Bitwidth-optimized hardware accelerators with software fallback

2013 International Conference on Field-Programmable Technology (FPT) Pub Date : 2013-12-01 DOI:10.1109/FPT.2013.6718343

Ana Klimovic, J. Anderson

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引用次数: 8

Abstract

We propose the high-level synthesis of an FPGA-based hybrid computing system, where the implementations of compute-intensive functions are available in both software, and as hardware accelerators. The accelerators are optimized to handle common-case inputs, as opposed to worst-case inputs, allowing accelerator area to be reduced by 28%, on average, while retaining the majority of performance advantages associated with a hardware versus software implementation. When inputs exceed the range that the hardware accelerators can handle, a software fallback is automatically triggered. Optimization of the accelerator area is achieved by reducing datapath widths based on application profiling of variable ranges in software (under typical datasets). The selected widths are passed to a high-level synthesis tool which generates the accelerator for a given function. The optimized accelerators with software fallback capability are generated automatically by our framework, with minimal user intervention. Our study explores the trade-offs of delay and area for benchmarks implemented on an Altera Cyclone II FPGA.

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位宽优化的硬件加速器与软件回退

我们提出了基于fpga的混合计算系统的高级综合，其中计算密集型功能的实现在软件和硬件加速器中都是可用的。对加速器进行了优化，以处理常见情况的输入，而不是最坏情况的输入，从而使加速器的面积平均减少28%，同时保留了硬件实现与软件实现相关的大多数性能优势。当输入超出硬件加速器可以处理的范围时，将自动触发软件回退。加速器区域的优化是通过基于软件中可变范围的应用程序分析(在典型数据集下)减少数据路径宽度来实现的。选定的宽度被传递给高级合成工具，该工具为给定函数生成加速器。具有软件回退功能的优化加速器由我们的框架自动生成，用户干预最少。我们的研究探讨了在Altera Cyclone II FPGA上实现基准测试的延迟和面积权衡。

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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来源期刊

2013 International Conference on Field-Programmable Technology (FPT)

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