1G/2.5G/5G/10G Multirate Ethernet PHY Intel® FPGA IP User Guide: Agilex™ 3 and Agilex™ 5 FPGAs and SoCs

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ID 813667
Date 4/07/2025
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Document Table of Contents
Document Table of Contents x
1. About the 1G/2.5G/5G/10G Multirate Ethernet PHY Intel® FPGA IP for Agilex™ 3 and Agilex™ 5 Devices 2. Getting Started 3. Functional Description 4. Parameter Settings for 1G/2.5G/5G/10G Multirate Ethernet PHY Intel® FPGA IP 5. Interface Signals 6. Configuration Registers 7. Debug Checklist 8. 1G/2.5G/5G/10G Multirate Ethernet PHY Intel® FPGA IP User Guide: Agilex™ 3 and Agilex™ 5 FPGAs and SoCs Archives 9. Document Revision History for the 1G/2.5G/5G/10G Multirate Ethernet PHY Intel® FPGA IP User Guide: Agilex™ 3 and Agilex™ 5 FPGAs and SoCs
1. About the 1G/2.5G/5G/10G Multirate Ethernet PHY Intel® FPGA IP for Agilex™ 3 and Agilex™ 5 Devices x
1.1. Release Information 1.2. Features 1.3. Device Family Support 1.4. Device Speed Grade Support 1.5. Resource Utilization
2. Getting Started x
2.1. Introduction to Intel® FPGA IP 2.2. Installing and Licensing Intel® FPGA IPs 2.3. Specifying the IP Core Parameters and Options 2.4. Generated File Structure 2.5. Simulating Intel® FPGA IPs 2.6. Integrating Your IP Core in Your Design
2.2. Installing and Licensing Intel® FPGA IPs x
2.2.1. Intel FPGA IP Evaluation Mode
2.6. Integrating Your IP Core in Your Design x
2.6.1. Adding the GTS System PLL Clocks IP
3. Functional Description x
3.1. Architecture 3.2. Dynamic Reconfiguration Flow 3.3. Clocking and Reset Sequence 3.4. Timing Constraints 3.5. Operation Speed Switching 3.6. USXGMII 3.7. Fmax Requirement
3.1. Architecture x
3.1.1. 2.5G, 1G/2.5G, 1G/2.5G/10G (MGBASE) 3.1.2. 10M/100M/1G/2.5G/5G/10G (USXGMII) 3.1.3. 1G/2.5G/10G MGBASE PCS only
3.2. Dynamic Reconfiguration Flow x
3.2.1. RTL Generation using Dynamic Reconfiguration IP
3.2.1. RTL Generation using Dynamic Reconfiguration IP x
3.2.1.1. Step 1: Generating the 1G/2.5G/5G/10G Multirate Ethernet PHY IP 3.2.1.2. Step 2: QSF settings and Dynamic Reconfiguration (DR) profile assignments 3.2.1.3. Step 3: RTL Generation using Quartus® Prime Pro Edition Tool 3.2.1.4. Step 4: Instantiate the IP top file with the GTS Dynamic Reconfiguration Controller IP
3.3. Clocking and Reset Sequence x
3.3.1. Clocking 3.3.2. Reset Sequence
4. Parameter Settings for 1G/2.5G/5G/10G Multirate Ethernet PHY Intel® FPGA IP x
4.1. Core Configuration 4.2. Analog Parameters
5. Interface Signals x
5.1. Clock Signals 5.2. Reset Signals 5.3. Serial Interface Signals 5.4. Avalon Memory-Mapped Interface Signals 5.5. XGMII Signals 5.6. GMII Signals 5.7. PHY Status Signals 5.8. Transceiver Mode and Operating Speed Signals 5.9. Transceiver Status and Reconfiguration Signals 5.10. GTS Reset Sequencer Signals 5.11. Dynamic Reconfiguration Controller Interface Signals
5.6. GMII Signals x
5.6.1. 1G/2.5G/10G MGBASE PCS Only PMA Interface
6. Configuration Registers x
6.1. Register Map 6.2. PHY Registers
7. Debug Checklist x
7.1. Pre-Debugging Process 7.2. Clock Frequency 7.3. Recommended Reset Handling 7.4. Signals for Signal Tap
1. About the 1G/2.5G/5G/10G Multirate Ethernet PHY Intel® FPGA IP for Agilex™ 3 and Agilex™ 5 Devices
2. Getting Started
3. Functional Description
4. Parameter Settings for 1G/2.5G/5G/10G Multirate Ethernet PHY Intel® FPGA IP
5. Interface Signals
6. Configuration Registers
7. Debug Checklist
8. 1G/2.5G/5G/10G Multirate Ethernet PHY Intel® FPGA IP User Guide: Agilex™ 3 and Agilex™ 5 FPGAs and SoCs Archives
9. Document Revision History for the 1G/2.5G/5G/10G Multirate Ethernet PHY Intel® FPGA IP User Guide: Agilex™ 3 and Agilex™ 5 FPGAs and SoCs

1.3. Device Family Support

Table 4.  Device Family Support
Device Family Support Level
Agilex™ 3 Preliminary

Agilex™ 5

Preliminary
Note: IP enablement for Agilex™ 3 FPGAs and SoCs devices are subjected to device resource availability in selected OPN. Refer Resource Utilization table for IP resource utilization values.
The following terms define device support levels for Intel FPGA IP cores:
  • Advance support—the IP core is available for simulation and compilation for this device family. Timing models include initial engineering estimates of delays based on early post-layout information. The timing models are subject to change as silicon testing improves the correlation between the actual silicon and the timing models. You can use this IP core for system architecture and resource utilization studies, simulation, pinout, system latency assessments, basic timing assessments (pipeline budgeting), and I/O transfer strategy (data-path width, burst depth, I/O standards tradeoffs).
  • Preliminary support—the IP core is verified with preliminary timing models for this device family. The IP core meets all functional requirements, but might still be undergoing timing analysis for the device family. It can be used in production designs with caution.
  • Final support—the IP core is verified with final timing models for this device family. The IP core meets all functional and timing requirements for the device family and can be used in production designs.
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