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AI Engine Development

See Vitis™ Development Environment on xilinx.com
See Vitis™ AI Development Environment on xilinx.com

Runtime Parameter Reconfiguration

Version: Vitis 2024.2

Introduction

This tutorial targets AIE-ML device, but shares test cases and description files with AIE 03-rtp-reconfiguration.

IMPORTANT: Before beginning the tutorial make sure you have installed the AMD Vitis™ 2024.2 software. The Vitis release includes all the embedded base platforms including the VEK280 base platform that is used in this tutorial. In addition, ensure that you have downloaded the Common Images for Embedded Vitis Platforms from this link.

The ‘common image’ package contains a prebuilt Linux kernel and root file system that can be used with the AMD Versal™ board for embedded design development using Vitis tools.

Before starting this tutorial, run the following steps:

  1. Go to the directory where you have unzipped the Versal Common Image package.
  2. In a Bash shell, run the /Common Images Dir/xilinx-versal-common-v2024.2/environment-setup-cortexa72-cortexa53-xilinx-linux script. This script sets up the SDKTARGETSYSROOT and CXX variables. If the script is not present, you must run the /Common Images Dir/xilinx-versal-common-v2024.2/sdk.sh.
  3. Set up your ROOTFS and IMAGE to point to the rootfs.ext4 and Image files located in the /Common Images Dir/xilinx-versal-common-v2024.2 directory.
  4. Set up your PLATFORM_REPO_PATHS environment variable to $XILINX_VITIS/base_platforms.

This tutorial targets the VEK280 board for the 2024.2 version.

Objectives

After completing this tutorial, you will be able to:

  • Specify a scalar or array parameter as part of a kernel function signature.
  • Connect a parameterized kernel into a graph, exposing the parameter for runtime updates.
  • Simulate a graph containing runtime parameters with AI Engine simulator (aiesimulator).
  • Build a system with AI Engine kernels and PL kernels, plus PS code to control their execution.
  • Use XRT API to control graph execution and RTP operations.
  • Verify the system by HW co-simulation and running in hardware.

Known issue in 2024.2: There may exist hardware execution issue in asynchronous array RTP update & read. When it happens, please wait for an update in the tool or a patch. Otherwise, you may continue to use 2024.1 instead.

Steps

Note: Copy test cases and follow instructions in AIE 03-rtp-reconfiguration. Run all make commands with ARCH=aie-ml. For example:

To build AIE graph, run:

make aie ARCH=aie-ml

To run aiesimulator, run:

make aiesim ARCH=aie-ml

To run HW emulation, run:

make run_hw_emu ARCH=aie-ml

After Linux has booted, run the following commands at the Linux prompt. To exit QEMU press Ctrl+A and then press x. (this is only for HW cosim):

./host.exe a.xclbin

To build system design targeting HW flow, run:

make package TARGET=hw ARCH=aie-ml

To run in hardware, after booting Linux, run the following commands at the Linux prompt. (login with user name:petalinux, password:petalinux. run sudo su with password:petalinux before running following commands):

cd /run/media/mm*1
./host.exe a.xclbin

Support

GitHub issues will be used for tracking requests and bugs. For questions go to forums.

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