先进架构板载处理器中的分布式重构与恢复

[1991] Digest of Papers. Fault-Tolerant Computing: The Twenty-First International Symposium Pub Date : 1991-06-25 DOI:10.1109/FTCS.1991.146698

M. Iacoponi, S. McDonald

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引用次数: 8

摘要

介绍了一种用于空间应用的容错多处理器——先进体系结构机载处理器(AAOP)的重构和恢复方法。AAOP设计用于容纳在分布式容错系统中组织的大量处理元素。讨论了分布式重构的操作，并对恢复时间进行了分析。考虑了不一致观测器条件下和多故障情况下重构算法的性能。分析了AAOP中采用的弦跳环拓扑结构的节点对距离分布作为注入故障数的函数。还考虑了该拓扑的扩展。这将减少网络直径并增加故障鲁棒性，但也会增加网络管理开销。

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Distributed reconfiguration and recovery in the advanced architecture on-board processor

The reconfiguration and recovery approach employed in the advanced architecture on-board processor (AAOP), a fault-tolerant multiprocessor for space applications, is presented. The AAOP is designed to accommodate large numbers of processing elements organized in a distributed fault-tolerant system. The operation of distributed reconfiguration is discussed, and the recovery time is analyzed. Performance of the reconfiguration algorithm under inconsistent observer conditions and against multiple faults is considered. the chordal skiplink ring topology employed in the AAOP is analyzed with respect to its node-pair distance distribution as a function of the number of faults injected. Extensions of this topology are also considered. These would reduce the network diameter and increase fault robustness but also increase the network management overhead.<>

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来源期刊

[1991] Digest of Papers. Fault-Tolerant Computing: The Twenty-First International Symposium

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