Performance and overhead in a hybrid reconfigurable computer

Proceedings International Parallel and Distributed Processing Symposium Pub Date : 2003-04-22 DOI:10.1109/IPDPS.2003.1213325

Osman Devrim Fidanci, D. Poznanovic, K. Gaj, T. El-Ghazawi, N. Alexandridis

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引用次数: 32

Abstract

In this paper, we overview general hardware architecture and programming model of SRC-6E/spl trade/ reconfigurable computers, and compare the performance of the SRC-6E machine with the Intel/spl reg/ Pentium IV/spl trade/. SRC-6E execution time measurements have been performed using three different approaches. In the first approach, the entire end-to-end execution time is taken into account. In the second approach, the configuration time of FPGA have been omitted. In the third approach both configuration and data transfer overheads have been omitted. All measurements have been done for different numbers of data blocks. The results show that the SRC-6E can outperform a general-purpose microprocessor for computationally intensive algorithms by a factor of over 1500. However, overhead due to configuration and data transfer must be properly dealt with by the application or the system's run-time environment to achieve the full throughput potential. Some techniques are suggested to minimize the influence of the configuration time and maximize the overall end-to-end system performance.

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混合可重构计算机的性能和开销

本文概述了SRC-6E/spl贸易/可重构计算机的一般硬件架构和编程模型，并与Intel/spl reg/ Pentium IV/spl贸易/可重构计算机的性能进行了比较。SRC-6E执行时间测量使用了三种不同的方法。在第一种方法中，考虑了整个端到端执行时间。在第二种方法中，忽略了FPGA的配置时间。在第三种方法中，省略了配置和数据传输开销。所有的测量都是针对不同数量的数据块进行的。结果表明，对于计算密集型算法，SRC-6E的性能比通用微处理器高出1500倍以上。但是，由于配置和数据传输而产生的开销必须由应用程序或系统的运行时环境适当处理，以实现全部吞吐量潜力。建议使用一些技术来最小化配置时间的影响并最大化端到端系统的整体性能。

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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Proceedings International Parallel and Distributed Processing Symposium

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