Fault-tolerant cube-connected cycles capable of quick broadcasting

1996 Proceedings. Eighth Annual IEEE International Conference on Innovative Systems in Silicon Pub Date : 1996-10-09 DOI:10.1109/ICISS.1996.552443

N. Tsuda

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引用次数: 3

Abstract

The construction of fault-tolerant processor arrays with interconnections of cube-connected cycles (CCCs) by using an advanced spare-connection scheme for k-out-of-n redundancies called "generalized additional bypass linking" is described. The connection scheme uses bypass links with wired OR connections to spare processing elements (PEs) without external switches, and can reconfigure complete arrays by tolerating faulty portions in these PEs and links. The spare connections are designed as a node-coloring problem of a CCC graph with a minimum distance of 3: the chromatic numbers corresponding to the number of spare PE connections were evaluated theoretically. The proposed scheme can be used for constructing various k-out-of-n configurations capable of quick broadcasting by using spare circuits, and is superior to conventional schemes in terms of extra PE connections and reconfiguration control. In particular, it allows construction of optimal r-fault-tolerant configurations that provide r spare PEs and r extra connections per PE for CCCs with 4*x PEs (x: integer) in each cycle.

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能够快速广播的容错立方体连接周期

本文描述了一种基于k- of-n冗余的“广义附加旁路连接”的先进备用连接方案，构建了具有立方连接循环(CCCs)互连的容错处理器阵列。该连接方案使用带有有线或连接的旁路链路，以节省没有外部交换机的处理单元(pe)，并且可以通过容忍这些pe和链路中的故障部分来重新配置整个阵列。将备用连接设计为最小距离为3的CCC图的节点着色问题，从理论上求出备用连接数对应的色数。该方案可用于利用备用电路构建各种能够快速广播的k-out- n配置，并且在额外PE连接和重构控制方面优于传统方案。特别是，它允许构建最佳的r-容错配置，为每个周期具有4*x PE (x:整数)的CCCs提供r个备用PE和每个PE r个额外连接。

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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1996 Proceedings. Eighth Annual IEEE International Conference on Innovative Systems in Silicon

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