An Extensive Power and Performance Analysis for High Dimensional Mesh and Torus Interconnection Networks

IF 0.3 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS

International Journal of Distributed Systems and Technologies Pub Date : 2023-04-14 DOI:10.4018/ijdst.321208

Faiz Al Faisal, M. Rahman, Y. Inoguchi

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引用次数: 0

Abstract

The next generation parallel computers are the keys to achieve exascale performance, whereas sequential computers have already been saturated. In order to achieve this mighty target of exascale computing, one of the main challenges is the reduction of power consumption along with achieving suitable performance. Energy efficiency is a key feature to ensure the trade-off between the performances over the required power usages. Hence, to focus on those issues, the target of this article is to analyze the performance versus power usage trade-off for the conventional networks like- Mesh and Torus. High degree networks show much better performance than the low degree of networks. However, high degree networks require higher power usage for their high degree of interconnected links. This article showed that with zero load latency, the 3D Torus could show about 57.07% better performance than a 2D Torus. On the other hand, a 2D Mesh network requires about 24.22% less router power usage than the 3D Mesh, & 5D Torus requires about 66.8% higher router power usage than a 3D Torus network.

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高维网格和环面互连网络的功率和性能分析

下一代并行计算机是实现exascale性能的关键，而顺序计算机已经饱和。为了实现exascale计算的这一强大目标，主要挑战之一是在实现适当性能的同时降低功耗。能源效率是确保性能与所需电力使用之间的权衡的关键特征。因此，为了关注这些问题，本文的目标是分析传统网络（如-Mesh和Torus）的性能与功耗的权衡。高阶网络比低阶网络表现出更好的性能。然而，高度网络由于其高度互连的链路而需要更高的功率使用。本文表明，在零负载延迟的情况下，3D Torus的性能可以比2D Torus好57.07%。另一方面，2D Mesh网络需要比3D Mesh少约24.22%的路由器功率使用，而5D Torus需要比3D Torus网络高约66.8%的路由器功率。

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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来源期刊

International Journal of Distributed Systems and Technologies COMPUTER SCIENCE, INFORMATION SYSTEMS-

CiteScore

1.60

自引率

9.10%

发文量