Tool flow for automatic generation of architectures and test-cases to enable the evaluation of CGRAs in the context of HPC applications

2017 Conference on Design and Architectures for Signal and Image Processing (DASIP) Pub Date : 2017-09-01 DOI:10.1109/DASIP.2017.8122124

Florian Fricke, André Werner, M. Hübner

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引用次数: 2

Abstract

The toolflow presented in this demo was created to generate CGRA overlay architectures from either algorithm definitions (mainly for evaluation) or from a simple definition format. The output of the toolchain is always the complete definition of the hardware in VHDL and supplemental files providing information regarding the configuration and the interfaces of the created hardware. In the demo, we show the complete process from the selection of an algorithm over the creation of the hardware definition and the generation of the HDL-files to the implemented FPGA design in the Xilinx Vivado software. The main reason for the implementation of the presented tools is the creation of real-world applications for evaluating dynamic-partial reconfiguration in the context of compute intensive tasks. The integration of reconfigurability into the designs is to be done either semi-automatically using the Xilinx tools or automatically using the TLUT/TCON-toolflow proposed by Ghent-University.

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用于自动生成架构和测试用例的工具流，以便在HPC应用程序的上下文中评估CGRAs

创建此演示中提供的工具流是为了从算法定义(主要用于评估)或从简单的定义格式生成CGRA覆盖体系结构。工具链的输出始终是VHDL中硬件的完整定义和提供有关所创建硬件的配置和接口信息的补充文件。在演示中，我们展示了从选择算法到创建硬件定义和生成hdl文件到在Xilinx Vivado软件中实现FPGA设计的完整过程。实现这些工具的主要原因是创建用于在计算密集型任务上下文中评估动态部分重新配置的实际应用程序。将可重构性集成到设计中，可以使用Xilinx工具半自动地完成，也可以使用根特大学提出的TLUT/ tcon -工具流自动完成。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 Conference on Design and Architectures for Signal and Image Processing (DASIP)

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