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1. Datasheet
2. Getting Started with the Arria® V GZ Hard IP for PCI Express
3. Getting Started with the Configuration Space Bypass Mode Qsys Example Design
4. Parameter Settings
5. Interfaces and Signal Descriptions
6. Registers
7. Interrupts
8. Error Handling
9. PCI Express Protocol Stack
10. Transaction Layer Protocol (TLP) Details
11. Throughput Optimization
12. Design Implementation
13. Additional Features
14. Hard IP Reconfiguration
15. Transceiver PHY IP Reconfiguration
16. Testbench and Design Example
17. Debugging
A. Lane Initialization and Reversal
B. Document Revision History
1.1. Arria® V GZ Avalon-ST Interface for PCIe Datasheet
1.2. Release Information
1.3. Device Family Support
1.4. Configurations
1.5. Avalon-ST Example Designs
1.6. Debug Features
1.7. IP Core Verification
1.8. Resource Utilization
1.9. Recommended Speed Grades
1.10. Creating a Design for PCI Express
2.1.1. Generating the Testbench
2.1.2. Simulating the Example Design
2.1.3. Generating Synthesis Files
2.1.4. Understanding the Files Generated
2.1.5. Understanding Simulation Log File Generation
2.1.6. Understanding Physical Placement of the PCIe IP Core
2.1.7. Compiling the Design in the Qsys Design Flow
2.1.8. Modifying the Example Design
2.1.9. Using the IP Catalog To Generate Your Arria® V GZ Hard IP for PCI Express as a Separate Component
3.3.1. Timing for Configuration Read to Function 0 for the 256-Bit Avalon-ST Interface
3.3.2. Timing for Configuration Write to Function 0 for the 256-Bit Avalon-ST Interface
3.3.3. Timing for Memory Write and Read of Function 1 256-Bit Avalon-ST Interface
3.3.4. Partial Transcript for Configuration Space Bypass Simulation
5.1. Clock Signals
5.2. Reset, Status, and Link Training Signals
5.3. ECRC Forwarding
5.4. Error Signals
5.5. Interrupts for Endpoints
5.6. Interrupts for Root Ports
5.7. Completion Side Band Signals
5.8. Configuration Space Bypass Mode Interface Signals
5.9. Parity Signals
5.10. LMI Signals
5.11. Transaction Layer Configuration Space Signals
5.12. Hard IP Reconfiguration Interface
5.13. Power Management Signals
5.14. Physical Layer Interface Signals
6.1. Correspondence between Configuration Space Registers and the PCIe Specification
6.2. Type 0 Configuration Space Registers
6.3. Type 1 Configuration Space Registers
6.4. PCI Express Capability Structures
6.5. Intel-Defined VSEC Registers
6.6. CvP Registers
6.7. Uncorrectable Internal Error Mask Register
6.8. Uncorrectable Internal Error Status Register
6.9. Correctable Internal Error Mask Register
6.10. Correctable Internal Error Status Register
16.6.1. ebfm_barwr Procedure
16.6.2. ebfm_barwr_imm Procedure
16.6.3. ebfm_barrd_wait Procedure
16.6.4. ebfm_barrd_nowt Procedure
16.6.5. ebfm_cfgwr_imm_wait Procedure
16.6.6. ebfm_cfgwr_imm_nowt Procedure
16.6.7. ebfm_cfgrd_wait Procedure
16.6.8. ebfm_cfgrd_nowt Procedure
16.6.9. BFM Configuration Procedures
16.6.10. BFM Shared Memory Access Procedures
16.6.11. BFM Log and Message Procedures
16.6.12. Verilog HDL Formatting Functions
16.7.1. Changing Between Serial and PIPE Simulation
16.7.2. Using the PIPE Interface for Gen1 and Gen2 Variants
16.7.3. Viewing the Important PIPE Interface Signals
16.7.4. Disabling the Scrambler for Gen1 and Gen2 Simulations
16.7.5. Disabling 8B/10B Encoding and Decoding for Gen1 and Gen2 Simulations
16.7.6. Changing between the Hard and Soft Reset Controller
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16.7.1. Changing Between Serial and PIPE Simulation
By default, the Intel testbench runs a serial simulation. You can change between serial and PIPE simulation by editing the top-level testbench file.
For Endpoint designs, the top-level testbench file is <working_dir>/<instantiation_name>/testbench/<instantiation_name>_tb/simulation/<instantiation_name>_tb.v
The serial_sim_hwtcl and enable_pipe32_sim_hwtcl parameters control serial mode or PIPE simulation mode. To change to PIPE mode, change enable_pipe32_sim_hwtcl to 1'b1 and serial_sim_hwtcl to 1'b0.
Data Rates | Parameter Settings | |
---|---|---|
serial_sim_hwtcl | enable_pipe32_sim_hwtcl | |
Serial simulation | 1 | 0 |
PIPE simulation | 0 | 1 |