The Effect of Compiler Optimizations on High-Level Synthesis for FPGAs

2013 IEEE 21st Annual International Symposium on Field-Programmable Custom Computing Machines Pub Date : 2013-04-28 DOI:10.1109/FCCM.2013.50

Qijing Huang, Ruolong Lian, Andrew Canis, Jongsok Choi, R. Xi, S. Brown, J. Anderson

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引用次数: 51

Abstract

We consider the impact of compiler optimizations on the quality of high-level synthesis (HLS)-generated FPGA hardware. Using a HLS tool implemented within the state-of-the-art LLVM [1] compiler, we study the effect of compiler optimizations on the hardware metrics of circuit area, execution cycles, Fmax, and wall-clock time. We evaluate 56 different compiler optimizations implemented within LLVM and show that some optimizations significantly affect hardware quality. Moreover, we show that hardware quality is also affected by the order in which optimizations are applied. We then present a new HLS-directed approach to compiler optimizations, wherein we execute partial HLS and profiling at intermittent points in the optimization process and use the results to judiciously undo the impact of optimization passes predicted to be damaging to the generated hardware quality. Results show that our approach produces circuits with 16% better speed performance, on average, versus using the standard -O3 optimization level.

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编译器优化对fpga高级合成的影响

我们考虑了编译器优化对高级合成(HLS)生成的FPGA硬件质量的影响。使用在最先进的LLVM[1]编译器中实现的HLS工具，我们研究了编译器优化对电路面积、执行周期、Fmax和时钟时间等硬件指标的影响。我们评估了在LLVM中实现的56种不同的编译器优化，并表明一些优化会显著影响硬件质量。此外，我们还表明硬件质量也受到应用优化的顺序的影响。然后，我们提出了一种新的针对HLS的编译器优化方法，其中我们在优化过程中的间歇点执行部分HLS和分析，并使用结果来明智地撤销优化过程的影响，这些优化过程预计会损害生成的硬件质量。结果表明，与使用标准的-O3优化水平相比，我们的方法产生的电路平均速度性能提高16%。

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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2013 IEEE 21st Annual International Symposium on Field-Programmable Custom Computing Machines

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