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1. Introduction
2. Quick Start Guide
3. Interface Overview
4. Parameters
5. Designing with the IP Core
6. Block Descriptions
7. Interrupts
8. Registers
9. Testbench and Design Example
10. Troubleshooting and Observing the Link
A. PCI Express Core Architecture
B. TX Credit Adjustment Sample Code
C. Root Port Enumeration
D. Document Revision History
1.1. Avalon-ST Interface with Optional SR-IOV for PCIe Introduction
1.2. Features
1.3. Release Information
1.4. Device Family Support
1.5. Recommended Fabric Speed Grades
1.6. Performance and Resource Utilization
1.7. Transceiver Tiles
1.8. PCI Express IP Core Package Layout
1.9. Channel Availability
2.1. Design Components
2.2. Hardware and Software Requirements
2.3. Directory Structure
2.4. Generating the Design Example
2.5. Simulating the Design Example
2.6. Compiling the Design Example and Programming the Device
2.7. Installing the Linux Kernel Driver
2.8. Running the Design Example Application
3.1. Avalon-ST RX Interface
3.2. Avalon-ST TX Interface
3.3. TX Credit Interface
3.4. TX and RX Serial Data
3.5. Clocks
3.6. Function-Level Reset (FLR) Interface
3.7. Control Shadow Interface for SR-IOV
3.8. Configuration Extension Bus Interface
3.9. Hard IP Reconfiguration Interface
3.10. Interrupt Interfaces
3.11. Power Management Interface
3.12. Reset
3.13. Transaction Layer Configuration Interface
3.14. PLL Reconfiguration Interface
3.15. PIPE Interface (Simulation Only)
4.1. Stratix 10 Avalon-ST Settings
4.2. Multifunction and SR-IOV System Settings
4.3. Base Address Registers
4.4. Device Identification Registers
4.5. TPH/ATS Capabilities
4.6. PCI Express and PCI Capabilities Parameters
4.7. Configuration, Debug and Extension Options
4.8. PHY Characteristics
4.9. Example Designs
6.1.1. TLP Header and Data Alignment for the Avalon-ST RX and TX Interfaces
6.1.2. Avalon-ST 256-Bit RX Interface
6.1.3. Avalon-ST 512-Bit RX Interface
6.1.4. Avalon-ST 256-Bit TX Interface
6.1.5. Avalon-ST 512-Bit TX Interface
6.1.6. TX Credit Interface
6.1.7. Interpreting the TX Credit Interface
6.1.8. Clocks
6.1.9. Update Flow Control Timer and Credit Release
6.1.10. Function-Level Reset (FLR) Interface
6.1.11. Resets
6.1.12. Interrupts
6.1.13. Control Shadow Interface for SR-IOV
6.1.14. Transaction Layer Configuration Space Interface
6.1.15. Configuration Extension Bus Interface
6.1.16. Hard IP Status Interface
6.1.17. Hard IP Reconfiguration
6.1.18. Power Management Interface
6.1.19. Serial Data Interface
6.1.20. PIPE Interface
6.1.21. Test Interface
6.1.22. PLL IP Reconfiguration
6.1.23. Message Handling
8.1.1. Register Access Definitions
8.1.2. PCI Configuration Header Registers
8.1.3. PCI Express Capability Structures
8.1.4. Intel Defined VSEC Capability Header
8.1.5. General Purpose Control and Status Register
8.1.6. Uncorrectable Internal Error Status Register
8.1.7. Uncorrectable Internal Error Mask Register
8.1.8. Correctable Internal Error Status Register
8.1.9. Correctable Internal Error Mask Register
8.1.10. SR-IOV Virtualization Extended Capabilities Registers Address Map
8.1.10.1. ARI Enhanced Capability Header
8.1.10.2. SR-IOV Enhanced Capability Registers
8.1.10.3. Initial VFs and Total VFs Registers
8.1.10.4. VF Device ID Register
8.1.10.5. Page Size Registers
8.1.10.6. VF Base Address Registers (BARs) 0-5
8.1.10.7. Secondary PCI Express Extended Capability Header
8.1.10.8. Lane Status Registers
8.1.10.9. Transaction Processing Hints (TPH) Requester Enhanced Capability Header
8.1.10.10. TPH Requester Capability Register
8.1.10.11. TPH Requester Control Register
8.1.10.12. Address Translation Services ATS Enhanced Capability Header
8.1.10.13. ATS Capability Register and ATS Control Register
9.4.1. ebfm_barwr Procedure
9.4.2. ebfm_barwr_imm Procedure
9.4.3. ebfm_barrd_wait Procedure
9.4.4. ebfm_barrd_nowt Procedure
9.4.5. ebfm_cfgwr_imm_wait Procedure
9.4.6. ebfm_cfgwr_imm_nowt Procedure
9.4.7. ebfm_cfgrd_wait Procedure
9.4.8. ebfm_cfgrd_nowt Procedure
9.4.9. BFM Configuration Procedures
9.4.10. BFM Shared Memory Access Procedures
9.4.11. BFM Log and Message Procedures
9.4.12. Verilog HDL Formatting Functions
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9.3. Root Port BFM Overview
The basic Root Port BFM provides Verilog HDL task‑based interface to request transactions to issue on the PCI Express link. The Root Port BFM also handles requests received from the PCI Express link. The following figure shows the most important modules in the Root Port BFM.
Figure 71. Root Port BFM
These modules implement the following functionality:
- BFM Log Interface,altpcietb_bfm_log.v and altlpcietb_bfm_rp_<gen>_x8.v: The BFM log functions provides routine for writing commonly formatted messages to the simulator standard output and optionally to a log file. It also provides controls that stop simulation on errors. For details on these procedures, refer to BFM Log and Message Procedures.
- BFM Read/Write Request Functions, altpcietb_bfm_rp_<gen>_x8.sv: These functions provide the basic BFM calls for PCI Express read and write requests. For details on these procedures, refer to BFM Read and Write Procedures.
- BFM Log Interface, altpcietb_bfm_log.v and altlpcietb_bfm_rp_<gen>_x8.v: The BFM log functions provides routine for writing commonly formatted messages to the simulator standard output and optionally to a log file. It also provides controls that stop simulation on errors. For details on these procedures, refer to BFM Log and Message Procedures.
- BFM Configuration Functions, altpcietb_g3bfm_configure.v : These functions provide the BFM calls to request configuration of the PCI Express link and the Endpoint Configuration Space registers. For details on these procedures and functions, refer to BFM Configuration Procedures.
- BFM shared memory, altpcietb_g3bfm_shmem_common.v: This modules provides the Root Port BFM shared memory. It implements the following functionality:
- Provides data for TX write operations
- Provides data for RX read operations
- Receives data for RX write operations
- Receives data for received completions
- BFM Request Interface, altpcietb_g3bfm_req_intf.v: This interface provides the low-level interface between the altpcietb_g3bfm_rdwr and altpcietb_bfm_configure procedures or functions and the Root Port RTL Model. This interface stores a write-protected data structure containing the sizes and the values programmed in the BAR registers of the Endpoint. It also stores other critical data used for internal BFM management. You do not need to access these files directly to adapt the testbench to test your Endpoint application.
- Avalon‑ST Interfaces, altpcietb_g3bfm_vc_intf_ast_common.v: These interface modules handle the Root Port interface model. They take requests from the BFM request interface and generate the required PCI Express transactions. They handle completions received from the PCI Express link and notify the BFM request interface when requests are complete. Additionally, they handle any requests received from the PCI Express link, and store or fetch data from the shared memory before generating the required completions.