Execution-driven simulation of IP router architectures

Proceedings IEEE International Symposium on Network Computing and Applications. NCA 2001 Pub Date : 2001-10-08 DOI:10.1109/NCA.2001.962526

L. Bhuyan, Hu-Jun Wang

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引用次数: 6

Abstract

A number of approaches have been proposed by different vendors for the next generation Internet router architectures, capable of processing millions of packets per second. Most of this processing speed stems from employing latest high-performance network processor or multiprocessors as the forwarding engine of the router However, all these improvements have been proposed without any detailed study in performance evaluation. The impact of instruction level parallelism, branch prediction, multiprocessing, and cache architectures on the performance of routers is not known. In the paper a methodology is proposed, which extends an execution-driven simulator to evaluate router architectures. We incorporate the exact model of an IP router into RSIM to analyze its performance and also develop a framework for feeding real Internet traces to the simulator Our work enables us to vary system parameters to simulate and analyze designs of realistic system with a range of traces. It is shown that the performance of Internet routers can be dramatically enhanced by using multiprocessor architectures. The router design also considers various cache replacement policies and router arbitration policies.

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IP路由器架构的执行驱动模拟

不同的供应商已经为下一代互联网路由器架构提出了许多方法，这些架构能够每秒处理数百万个数据包。这种处理速度的提高大部分源于采用最新的高性能网络处理器或多处理器作为路由器的转发引擎。然而，所有这些改进都是在没有详细研究性能评估的情况下提出的。指令级并行性、分支预测、多处理和缓存架构对路由器性能的影响尚不清楚。本文提出了一种方法，扩展了执行驱动模拟器来评估路由器架构。我们将IP路由器的精确模型整合到RSIM中来分析其性能，并开发了一个框架，将真实的互联网轨迹馈送到模拟器。我们的工作使我们能够改变系统参数，以模拟和分析具有一系列轨迹的现实系统的设计。研究表明，采用多处理器架构可以显著提高互联网路由器的性能。路由器的设计还考虑了各种缓存替换策略和路由器仲裁策略。

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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Proceedings IEEE International Symposium on Network Computing and Applications. NCA 2001

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