M. E. Gómez, J. Flich, P. López, A. Robles, J. Duato, N. Nordbotten, Olav Lysne, T. Skeie
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引用次数: 15
Abstract
Current massively parallel computing systems are being built with thousands of nodes, which significantly affect the probability of failure. M. E. Gomex proposed a methodology to design fault-tolerant routing algorithms for direct interconnection networks. The methodology uses a simple mechanism: for some source-destination pairs, packets are first forwarded to an intermediate node, and later, from this node to the destination node. Minimal adaptive routing is used along both subpaths. For those cases where the methodology cannot find a suitable intermediate node, it combines the use of intermediate nodes with two additional mechanisms: disabling adaptive routing and using misrouting on a per-packet basis. While the combination of these three mechanisms tolerates a large number of faults, each one requires adding some hardware support in the network and also introduces some overhead. In this paper, we perform an in-depth detailed analysis of the impact of these mechanisms on network behaviour. We analyze the impact of the three mechanisms separately and combined. The ultimate goal of this paper is to obtain a suitable combination of mechanisms that is able to meet the trade-off between fault-tolerance degree, routing complexity, and performance.
当前的大规模并行计算系统是由成千上万的节点组成的,这极大地影响了故障的概率。M. E. gomez提出了一种设计直接互连网络容错路由算法的方法。该方法使用一种简单的机制:对于某些源-目的地对,数据包首先转发到中间节点,然后从该节点转发到目标节点。在两个子路径上使用最小自适应路由。对于这种方法无法找到合适的中间节点的情况,它将中间节点的使用与另外两种机制结合起来:禁用自适应路由和在每个数据包的基础上使用错误路由。虽然这三种机制的组合可以容忍大量的故障,但每种机制都需要在网络中添加一些硬件支持,并且还会引入一些开销。在本文中,我们对这些机制对网络行为的影响进行了深入详细的分析。我们分别分析了这三种机制的影响,并将其结合起来分析。本文的最终目标是获得一种合适的机制组合,能够满足容错程度、路由复杂性和性能之间的权衡。
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