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1. Datasheet
2. Getting Started with the SR-IOV Design Example
3. Parameter Settings
4. Physical Layout
5. Interfaces and Signal Descriptions
6. Registers
7. Reset and Clocks
8. Programming and Testing SR-IOV Bridge MSI Interrupts
9. Error Handling
10. IP Core Architecture
11. Design Implementation
12. Debugging
13. Document Revision History
A. Transaction Layer Packet (TLP) Header Formats
B. Arria® 10 Avalon-ST with SR-IOV Interface for PCIe Solutions User Guide Archive
3.1. Parameters
3.2. Arria® 10 Avalon-ST Settings
3.3. Arria® 10 SR-IOV System Settings
3.4. Base Address Register (BAR) Settings
3.5. SR-IOV Device Identification Registers
3.6. Arria® 10 Interrupt Capabilities
3.7. Physical Function TLP Processing Hints (TPH)
3.8. Address Translation Services (ATS)
3.9. PCI Express and PCI Capabilities Parameters
3.10. PHY Characteristics
3.11. Example Designs
5.1. Avalon-ST TX Interface
5.2. Component-Specific Avalon-ST Interface Signals
5.3. Avalon-ST RX Interface
5.4. BAR Hit Signals
5.5. Configuration Status Interface
5.6. Clock Signals
5.7. Function-Level Reset (FLR) Interface
5.8. SR-IOV Interrupt Interface
5.9. Configuration Extension Bus (CEB) Interface
5.10. Implementing MSI-X Interrupts
5.11. Control Shadow Interface
5.12. Local Management Interface (LMI) Signals
5.13. Reset, Status, and Link Training Signals
5.14. Hard IP Reconfiguration Interface
5.15. Serial Data Signals
5.16. Test Signals
5.17. PIPE Interface Signals
5.18. Arria® 10 Development Kit Conduit Interface
6.1. Addresses for Physical and Virtual Functions
6.2. Correspondence between Configuration Space Registers and the PCIe Specification
6.3. PCI and PCI Express Configuration Space Registers
6.4. MSI Registers
6.5. MSI-X Capability Structure
6.6. Power Management Capability Structure
6.7. PCI Express Capability Structure
6.8. Advanced Error Reporting (AER) Enhanced Capability Header Register
6.9. Uncorrectable Error Status Register
6.10. Uncorrectable Error Mask Register
6.11. Uncorrectable Error Severity Register
6.12. Correctable Error Status Register
6.13. Correctable Error Mask Register
6.14. Advanced Error Capabilities and Control Register
6.15. Header Log Registers 0-3
6.16. SR-IOV Virtualization Extended Capabilities Registers
6.17. Virtual Function Registers
6.16.1. SR-IOV Virtualization Extended Capabilities Registers Address Map
6.16.2. ARI Enhanced Capability Header
6.16.3. SR-IOV Enhanced Capability Registers
6.16.4. Initial VFs and Total VFs Registers
6.16.5. VF Device ID Register
6.16.6. Page Size Registers
6.16.7. VF Base Address Registers (BARs) 0-5
6.16.8. Secondary PCI Express Extended Capability Header
6.16.9. Lane Status Registers
6.16.10. Transaction Processing Hints (TPH) Requester Enhanced Capability Header
12.1.1. Changing Between Serial and PIPE Simulation
12.1.2. Using the PIPE Interface for Gen1 and Gen2 Variants
12.1.3. Viewing the Important PIPE Interface Signals
12.1.4. Disabling the Scrambler for Gen1 and Gen2 Simulations
12.1.5. Disabling 8B/10B Encoding and Decoding for Gen1 and Gen2 Simulations
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11.1. Making Pin Assignments to Assign I/O Standard to Serial Data Pins
Before running Quartus® Prime compilation, use the Pin Planner to assign I/O standards to the pins of the device.
- On the Quartus® Prime Assignments menu, select Pin Planner.
The Pin Planner appears.
- In the Node Name column, locate the PCIe serial data pins.
- In the I/O Standard column, double‑click the right‑hand corner of the box to bring up a list of available I/O standards.
- Select the appropriate standard from the following table.
The Quartus® Prime software adds instance assignments to your Quartus® Prime Settings File (*.qsf). The assignment is in the form set_instance_assignment -name IO_STANDARD <"IO_STANDARD_NAME"> -to <signal_name> . The *.qsf is in your synthesis directory.
5 AC coupling is required at the transmitter for the PCIE RX signals.
6 AC coupling is required at the transmitter for the PCIE TX signals.