This project demonstrates the use of the Opsero Ethernet FMC Max (OP080) and it supports several development boards for UltraScale FPGA, Zynq UltraScale+ and Versal ACAP. The design contains 4 AXI 1G Ethernet Subsystem blocks configured with DMAs.
Important links:
- The user guide for these reference designs is hosted here: AXI Ethernet for Ethernet FMC Max docs
- To report a bug: Report an issue.
- For technical support: Contact Opsero.
- To purchase the mezzanine card: Ethernet FMC Max order page.
This project is designed for version 2024.1 of the Xilinx tools (Vivado/Vitis/PetaLinux). If you are using an older version of the Xilinx tools, then refer to the release tags to find the version of this repository that matches your version of the tools.
In order to test this design on hardware, you will need the following:
- Vivado 2024.1
- Vitis 2024.1
- PetaLinux Tools 2024.1
- Ethernet FMC Max
- One of the target platforms listed below
- Xilinx Soft TEMAC license
This repo contains several designs that target various supported development boards and their FMC connectors. The table below lists the target design name, the number of ports supported by the design and the FMC connector on which to connect the mezzanine card. Some of the target designs require a license to generate a bitstream with the AMD Xilinx tools.
Target board | Target design | Ports | FMC Slot | Standalone Echo Server |
PetaLinux | Vivado Edition |
---|---|---|---|---|---|---|
UltraZed-EV Carrier | uzev |
4x | HPC | ✅ | ✅ | Standard 🆓 |
ZCU102 | zcu102_hpc0 |
4x | HPC0 | ✅ | ✅ | Enterprise |
ZCU102 | zcu102_hpc1 |
4x | HPC1 | ✅ | ✅ | Enterprise |
ZCU104 | zcu104 |
1x | LPC | ✅ | ✅ | Standard 🆓 |
ZCU106 | zcu106_hpc0 |
4x | HPC0 | ✅ | ✅ | Standard 🆓 |
ZCU111 | zcu111 |
4x | FMCP | ✅ | ✅ | Enterprise |
ZCU208 | zcu208 |
4x | FMCP | ✅ | ✅ | Enterprise |
ZCU216 | zcu216 |
4x | FMCP | ✅ | ✅ | Enterprise |
Target board | Target design | Ports | FMC Slot | Standalone Echo Server |
PetaLinux | Vivado Edition |
---|---|---|---|---|---|---|
VCK190 | vck190_fmcp1 |
4x | FMCP1 | ✅ | ✅ | Enterprise |
VCK190 | vck190_fmcp2 |
4x | FMCP2 | ✅ | ✅ | Enterprise |
VEK280 | vek280 |
4x | FMCP | ✅ | ✅ | Enterprise |
VHK158 | vhk158 |
4x | FMCP | ✅ | ✅ | Enterprise |
VMK180 | vmk180_fmcp1 |
4x | FMCP1 | ✅ | ✅ | Enterprise |
VMK180 | vmk180_fmcp2 |
4x | FMCP2 | ✅ | ✅ | Enterprise |
VPK120 | vpk120 |
4x | FMCP | ✅ | ✅ | Enterprise |
VPK180 | vpk180 |
4x | FMCP | ✅ | ✅ | Enterprise |
Notes:
- The Vivado Edition column indicates which designs are supported by the Vivado Standard Edition, the FREE edition which can be used without a license. Vivado Enterprise Edition requires a license however a 30-day evaluation license is available from the AMD Xilinx Licensing site.
These reference designs can be driven by either a standalone application or within a PetaLinux environment. The repository includes all necessary scripts and code to build both environments. The table below outlines the corresponding applications available in each environment:
Environment | Available Applications |
---|---|
Standalone | lwIP Echo Server |
PetaLinux | Built-in Linux commands Additional tools: ethtool, phytool, iperf3 |
Clone the repo:
git clone https://github.com/fpgadeveloper/ethernet-fmc-max-axi-eth.git
Source Vivado and PetaLinux tools:
source <path-to-petalinux>/2024.1/settings.sh
source <path-to-vivado>/2024.1/settings64.sh
To build the standalone lwIP echo server application (Vivado project and Vitis workspace):
cd ethernet-fmc-max-axi-eth/Vitis
make workspace TARGET=zcu106_hpc0
To build the PetaLinux image (Vivado project and PetaLinux):
cd ethernet-fmc-max-axi-eth/PetaLinux
make petalinux TARGET=zcu106_hpc0
Replace the target label in these commands with the one corresponding to the target design of your choice from the tables above.
We strongly encourage community contribution to these projects. Please make a pull request if you would like to share your work:
- if you've spotted and fixed any issues
- if you've added designs for other target platforms
Thank you to everyone who supports us!
This project was developed by Opsero Inc., a tight-knit team of FPGA experts delivering FPGA products and design services to start-ups and tech companies. Follow our blog, FPGA Developer, for news, tutorials and updates on the awesome projects we work on.