双平面同构超立方体网络

Proceedings of the International Conference on High Performance Computing in Asia-Pacific Region Pub Date : 2020-01-15 DOI:10.1145/3368474.3368493

T. Hosomi, Ryota Yasudo, M. Koibuchi, S. Shimojo

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引用次数: 1

摘要

我们提出了一种多平面同构网络，通过有效地配置多平面网络，提高了网络吞吐量，降低了网络延迟。在所提出的网络中，每个平面采用相同的图拓扑，但交换机到交换机的连接方式不同。通过图分析和循环级仿真对双平面同构超立方体网络进行了评价。图分析结果表明，与双平面超立方体相比，双平面同构8-超立方体平均最短路径长度减少22%，吞吐量提高28%。循环水平模拟的结果也证实了类似的改进。我们还研究了双平面同构折叠超立方体网络。最后，我们讨论了同构网络导致的较长的电缆长度对网络成本和延迟的影响。

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Dual-Plane Isomorphic Hypercube Network

We propose a multi-plane isomorphic network that increases network throughput and reduces network latency by effectively configuring multi-plane networks. In the proposed network, each plane adopts the same graph topology but different switch-to-switch connections. We evaluate the dual-plane isomorphic hypercube network by graph analysis and cycle level simulation. Results of the graph analysis show that the dual-plane isomorphic 8-hypercube reduces the average shortest path length by 22% and improves throughput by 28% compared with the dual-plane hypercube. Similar improvements are confirmed from the results of the cycle level simulation. We also examine the dual-plane isomorphic folded-hypercube network. Finally, we discuss the effect of longer cable length caused by the isomorphic network on the network cost and latency.

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Proceedings of the International Conference on High Performance Computing in Asia-Pacific Region

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