流体:用于复杂程序结构的异步高级综合工具

2021 27th IEEE International Symposium on Asynchronous Circuits and Systems (ASYNC) Pub Date : 2021-09-01 DOI:10.1109/ASYNC48570.2021.00009

Rui Li, Lincoln Berkley, Yihang Yang, R. Manohar

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引用次数: 7

摘要

当前生成同步逻辑的高级综合(HLS)工具构建了一个状态机，该状态机在每个时钟周期内调度程序操作。与这种集中式方法不同，我们正在开发一种基于先前数据流合成工作的高性能异步数据流电路的HLS方法。我们提出了一种新的解决方案，用于转换具有复杂控制流的实际程序时所需的数据流电路生成。我们在LLVM编译器框架中实现了我们的方法，并表明与许多现有的HLS工具相比，我们生成的电路在吞吐量和能量方面实现了更好的性能。我们还量化了数据流图优化对生成电路质量的好处。

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Fluid: An Asynchronous High-level Synthesis Tool for Complex Program Structures

Current high-level synthesis (HLS) tools that generate synchronous logic construct a state machine that schedules program operations in each clock cycle. Rather than this centralized approach, we are developing an HLS methodology tailored to high-performance asynchronous dataflow circuits building on prior work in dataflow synthesis. We propose a new solution to dataflow circuit generation needed when translating real-world programs with complex control flow. We implement our approach in the LLVM compiler framework, and show that our generated circuits achieve better performance in throughput and energy compared to a number of existing HLS tools. We also quantify the benefits of dataflow graph optimizations on the quality of the generated circuits.

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来源期刊

2021 27th IEEE International Symposium on Asynchronous Circuits and Systems (ASYNC)

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