基于Detour-UD路由的动态网络重构性能评价

Innovative Architecture for Future Generation High-Performance Processors and Systems (IWIA'05) Pub Date : 2005-01-17 DOI:10.1109/IWIA.2005.37

T. Yoshinaga, Y. Nishimura

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引用次数: 4

摘要

容错是大规模并行计算机的一个新兴问题。本文描述了动态网络重构协议使用容错、自适应死锁恢复路由算法Detour-UD对k-ary n-cubes的性能影响。我们提出了一种通过管理路由表中的排水标志来指定不可路由数据包的方案。我们还提出了两种选择性引流方案。一种协议在重新配置过程后，会排出drain-flags指定的不可路由报文。另一种协议在重新配置过程中释放死锁数据包以减少网络负载。仿真结果表明，第一种协议有助于减少引流数据包的数量，第二种协议在重构过程中保持网络吞吐量。

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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Performance evaluation of dynamic network reconfiguration using Detour-UD routing

Fault-tolerance is an emerging issue for massively parallel computers. This paper describes the performance impact of dynamic network reconfiguration protocols using a fault-tolerant, adaptive deadlock-recovery routing algorithm, Detour-UD, for k-ary n-cubes. We propose a scheme to specify unroutable packets by managing drain-flags in routing tables. We also propose two selective drainage protocols. One protocol drains the unroutable packets specified by the drain-flags after the reconfiguration process. The other protocol drains deadlocked packets to reduce the network load during the reconfiguration process. Our simulation results show that the first protocol helps reduce the number of drainage packets, and the second one keeps the network throughput during the reconfiguration process.

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Innovative Architecture for Future Generation High-Performance Processors and Systems (IWIA'05)

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