将嵌套循环算法映射到容错收缩数组架构中

Proceedings 1st International Conference on Algorithms and Architectures for Parallel Processing Pub Date : 1995-04-19 DOI:10.1109/ICAPP.1995.472167

M. Esonu, A. Al-Khalili, S. Hariri

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引用次数: 0

摘要

VLSI和WSI技术的进步导致了具有多个低成本处理器副本的特殊用途VLSI芯片的制造。这些处理器可用于设计高性能系统，如收缩阵列。本文提出了一种新的系统方法，可用于检测和纠正收缩阵列结构中的错误。该方法依赖于算法到收缩数组的时空映射。容错算法是通过在算法级引入冗余计算来设计的。这是通过推导给定算法的几个版本来完成的，每个版本都可以映射到各自的收缩结构中。通过合并多个版本算法的相应收缩数组，构建容错收缩数组。

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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Mapping nested loop algorithms into fault-tolerant systolic array architectures

Progress in VLSI and WSI technologies has resulted in the manufacture of special purpose VLSI chips with multiple copies of low-cost processors. These processors can be used to design high performance systems such as systolic arrays. This paper proposes a new systematic approach which can be used to detect and correct errors in systolic array architectures. The approach relies on space-time mapping of algorithms into systolic arrays. Fault-tolerant algorithms are designed by introducing redundant computations at the algorithmic level. This is done by deriving several versions of a given algorithm, each of which can be mapped into respective systolic architecture. Fault-tolerant systolic array is constructed by merging the corresponding systolic array of several versions of the algorithm.<>

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Proceedings 1st International Conference on Algorithms and Architectures for Parallel Processing

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