A growable packet (ATM) switch architecture: design principles and applications

IEEE Global Telecommunications Conference, 1989, and Exhibition. 'Communications Technology for the 1990s and Beyond Pub Date : 1989-11-27 DOI:10.1109/GLOCOM.1989.64138

K. Eng, M. Karol, Y. Yeh

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引用次数: 122

Abstract

The authors consider the generic problem of designing a large N*N(N>1000) high-performance, broadband packet (or asynchronous transfer mode) switch. They provide ways to construct arbitrarily large switches out of modest-size packet switches, without sacrificing overall delay/throughput performance. They propose and study a growable switch architecture based on three key principles: (a) a generalized knockout principle which exploits the statistical behavior of packet arrivals and thereby reduces the interconnect complexity; (b) output queuing, which yields the best possible delay/throughput performance; and (c) distributed intelligence in routing packets through the interconnect fabric. Other features include the guarantee of a first-in first-out packet sequence, broadcast and multicast capabilities, and compatibility with variable-length packets. In a broadband ISDN (integrated services digital network) example, the authors show a 2048*2048 switch configuration with building blocks of 42*16 packet switch modules and 128*128 interconnect modules.<>

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可增长分组(ATM)交换体系结构:设计原则和应用

作者考虑了设计一个大N*N(N>1000)高性能宽带分组(或异步传输模式)交换机的一般问题。它们提供了从中等大小的分组交换机构建任意大的交换机的方法，而不会牺牲总体延迟/吞吐量性能。他们提出并研究了基于三个关键原则的可增长交换机架构:(a)利用数据包到达的统计行为从而降低互连复杂性的广义淘汰原则;(b)输出排队，可提供最佳的延迟/吞吐量性能;(c)通过互连结构在路由数据包中分配智能。其他特性包括保证先进先出的数据包顺序、广播和组播功能，以及与可变长度数据包的兼容性。以宽带综合业务数字网(ISDN)为例，给出了一个由42*16分组交换模块和128*128互连模块组成的2048*2048交换机配置

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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