Design and Buffer Sizing of TCAM-Based Pipelined Forwarding Engines

21st International Conference on Advanced Information Networking and Applications (AINA '07) Pub Date : 2007-05-21 DOI:10.1109/AINA.2007.53

Yufeng Li, Han Qiu, Xiaozhuo Gu, Julong Lan, Jianwen Yang

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引用次数: 2

Abstract

The ever increasing line speed and the continuous growing demands of various functions support(for example QoS, multicast and security) have interact- tively made it harder for forwarding engines to process packets at line speed, and this will increasingly make the forwarding engines call for additional buffers to accommodate the burst transmission and decrease the packet loss rate. In this paper, a high-speed pipeline designed for TCAM-based forwarding engines is presented, and its buffer analysis model is also given, then, the buffer requirement of the forwarding engine is analyzed under two conditions: the forwarding rate is not less than and less than the input rate. Our analysis results and experiments both show that, the proposed forwarding pipeline is of high performance, and just one pipeline can easily deal with the data transfer rate of 30 Gb/s or even higher; the pipelined forwarding engine only need to buffer a several packets, then the loss rate will be an acceptable value or even zero, further increasing the buffer size will have little effect on reducing the loss rate.

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基于tcam的流水线转发引擎的设计与缓冲区大小

不断增长的线路速度和对各种功能支持(例如QoS、多播和安全)的不断增长的需求相互作用，使得转发引擎以线路速度处理数据包变得更加困难，这将越来越多地使转发引擎需要额外的缓冲区来适应突发传输并降低数据包丢失率。本文提出了一种基于tcam的高速管道转发引擎，给出了其缓冲分析模型，分析了转发速率不小于和小于输入速率两种情况下转发引擎的缓冲需求。我们的分析结果和实验都表明，所提出的转发管道具有高性能，只需一条管道就可以轻松处理30gb /s甚至更高的数据传输速率;流水线转发引擎只需要缓冲几个数据包，那么丢包率就会是一个可接受的值，甚至为零，进一步增加缓冲区大小对降低丢包率的作用不大。

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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21st International Conference on Advanced Information Networking and Applications (AINA '07)

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