Logical clustering for the optimization and analysis of a rearrangeable distributed ATM switch

IEEE INFOCOM '93 The Conference on Computer Communications, Proceedings Pub Date : 1993-03-28 DOI:10.1109/INFCOM.1993.253329

Jean-François P. Labourdette, A. Acampora

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引用次数: 2

Abstract

A practical approach to the analysis and operation of medium to large-size distributed asynchronous transfer mode (ATM) switches based on an original optical reconfigurable architecture is described. The optical nature of the switch provides enormous bandwidth with input/output port rates on the order of gigabits/second, and the distributed approach is highly modular, creating an easily growable switch. The interconnection pattern between input and output ports is dynamically reconfigurable; the switch can thus exploit nonuniformities in the offered traffic and optimize its connectivity accordingly. For a 24*24 switch, this leads to performance that matches that of a fully connected output buffered ideal centralized switch. Simulation results for a switch of size 81*81 seem to indicate that the traffic-handling capability scales well with the size of the switch when nonuniformity prevails in the offered traffic, a realistic assumption. Clustering techniques would permit the optimization and operation of much larger reconfigurable distributed ATM switches.<>

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基于逻辑聚类的可重排分布式ATM交换机优化与分析

介绍了一种基于原始光可重构架构的中大型分布式异步传输模式(ATM)交换机的分析和运行方法。交换机的光学特性提供了千兆/秒量级的输入/输出端口速率的巨大带宽，分布式方法是高度模块化的，创建了一个易于增长的交换机。输入输出端口之间的互连模式是动态可重构的;因此，交换机可以利用所提供流量中的不一致性，并相应地优化其连通性。对于24*24开关，这导致性能匹配的输出缓冲完全连接的理想集中式开关。对于尺寸为81*81的交换机的仿真结果似乎表明，当提供的流量普遍存在不均匀性时，流量处理能力随交换机尺寸的变化而变化，这是一个现实的假设。集群技术将允许对更大的可重构分布式ATM交换机进行优化和操作。

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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IEEE INFOCOM '93 The Conference on Computer Communications, Proceedings

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