采用直接互连网络的交换结构分析

Proceedings of the Fourth International Conference on Parallel and Distributed Computing, Applications and Technologies Pub Date : 2003-10-20 DOI:10.1109/PDCAT.2003.1236254

Xudong Zhu, Hong Wang, Le Min Li

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引用次数: 1

摘要

一种k元n立方直接互连结构最初是在大规模并行计算机(MPC)体系结构的背景下引入和发展起来的。近年来，随着VLSI (very large scale integration)技术的发展和对高性能互联网路由器/交换机的需求，考虑采用k-ary n-cube互连网络构建太比特路由器。提出了作为Internet路由交换核心的三维环面分析模型。通过四种不同的路由算法、缓冲长度和结构规模来测量延迟/吞吐量特性。提出了一种新的梯形算法。所有仿真实验均在OPNET上完成。结果表明，该架构可以构建高性能的路由器。与其他路由算法相比，梯形算法具有更好的性能。

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Analysis of a switching fabric employing direct interconnection networks

A k-ary n-cube direct interconnection structure is originally introduced and developed in the context of massively parallel computer (MPC) architectures. In recent years, with the development of VLSI (very large scale integration) technology and requirements of high performance Internet routers/switches, the k-ary n-cube interconnection network is considered to build Terabit routers. Analysis model for three-dimensional torus is presented as switch cores of Internet routes. Delay/throughput characteristics are measured with four different routing algorithms, buffer length and scale of fabric. Also a new algorithm Ladder is presented. All simulation experiments are done on OPNET. Results show that this architecture can build high performance routers. Compared to other routing algorithms, Ladder has better performance.

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Proceedings of the Fourth International Conference on Parallel and Distributed Computing, Applications and Technologies

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