AMD FPGA and SoC Support from HDL Verifier
Debug and test HDL code on AMD FPGAs and SoCs Devices.
Check the System Requirements
To install a hardware support package, you must have a supported product release, along with the required operating system and base product.
View the hardware support package system requirements table and confirm you have:
- A supported release
- A supported operating system
- The required base products
If you do not have a supported release or the required base products, you can get started with a free trial, or you can purchase products.
Continue with the Installation
After confirming you have the system requirements, proceed with either installation option listed below.
Option 1: Using the Toolstrip
Launch the Support Package Installer from your version of MATLAB and navigate to the correct support package.
Option 2: "Get Support Package" Button (.mlpkginstall file*)
Clicking the Get Support Package button provides the support package install file:
([filename].mlpkginstall)
There are several ways to initiate the Support Package Installer from these files:
- Open the
.mlpkginstallfile directly from your Internet browser. - Download and save the file (the default option for some Internet browsers), and open it directly from your Windows, Mac, or Linux operating system.
- Open the
.mlpkginstallfile directly from within MATLAB by navigating the Current Folder to the location of the downloaded file and double clicking it. That will initiate the installation for the MATLAB release that you have open.
The primary difference between using the .mlpkginstall file (option 2) rather than the toolstrip (option 1) to initiate support package installation is that the file allows the user to avoid the support package selection screen on the installer.
*These file types were introduced in MATLAB R2013a.
Users without an Internet connection can install hardware support packages by following the download instructions.
HDL Verifier automates the verification of HDL code on AMD FPGA and SoC Boards by enabling hardware debugging and verification features.
FIL testing helps ensure that the MATLAB algorithm or Simulink design behaves as expected in the real world, increasing confidence in your implementation on an AMD device. The MATLAB algorithm or Simulink model is used to drive FPGA input stimuli and to analyze the output of the FPGA. With FIL testing, you can verify your design at FPGA speeds, enabling you to run more extensive sets of test cases and perform regression tests on your design.
Use FPGA Data Capture to observe signals from your design while the design is running on the AMD FPGA or SoC. You can specify trigger conditions to capture a window of signal data from the FPGA and return the data to MATLAB® or Simulink for viewing and analysis.
Use AXI Manager to access subordinate memory locations on the board. You can read from and write to on-board memory locations from MATLAB or Simulink over Ethernet to Arm® cores or programmable logic, or via JTAG, PCI Express®, or USB Ethernet interface.
The HDL Verifier Support Package for AMD FPGA and SoC Devices supports a wide range of predefined boards from AMD and other suppliers, and you can add additional boards through FPGA Board Customization.
Platform and Release Support
See the hardware support package system requirements table for current and prior version, release, and platform availability.
View enhancements and bug fixes in release notes.
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