Performance analysis of a growable architecture for broadband packet (ATM) switching

IEEE Global Telecommunications Conference, 1989, and Exhibition. 'Communications Technology for the 1990s and Beyond Pub Date : 1989-11-27 DOI:10.1109/GLOCOM.1989.64140

M. Karol, I. Chih-Lin

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引用次数: 65

Abstract

The authors examine a growable architecture for broadband packet (asynchronous transfer mode) switching, consisting of a memoryless, self-routing interconnect fabric and modest-size packet switch modules, proposed by K.U. Eng et al. (1989). They focus on the cell loss probability, because the architecture attains the best possible delay-throughput performance if the packet switch modules use output queueing. They compute an upper bound on the cell loss probability for arbitrary patterns of independent cell arrivals, possibly including isochronous circuit connections, and show that both sources of cell loss can be made negligibly small. For example, to guarantee a cell loss probability of less than 10/sup -9/, this growable architecture requires packet switch modules of dimension 47*16, 45*16, 42*16, and 39*16 for 100%, 90%, 80%, and 70% traffic loads, respectively. The analytic techniques used to bound the cell loss probabilities are applicable to other output queueing architectures.<>

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宽带分组(ATM)交换的可增长架构的性能分析

作者研究了宽带分组(异步传输模式)交换的可增长架构，该架构由K.U. Eng等人(1989)提出的无内存、自路由互连结构和中等大小的分组交换模块组成。他们关注的是单元丢失概率，因为如果分组交换模块使用输出队列，该体系结构可以获得最佳的延迟吞吐量性能。他们计算了任意模式的独立细胞到达的细胞损失概率的上限，可能包括等时电路连接，并表明细胞损失的两个来源可以被忽略不计。例如，为了保证蜂窝丢失概率小于10/sup -9/，这种可增长的体系结构需要尺寸为47*16、45*16、42*16和39*16的分组交换模块，分别用于100%、90%、80%和70%的流量负载。用于绑定单元损失概率的分析技术适用于其他输出队列体系结构。

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

IEEE Global Telecommunications Conference, 1989, and Exhibition. 'Communications Technology for the 1990s and Beyond

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