Xilinx® documentation is organized around a set of standard design processes to help you find relevant content for your current development task. All Versal® ACAP design process Design Hubs and the Design Flow Assistant materials can be found on the Xilinx.com website. This document covers the following design processes:
- System and Solution Planning
Identifying the components, performance, I/O, and
data transfer requirements at a system level.
Includes application mapping for the solution to PS,
PL, and AI Engine.
Note: For more information, see the Versal ACAP Design Guide (UG1273).
- Embedded Software Development
- Creating the software platform from the hardware platform and developing the application code using the embedded CPU. Also covers XRT and Graph APIs. See this link in the Versal ACAP AI Engine Programming Environment User Guide (UG1076).
- AI Engine Development
- Creating the AI Engine graph and kernels, library use, simulation debugging and profiling, and algorithm development. Also includes the integration of the PL and AI Engine kernels. See the Versal ACAP AI Engine Programming Environment User Guide (UG1076) and AI Engine Kernel Coding Best Practices Guide (UG1079).
- Hardware, IP, and Platform Development
- Creating the PL IP blocks for the hardware platform, creating PL kernels, functional simulation, and evaluating the Vivado® timing, resource use, and power closure. Also involves developing the hardware platform for system integration. See the Versal ACAP Hardware, IP, and Platform Development Methodology Guide (UG1387).
- System Integration and Validation
- Integrating and validating the system functional performance, including timing, resource use, and power closure. See the Versal ACAP System Integration and Validation Methodology Guide (UG1388).
- Board System Design
- Designing a PCB through schematics and board layout. Also involves power, thermal, and signal integrity considerations. See the Versal ACAP Board System Design Methodology Guide (UG1506).