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1. Low Latency 100G Ethernet Intel FPGA IP Overview
2. Getting Started
3. IP Core Parameters
4. Functional Description
5. Reset
6. Interfaces and Signal Descriptions
7. Registers
8. Debugging the Link
9. Ethernet Toolkit Overview
10. Low Latency 100G Ethernet Intel FPGA IP Core User Guide Archives
11. Document Revision History for the Low Latency 100G Ethernet Intel FPGA IP Core User Guide
4.3.1. Low Latency 100G Ethernet Intel FPGA IP Core Preamble Processing
4.3.2. IP Core Strict SFD Checking
4.3.3. Low Latency 100G Ethernet Intel FPGA IP Core FCS (CRC-32) Removal
4.3.4. Low Latency 100G Ethernet Intel FPGA IP Core CRC Checking
4.3.5. Low Latency 100G Ethernet Intel FPGA IP Core Malformed Packet Handling
4.3.6. RX CRC Forwarding
4.3.7. Inter-Packet Gap
4.3.8. RX PCS
4.3.9. RX RSFEC
7.8.1. AN/LT Sequencer Config
7.8.2. AN/LT Sequencer Status
7.8.3. Auto Negotiation Config Register 1
7.8.4. Auto Negotiation Config Register 2
7.8.5. Auto Negotiation Status Register
7.8.6. Auto Negotiation Config Register 3
7.8.7. Auto Negotiation Config Register 4
7.8.8. Auto Negotiation Config Register 5
7.8.9. Auto Negotiation Config Register 6
7.8.10. Auto Negotiation Status Register 1
7.8.11. Auto Negotiation Status Register 2
7.8.12. Auto Negotiation Status Register 3
7.8.13. Auto Negotiation Status Register 4
7.8.14. Auto Negotiation Status Register 5
7.8.15. Link Training Config Register 1
7.8.16. Link Training Config Register 2
7.8.17. Link Training Status Register 1
7.8.18. Link Training Config Register for Lane 0
7.8.19. Link Training Frame Contents for Lane 0
7.8.20. Local Transceiver TX EQ 1 Settings for Lane 0
7.8.21. Local Transceiver TX EQ 2 Settings for Lane 0
7.8.22. Local Link Training Parameters
7.8.23. Link Training Config Register for Lane 1
7.8.24. Link Training Frame Contents for Lane 1
7.8.25. Local Transceiver TX EQ 1 Settings for Lane 1
7.8.26. Local Transceiver TX EQ 2 Settings for Lane 1
7.8.27. Link Training Config Register for Lane 2
7.8.28. Link Training Frame Contents for Lane 2
7.8.29. Local Transceiver TX EQ 1 Settings for Lane 2
7.8.30. Local Transceiver TX EQ 2 Settings for Lane 2
7.8.31. Link Training Config Register for Lane 3
7.8.32. Link Training Frame Contents for Lane 3
7.8.33. Local Transceiver TX EQ 1 Settings for Lane 3
7.8.34. Local Transceiver TX EQ 2 Settings for Lane 3
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2.2. Specifying the IP Core Parameters and Options
The Low Latency 100G Ethernet Intel FPGA parameter editor allows you to quickly configure your custom IP variation. Use the following steps to specify IP core options and parameters in the Quartus® Prime Pro Edition software.
- If you do not already have an Quartus® Prime Pro Edition project in which to integrate your Low Latency 100G Ethernet Intel FPGA IP core, you must create one.
- In the Quartus® Prime Pro Edition, click File > New Project Wizard to create a new Quartus® Prime project, or File > Open Project to open an existing Quartus® Prime project. The wizard prompts you to specify a device.
- Specify the device family and select a device that meets all of these requirements:
- Transceiver tile is L-tile or H-tile
- Transceiver speed grade is –1 or –2
- Core speed grade is –1 or –2
Note: For Stratix® 10 devices, 1SG280L ES1 is not a device (part name 1SG280L...VGS1).
- Click Finish.
- In the IP Catalog, locate and select Low Latency 100G Ethernet. The New IP Variation window appears.
- Specify a top-level name for your new custom IP variation. The parameter editor saves the IP variation settings in a file named <your_ip> .ip.
- Click OK. The parameter editor appears.
- Specify the parameters for your IP core variation. Refer to IP Core Parameters for information about specific IP core parameters.
- Optionally, to generate a simulation testbench or compilation and hardware design example, follow the instructions in the Design Example User Guide.
- Click Generate HDL. The Generation dialog box appears.
- Specify output file generation options, and then click Generate. The IP variation files generate according to your specifications.
Note: A functional VHDL IP core is not available. Specify Verilog HDL only, for your IP core variation.
- Click Finish. The parameter editor adds the top-level .ip file to the current project automatically. If you are prompted to manually add the .ip file to the project, click Project > Add/Remove Files in Project to add the file.
- After generating and instantiating your IP variation, make appropriate pin assignments to connect ports.
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