深度流水线FPGA软处理器的分析与优化

Hui Yan Cheah, Suhaib A. Fahmy, Nachiket Kapre
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引用次数: 6

摘要

FPGA软处理器已被证明,当围绕现代FPGA上异构资源的特定能力进行设计时,可以实现高频率。然而,这样的性能是以深度管道为代价的,当执行指令序列中具有长依赖链的程序时,这会导致大量的空闲周期。我们对基于DSP块的软处理器进行了全面的设计空间探索,以检查管道深度对频率、面积和程序运行时的影响,并注意到解决依赖关系所需的大量nop。然后,我们通过显著减少NOP填充来探索受限数据转发方法在改善运行时间方面的潜力。其结果是处理器运行接近500MHz的织物限制,并具有简单的数据转发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis and optimization of a deeply pipelined FPGA soft processor
FPGA soft processors have been shown to achieve high frequency when designed around the specific capabilities of heterogenous resources on modern FPGAs. However, such performance comes at a cost of deep pipelines, which can result in a larger number of idle cycles when executing programs with long dependency chains in the instruction sequence. We perform a full design-space exploration of a DSP block based soft processor to examine the effect of pipeline depth on frequency, area, and program runtime, noting the significant number of NOPs required to resolve dependencies. We then explore the potential of a restricted data forwarding approach in improving runtime by significantly reducing NOP padding. The result is a processor that runs close to the fabric limit of 500MHz with a case for simple data forwarding.
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