Studying network protocol offload with emulation: approach and preliminary results

Proceedings. 12th Annual IEEE Symposium on High Performance Interconnects Pub Date : 2004-08-05 DOI:10.1109/CONECT.2004.1375208

R. Westrelin, Nicolas Fugier, Erik Nordmark, Kai Kunze, E. Lemoine

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引用次数: 34

Abstract

To take full advantage of high-speed networks while freeing CPU cycles for application processing, the industry is proposing new techniques relying on an extended role for network interface cards such as TCP offload engine and remote direct memory access. The paper presents an experimental study aimed at collecting the performance data needed to assess these techniques. This work is based on the emulation of an advanced network interface card plugged on the I/O bus. In the experimental setting, a processor of a partitioned SMP machine is dedicated to network processing. Achieving a faithful emulation of a network interface card is one of the main concerns and it is guiding the design of the offload engine software. This setting has the advantage of being flexible so that many different offload scenarios can be evaluated. Preliminary throughput results of an emulated TCP offload engine demonstrate a large benefit. The emulated TCP offload engine indeed yields 600% to 900% improvement while still relying on memory copies at the kernel boundary.

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网络协议卸载仿真研究方法及初步结果

为了充分利用高速网络，同时释放CPU周期用于应用程序处理，业界正在提出依赖于网络接口卡扩展角色的新技术，如TCP卸载引擎和远程直接内存访问。本文提出了一项实验研究，旨在收集评估这些技术所需的性能数据。这项工作是基于对插在I/O总线上的高级网络接口卡的仿真。在实验设置中，分区SMP机器的一个处理器专用于网络处理。实现对网卡的逼真仿真是当前研究的重点之一，它指导着卸载引擎软件的设计。这种设置的优点是灵活，因此可以评估许多不同的卸载场景。模拟TCP卸载引擎的初步吞吐量结果显示了很大的好处。模拟的TCP卸载引擎确实产生了600%到900%的改进，同时仍然依赖于内核边界的内存副本。

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. 12th Annual IEEE Symposium on High Performance Interconnects

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