1. Running the PIO Design Example
- Navigate to ./software/user/example under the design example directory.
- Compile the design example application:
$ make
- Run the test:
$ sudo ./intel_fpga_pcie_link_test
You can run the Intel FPGA IP PCIe link test in manual or automatic mode. Choose from:- In automatic mode, the application automatically selects the device. The test selects the Intel PCIe device with the lowest BDF by matching the Vendor ID. The test also selects the lowest available BAR.
- In manual mode, the test queries you for the bus, device, and function number and BAR.
For the Agilex™ 7 Development Kit, you can determine the BDF by typing the following command:
$ lspci -d 1172:
- Here are sample transcripts for automatic and manual modes:
Automatic mode:
Manual mode: