Performance analysis of parallel ATM connections for gigabit speed applications

IEEE INFOCOM '93 The Conference on Computer Communications, Proceedings Pub Date : 1993-03-28 DOI:10.1109/INFCOM.1993.253380

N. Taft, P. Varaiya

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引用次数: 16

Abstract

A system which uses multiple asynchronous transfer mode (ATM) virtual circuits operating in parallel in order to control two WAN hosts at gigabit speeds is studied. Packets in parallel channels can bypass each other, so reordering of packets before delivery to the host is required. Performance parameters of this system, including ATM channel delay, packet loss, and resequencing delay, are analyzed, using a model for an ATM channel that multiplexes ATM virtual circuits carrying bursty and nonbursty traffic. It is found that the mean and variance of packet delay through an ATM switch grow linearly with burst size, and that the delay distribution can be closely approximated by a normal distribution. It is shown that packet loss is log-linear in the ratio of buffer size to burst size, and for maximum bursts larger than 50 cells, a buffer size of twice the maximum burst size is sufficient to achieve packet loss probabilities less than 10/sup -9/. Resequencing delay is shown to be insensitive to burst size, but the variance is large and grows linearly with burst size.<>

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千兆速度应用中并行ATM连接的性能分析

研究了一种利用并行运行的多个异步传输模式(ATM)虚拟电路以千兆速度控制两台广域网主机的系统。并行通道中的数据包可以相互绕过，因此需要在发送到主机之前对数据包进行重新排序。利用ATM虚拟电路复用突发和非突发业务的ATM信道模型，分析了该系统的性能参数，包括ATM信道延迟、丢包和重排序延迟。研究发现，通过ATM交换机的数据包延迟的均值和方差随突发大小线性增长，并且延迟的分布可以近似为正态分布。结果表明，丢包率在缓冲区大小与突发大小之比中呈对数线性关系，对于大于50个单元的最大突发，缓冲区大小为最大突发大小的两倍足以使丢包率小于10/sup -9/。重排序延迟对突发大小不敏感，但方差很大，并随突发大小线性增长。

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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