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1. About the R-tile Avalon® Streaming Intel® FPGA IP for PCI Express
2. IP Architecture and Functional Description
3. Advanced Features
4. Interfaces
5. Parameters
6. Troubleshooting/Debugging
7. R-Tile Avalon® Streaming Intel® FPGA IP for PCI Express* User Guide Archives
8. Document Revision History for the R-tile Avalon® Streaming Intel FPGA IP for PCI Express User Guide
A. Configuration Space Registers
B. Root Port Enumeration
C. Implementation of Address Translation Services (ATS) in Endpoint Mode
D. Packets Forwarded to the User Application in TLP Bypass Mode
3.2.2.5.1. VirtIO Common Configuration Capability Register (Address: 0x012)
3.2.2.5.2. VirtIO Common Configuration BAR Indicator Register (Address: 0x013)
3.2.2.5.3. VirtIO Common Configuration BAR Offset Register (Address: 0x014)
3.2.2.5.4. VirtIO Common Configuration Structure Length Register (Address 0x015)
3.2.2.5.5. VirtIO Notifications Capability Register (Address: 0x016)
3.2.2.5.6. VirtIO Notifications BAR Indicator Register (Address: 0x017)
3.2.2.5.7. VirtIO Notifications BAR Offset Register (Address: 0x018)
3.2.2.5.8. VirtIO Notifications Structure Length Register (Address: 0x019)
3.2.2.5.9. VirtIO Notifications Notify Off Multiplier Register (Address: 0x01A)
3.2.2.5.10. VirtIO ISR Status Capability Register (Address: 0x02F)
3.2.2.5.11. VirtIO ISR Status BAR Indicator Register (Address: 0x030)
3.2.2.5.12. VirtIO ISR Status BAR Offset Register (Address: 0x031)
3.2.2.5.13. VirtIO ISR Status Structure Length Register (Address: 0x032)
3.2.2.5.14. VirtIO Device Specific Capability Register (Address: 0x033)
3.2.2.5.15. VirtIO Device Specific BAR Indicator Register (Address: 0x034)
3.2.2.5.16. VirtIO Device Specific BAR Offset Register (Address 0x035)
3.2.2.5.17. VirtIO Device Specific Structure Length Register (Address: 0x036)
3.2.2.5.18. VirtIO PCI Configuration Access Capability Register (Address: 0x037)
3.2.2.5.19. VirtIO PCI Configuration Access BAR Indicator Register (Address: 0x038)
3.2.2.5.20. VirtIO PCI Configuration Access BAR Offset Register (Address: 0x039)
3.2.2.5.21. VirtIO PCI Configuration Access Structure Length Register (Address: 0x03A)
3.2.2.5.22. VirtIO PCI Configuration Access Data Register (Address: 0x03B)
4.3.1. Avalon® Streaming Interface
4.3.2. Precision Time Measurement (PTM) Interface (Endpoint Only)
4.3.3. Interrupt Interface
4.3.4. Hard IP Reconfiguration Interface
4.3.5. Error Interface
4.3.6. Completion Timeout Interface
4.3.7. Configuration Intercept Interface
4.3.8. Power Management Interface
4.3.9. Hard IP Status Interface
4.3.10. Page Request Services (PRS) Interface (Endpoint Only)
4.3.11. Function-Level Reset (FLR) Interface (Endpoint Only)
4.3.12. SR-IOV VF Error Flag Interface (Endpoint Only)
4.3.13. General Purpose VSEC Interface
5.2.3.1. Device Capabilities
5.2.3.2. VirtIO Parameters
5.2.3.3. Link Capabilities
5.2.3.4. Legacy Interrupt Pin Register
5.2.3.5. MSI Capabilities
5.2.3.6. MSI-X Capabilities
5.2.3.7. Slot Capabilities
5.2.3.8. Latency Tolerance Reporting (LTR)
5.2.3.9. Process Address Space ID (PASID)
5.2.3.10. Device Serial Number Capability
5.2.3.11. Page Request Service (PRS)
5.2.3.12. Access Control Service (ACS)
5.2.3.13. Power Management
5.2.3.14. Vendor Specific Extended Capability (VSEC) Registers
5.2.3.15. TLP Processing Hints (TPH)
5.2.3.16. Address Translation Services (ATS) Capabilities
5.2.3.17. Precision Time Management (PTM)
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2.3. PCIe Hard IP Mode
In this mode, the four cores (one x16 core, one x8 core and two x4 cores) in the PCIe Hard IP can be configured to support the following topologies:
Configuration Mode | Native IP Mode | Endpoint (EP) / Root Port (RP) / TLP Bypass (BP) | Active Cores |
---|---|---|---|
Configuration Mode 0 | Gen3 x16 or Gen4 x16 or Gen5 x16 | EP/RP/BP | x16 |
Configuration Mode 1 | Gen3 x8/Gen3 x8 or Gen4 x8/Gen4 x8 or Gen5 x8/Gen5 x8 | EP/RP/BP | x16, x8 |
Configuration Mode 2 | Gen3 x4/Gen3 x4/Gen3 x4/Gen3 x4 or Gen4 x4/Gen4 x4/Gen4 x4/Gen4 x4 or Gen5 x4/Gen5 x4/Gen5 x4/Gen5 x4 | EP/RP/BP | x16, x8, x4_0, x4_1 |
Configuration Mode 3 | PIPE Direct (with a maximum of 16 channels) | N/A | None |
In Configuration Mode 0, only the x16 core is active, and it operates in x16 mode (in Gen3, Gen4 or Gen5).
In Configuration Mode 1, the x16 core and x8 core are active, and they operate as two Gen3 x8 cores, two Gen4 x8 cores or two Gen5 x8 cores.
Note: In Configuration Mode 1, when you use only one of the x8 bifurcated ports, you must ensure that the other bifurcated port's lanes are not physically connected. If you connect both x8 bifurcated ports to a x16 Root Port/Switch device, it is non-deterministic which x8 port will be trained.
In Configuration Mode 2, all four cores (x16, x8, x4_0, x4_1) are active, and they operate as four Gen3 x4 cores, four Gen4 x4 cores or four Gen5 x4 cores.
Note: In Configuration Mode 2, for the 22.1 release of Intel® Quartus® Prime, the x4_0 core is disabled for devices without R2 or R3 in their OPN. For these devices, the maximum number of active x4 cores for Configuration Mode 2 is three (with these active cores being the x16, x8 and x4_1 cores, all configured as x4 cores). However, devices with the R2 or R3 suffix in their OPN number can support the x16, x8, x4_1 and x4_0 cores all being active while in Configuration Mode 2. For additional details on OPN decoding, refer to the Intel® Agilex™ FPGAs and SoCs Device Overview.
Each of the cores has its own Avalon® -ST interface to the user logic. The number of IP-to-User Logic interfaces exposed to the FPGA fabric are different based on the configuration modes.