VLSI/WSI阵列重构的一些新算法

1990 Proceedings. International Conference on Wafer Scale Integration Pub Date : 1990-01-23 DOI:10.1109/ICWSI.1990.63905

T. Varvarigou, V. Roychowdhury, T. Kailath

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引用次数: 4

摘要

处理在存在故障处理器和固定硬件资源的情况下重新配置处理器阵列的问题。所讨论的模型由一组相同的处理元素(pe)组成，这些处理元素嵌入在以矩形网格形式配置的灵活互连结构中。此外，为了包含容错性，给定阵列具有预先确定的备用pe分布。重新配置中的一般问题是根据给定的硬件约束，用健康的备用pe替换有故障的非备用pe。提出了在N个pe故障时将N*(N+1)个阵列(其中备用pe以备用行形式配置)重新配置为N*N个阵列的新算法。所开发的算法简单，性能优于文献中提出的其他重构算法。

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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Some new algorithms for reconfiguring VLSI/WSI arrays

Deals with the issue of reconfiguring processor arrays in the presence of faulty processors and fixed hardware resources. The models discussed consist of a set of identical Processing Elements (PEs) embedded in a flexible interconnection structure that is configured in the form of a rectangular grid. Furthermore in order to incorporate fault tolerance a given array has a pre-determined distribution of spare PEs. The general issue in reconfiguration is to replace faulty non-spare PEs by healthy spare ones, subject to given hardware constraints. The authors present some new algorithms for reconfiguring N*(N+1) arrays (where the spare PEs are configured in the form of a spare row) into N*N arrays when N of the PEs are faulty. The algorithms developed are simple and perform better than other reconfiguration algorithms presented in the literature.<>

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1990 Proceedings. International Conference on Wafer Scale Integration

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