高性能包IO框架的比较

2015 ACM/IEEE Symposium on Architectures for Networking and Communications Systems (ANCS) Pub Date : 2015-05-07 DOI:10.1109/ANCS.2015.7110118

Sebastian Gallenmüller, Paul Emmerich, F. Wohlfart, Daniel Raumer, G. Carle

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引用次数: 150

摘要

目前在操作系统中实现的网络栈不能再满足10gbit以太网提供的数据包速率。因此，开发了一些框架，声称可以为这种需求提供更快的替代方案。这些框架使任意包处理系统能够从处理几个10 Gbit接口的流量速率的商品硬件构建，进入以前只有定制硬件可用的域。在本文中，我们概述了各种用于高性能分组IO的框架。我们基于数据包转发场景中的代表性测量分析了最突出的框架的性能。因此，我们将量化缓存的影响，并查看吞吐量和延迟之间的权衡。此外，我们还引入了一个模型来估计和评估这些数据包处理框架的性能。

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Comparison of frameworks for high-performance packet IO

Network stacks currently implemented in operating systems can no longer cope with the packet rates offered by 10 Gbit Ethernet. Thus, frameworks were developed claiming to offer a faster alternative for this demand. These frameworks enable arbitrary packet processing systems to be built from commodity hardware handling a traffic rate of several 10 Gbit interfaces, entering a domain previously only available to custom-built hardware. In this paper, we survey various frameworks for high-performance packet IO. We analyze the performance of the most prominent frameworks based on representative measurements in packet forwarding scenarios. Therefore, we quantify the effects of caching and look at the tradeoff between throughput and latency. Moreover, we introduce a model to estimate and assess the performance of these packet processing frameworks.

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来源期刊

2015 ACM/IEEE Symposium on Architectures for Networking and Communications Systems (ANCS)

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