Set Up for MATLAB AXI Master
To access on-board memory locations from MATLAB® or Simulink®, you must include the MATLAB AXI master IP in your FPGA design. This IP connects to slave memory locations on the board. The IP also responds to read and write commands from MATLAB or Simulink, over JTAG, PCI Express, or Ethernet cable.
To use this feature, you must download a hardware support package for your FPGA board. See Download FPGA Board Support Package.
To set up the AXI master IP for access from MATLAB or Simulink, follow these setup steps:
Include the MATLAB AXI master IP in your FPGA design. To add the path for the IP files to your project, call the
Open Vivado® or Quartus®, and from the IP Catalog select the MATLAB AXI master IP in your FPGA design.
When using JTAG as a physical connection, select MATLAB as AXI Master.
When using Ethernet as a physical connection, select UDP Matlab as AXI Master and Ethernet MAC Hub and add them to your project.
When using PCIe as a physical connection, select PCIe MATLAB as AXI Master and add it to your project.
In your FPGA project, specify which addresses the AXI master IP is allowed to access.
The AXI master IP supports AXI4 Lite, AXI4, and Altera® Avalon slave memory locations. The FPGA interconnect automatically converts AXI4 transactions to the protocol of each address.
Compile your FPGA project, including the MATLAB AXI master IP.
Connect your FPGA board to your host computer using a physical cable (JTAG, PCI Express, or Ethernet cable).
Program the FPGA with your compiled design.
Alternatively, you can perform these steps in the HDL Coder™ guided workflow by using a sample reference design, such as the one included in these examples: Access DUT Registers on Intel Pure FPGA Board Using IP Core Generation Workflow (HDL Coder) or Access DUT Registers on Xilinx Pure FPGA Board Using IP Core Generation Workflow (HDL Coder).
After loading the design on your FPGA, you can access memory-mapped locations on the board.
To access the board from MATLAB, create an
aximaster object and use the
writememory methods to
read and write memory-mapped locations on the board.
To access the board from Simulink, create a Simulink model and include AXI Master Read and AXI Master Write in it. Configure the blocks to read and write memory-mapped locations on the board.
When using JTAG as a physical connection to your board, you might have
additional IPs that use the same JTAG connection. Such IPs include FPGA data
capture, Intel® SignalTap II, or Xilinx®
Vivado Logic Analyzer cores. The MATLAB AXI master IP can coexist in your design with other IPs that use
the JTAG connection, however, only one of these applications can use the JTAG
cable at a time. Release the
to return the JTAG resource for use by other applications.
The most common conflicting use of the JTAG cable is to reprogram the FPGA. Stop any FPGA data capture or MATLAB AXI master JTAG connection before you can use the cable to program the FPGA.
The maximum data rate between host computer and FPGA is limited by the JTAG clock frequency. For Intel boards, the JTAG clock frequency is 12 MHz or 24 MHz. For Xilinx boards, the JTAG clock frequency is 33 MHz or 66 MHz. The JTAG frequency depends on the type of cable and the maximum clock frequency supported by the FPGA board.