GTS AXI Streaming IP for PCI Express* User Guide: Agilex™ 5 and Agilex™ 3 FPGAs and SoCs

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ID 813754
Date 8/04/2025
Public
Document Table of Contents
Document Table of Contents x
1. Introduction 2. Features 3. Getting Started with GTS AXI Streaming IP 4. IP Architecture and Functional Description 5. IP Parameters 6. Interfaces and Signals 7. Registers 8. Document Revision History for the GTS AXI Streaming IP for PCI Express* User Guide: Agilex™ 5 and Agilex™ 3 FPGAs and SoCs A. Troubleshooting/Debugging B. PIPE Mode Simulation C. Implementation of Address Translation Services (ATS) in Endpoint Mode
1. Introduction x
1.1. About PCI Express* 1.2. Goal of the GTS AXI Streaming IP for PCI Express* User Guide 1.3. Example Use Models
2. Features x
2.1. Supported Features 2.2. Device Family Support 2.3. Release Information 2.4. Recommended FPGA Fabric Speed Grades 2.5. Resource Utilization 2.6. IP Core and Design Example Support Levels
3. Getting Started with GTS AXI Streaming IP x
3.1. Downloading and Installing Quartus® Prime Software 3.2. Configuring and Generating the GTS AXI Streaming IP 3.3. Configuring and Generating GTS System PLL Clocks IP 3.4. Configuring and Generating GTS Reset Sequencer IP 3.5. Instantiating and Connecting GTS AXI Streaming IP Interfaces (and Other IPs) 3.6. Simulating the GTS AXI Streaming IP Variant 3.7. Compiling the GTS AXI Streaming IP Variant
4. IP Architecture and Functional Description x
4.1. Clocking 4.2. Resets 4.3. PCIe* Hard IP 4.4. Hard IP Interface (IF) Adaptor 4.5. Interrupts 4.6. Transaction Ordering 4.7. TX Non-Posted Metering Requirement on Application 4.8. AXI4-Stream Interface 4.9. Tag Allocation 4.10. Power Management 4.11. Config Retry Status Enable 4.12. Hot-Plug 4.13. Configuration Space Extension 4.14. Page Request Service (EP only) 4.15. Precision Time Measurement (PTM) 4.16. Single Root I/O Virtualization (SR-IOV) 4.17. Transaction Layer Packet (TLP) Bypass Mode 4.18. Scalable IOV
4.1. Clocking x
4.1.1. Reference Clock
4.5. Interrupts x
4.5.1. Legacy Interrupt 4.5.2. Message Signaled Interrupts (MSI) 4.5.3. Message Signal Interrupt Extended (MSI-X)
4.8. AXI4-Stream Interface x
4.8.1. Header Format 4.8.2. Prefix Format 4.8.3. Function Number Format 4.8.4. BAR Number Format 4.8.5. Data and Header Packing Scheme
4.10. Power Management x
4.10.1. Endpoint D3 Entry 4.10.2. Endpoint L2 Exit
4.16. Single Root I/O Virtualization (SR-IOV) x
4.16.1. SR-IOV Implementation
4.17. Transaction Layer Packet (TLP) Bypass Mode x
4.17.1. AXI-Lite Usage for TLP Bypass Mode 4.17.2. Configuration TLP 4.17.3. Transmit Interface 4.17.4. Receive Interface 4.17.5. Malformed TLP 4.17.6. ECRC
5. IP Parameters x
5.1. System Settings 5.2. PCIe0/PCIe1 5.3. Diagnostics
5.2. PCIe0/PCIe1 x
5.2.1. Interfaces Port 0/Interfaces Port 1 5.2.2. PCIe0/PCIe1 Settings
5.2.1. Interfaces Port 0/Interfaces Port 1 x
5.2.1.1. AXI Interfaces 0/AXI Interface 1 Settings
5.2.2. PCIe0/PCIe1 Settings x
5.2.2.1. PCIe0/PCIe1 Configuration, Debug and Extension Options 5.2.2.2. PCIe0/PCIe1 Base Address Registers 5.2.2.3. PCIe0/PCIe1 Device Identification Registers 5.2.2.4. PCIe0/PCIe1 PCI Express / PCI Capabilities
5.2.2.4. PCIe0/PCIe1 PCI Express / PCI Capabilities x
5.2.2.4.1. PCIe0/PCIe1 Device 5.2.2.4.2. PCIe0/PCIe1 Link 5.2.2.4.3. PCIe0/PCIe1 Slot 5.2.2.4.4. PCIe0/PCIe1 Legacy Interrupt Pin Register 5.2.2.4.5. PCIe0/PCIe1 PTM 5.2.2.4.6. PCIe0/PCIe1 LTR 5.2.2.4.7. PCIe0/PCIe1 MSI 5.2.2.4.8. PCIe0/PCIe1 MSI-X 5.2.2.4.9. PCIe0/PCIe1 PASID 5.2.2.4.10. PCIe0/PCIe1 DEV SER 5.2.2.4.11. PCIe0/PCIe1 PRS 5.2.2.4.12. PCIe0/PCIe1 Power Management 5.2.2.4.13. PCIe0/PCIe1 VSEC 5.2.2.4.14. PCIe0/PCIe1 ATS 5.2.2.4.15. PCIe0/PCIe1 TPH 5.2.2.4.16. PCIe0/PCIe1 ACS 5.2.2.4.17. PCIe0/PCIe1 Hot-Plug 5.2.2.4.18. PCIe0/PCIe1 VIRTIO
5.2.2.4.10. PCIe0/PCIe1 DEV SER x
5.2.2.4.10.1. Implementing Device Serial Number (DSN) with Runtime Update Support
5.2.2.4.18. PCIe0/PCIe1 VIRTIO x
5.2.2.4.18.1. PCIe0/PCIe1 PF<n> VIRTIO STRUCTURES
6. Interfaces and Signals x
6.1. Overview 6.2. Clocks and Resets 6.3. AXI4-Stream Interfaces 6.4. Configuration Intercept Interface 6.5. Configuration Extension Bus (CEB) Interface 6.6. Control Shadow Interface 6.7. Transmit Flow Control Credit Interface 6.8. Completion Timeout Interface 6.9. Control and Status Register Responder Interface 6.10. Function Level Reset Interface 6.11. TLP Bypass Error Reporting Interface 6.12. Error Interface 6.13. VF Error Flag Interface 6.14. VIRTIO PCI* Configuration Access Interface 6.15. Precision Time Measurement (PTM) Interface 6.16. Serial Data Signals 6.17. Miscellaneous Signals
6.2. Clocks and Resets x
6.2.1. Interface Clock Signals 6.2.2. Interface Reset Signals
6.3. AXI4-Stream Interfaces x
6.3.1. AXI4-Stream Receive (RX) Interface 6.3.2. AXI4-Stream Transmit (TX) Interface
6.4. Configuration Intercept Interface x
6.4.1. Configuration Intercept Request Interface 6.4.2. Configuration Intercept Response Interface
6.5. Configuration Extension Bus (CEB) Interface x
6.5.1. Configuration Extension Bus Request Interface 6.5.2. Configuration Extension Bus Response Interface
6.10. Function Level Reset Interface x
6.10.1. Function Level Reset Received Interface 6.10.2. Function Level Reset Completion Interface
6.14. VIRTIO PCI* Configuration Access Interface x
6.14.1. VIRTIO PCI Configuration Access Request Interface 6.14.2. VIRTIO PCI Configuration Access Completion Interface
7. Registers x
7.1. Register Address Map 7.2. PCI Express* Configuration Space 7.3. HIP Port and Status Registers 7.4. Soft Register Address Map 7.5. Indirect Register Access 7.6. Virtual Function (VF) PCI Express* Configuration Space 7.7. Altera-Defined VSEC Capability Register
7.2. PCI Express* Configuration Space x
7.2.1. PCI Express* Configuration Header Registers 7.2.2. PCI Express* Capability Structures 7.2.3. Physical Layer 16.0 GT/s Extended Capability Structures
7.3. HIP Port and Status Registers x
7.3.1. Root Port Interrupt Registers 7.3.2. PTM Registers
7.4. Soft Register Address Map x
7.4.1. Control Registers 7.4.2. Debug Registers 7.4.3. Performance Monitor Registers
7.6. Virtual Function (VF) PCI Express* Configuration Space x
7.6.1. VF PCI-Compatible Configuration Space Header Type0 7.6.2. VF PCI Express* Capability Structure 7.6.3. VF Message Signal Interrupt Extended (MSI-X) Capability Structure 7.6.4. VF Alternative Routing ID (ARI) Capability Structure 7.6.5. VF TLP Processing Hints (TPH) Capability Structure 7.6.6. VF Address Translation Services (ATS) Capability Structure 7.6.7. VF Access Control Services (ACS) Capability Structure
7.6.1. VF PCI-Compatible Configuration Space Header Type0 x
7.6.1.1. Vendor ID and Device ID Registers 7.6.1.2. Command Registers 7.6.1.3. Status Registers 7.6.1.4. Revision ID and Class Code Register 7.6.1.5. BIST, Header Type, Latency Timer, and Cache Line Size Registers 7.6.1.6. Subsystem Vendor ID and Subsystem ID Register 7.6.1.7. Capabilities Pointer
7.6.2. VF PCI Express* Capability Structure x
7.6.2.1. PCI Express* Capability List Register 7.6.2.2. PCI Express* Device Capabilities Register 7.6.2.3. PCI Express* Device Control and Status Register 7.6.2.4. Link Capabilities Register 7.6.2.5. Link Control and Status Register 7.6.2.6. PCI Express* Device Capabilities 2 Register 7.6.2.7. PCI Express* Device Control and Status 2 Register 7.6.2.8. Link Capabilities 2 Register 7.6.2.9. Link Control and Status 2 Register
7.6.3. VF Message Signal Interrupt Extended (MSI-X) Capability Structure x
7.6.3.1. MSI-X Control Register 7.6.3.2. MSI-X Table Offset Register 7.6.3.3. MSI-X Pending Bit Array Register
7.6.4. VF Alternative Routing ID (ARI) Capability Structure x
7.6.4.1. ARI Enhanced Capability Header Register 7.6.4.2. ARI Capability and Control Registers
7.6.5. VF TLP Processing Hints (TPH) Capability Structure x
7.6.5.1. TPH Requester Enhanced Capability Header 7.6.5.2. TPH Requester Capability Register 7.6.5.3. TPH Requester Control Register
7.6.6. VF Address Translation Services (ATS) Capability Structure x
7.6.6.1. ATS Enhanced Capability Header 7.6.6.2. ATS Capability Register and Control Register
7.6.7. VF Access Control Services (ACS) Capability Structure x
7.6.7.1. ACS Extended Capability Header 7.6.7.2. ACS Capability and Control Register 7.6.7.3. Egress Control Vector
A. Troubleshooting/Debugging x
A.1. Hardware A.2. Debug Toolkit
A.1. Hardware x
A.1.1. Debugging Link Training Issues A.1.2. Debugging Data Transfer and Performance Issues
A.1.1. Debugging Link Training Issues x
A.1.1.1. Generic Tools and Utilities A.1.1.2. Signal Tap Logic Analyzer
A.2. Debug Toolkit x
A.2.1. Overview A.2.2. Enabling the Agilex™ 5 Debug Toolkit A.2.3. Launching the Agilex™ 5 Debug Toolkit A.2.4. Using the Agilex™ 5 Debug Toolkit A.2.5. Using the Agilex™ 5 Link Inspector
A.2.4. Using the Agilex™ 5 Debug Toolkit x
A.2.4.1. Main View A.2.4.2. Toolkit Parameters A.2.4.3. Channel Parameters A.2.4.4. Eye Viewer
A.2.4.2. Toolkit Parameters x
A.2.4.2.1. Agilex™ 5 Information A.2.4.2.2. Event Counter A.2.4.2.3. P0 Configuration Space
A.2.4.3. Channel Parameters x
A.2.4.3.1. General PHY A.2.4.3.2. TX Path A.2.4.3.3. RX Path
B. PIPE Mode Simulation x
B.1. PIPE Mode Interfaces
C. Implementation of Address Translation Services (ATS) in Endpoint Mode x
C.1. Sending Translated/Untranslated Requests C.2. Sending a Page Request Message from the Endpoint (EP) to the Root Complex (RC) C.3. Invalidating Requests/Completions
1. Introduction
2. Features
3. Getting Started with GTS AXI Streaming IP
4. IP Architecture and Functional Description
5. IP Parameters
6. Interfaces and Signals
7. Registers
8. Document Revision History for the GTS AXI Streaming IP for PCI Express* User Guide: Agilex™ 5 and Agilex™ 3 FPGAs and SoCs
A. Troubleshooting/Debugging
B. PIPE Mode Simulation
C. Implementation of Address Translation Services (ATS) in Endpoint Mode

4.10. Power Management

The GTS AXI Streaming has a power management register that allows you to manage Power Management messages. These registers are implemented in the soft control register space.
Note: Refer to Control Registers section for the details about the POWER MANAGEMENT CTRL register.
The GTS AXI Streaming IP supports the two mandatory power states: D0 (full power) and D3 (preparation for a loss of power). It does not support the optional D1 and D2 low-power states.
Table 26.  Device and Link Power States Relationship
Device Power State Link Power State
D0 L0
D1 (not supported) L1
D2 (not supported) L1
D3 L1, L2/L3 Ready
The GTS AXI Streaming IP provides the D-States Status register (D-States STS) to allow the application to read the D-State value of each function from the Hard IP controller.
Note: Refer to Control Registers section for the details about the D-States STS register.

The GTS AXI Streaming IP supports Active State Power Management (ASPM) which is a hardware-based link power conservation mechanism while the device is in the D0 device power state. You can enable and disable ASPM via the Active State PM Control field of the Link Control register as defined in the PCIe* Base Specification. The HIP handles the transition into and out of ASPM states. ASPM defined two low power states, L0s (standby state) and L1 ASPM.L0s state, provide considerable power saving but still allow quick entry and exit. L1 state provides greater power conservation than L0s for applications where longer entry and exit latencies are acceptable.


Section Content
Endpoint D3 Entry
Endpoint L2 Exit

Level Two Title