在共享瓶颈中使用多路径TCP和Openflow的好处

2015 IEEE 29th International Conference on Advanced Information Networking and Applications Workshops Pub Date : 2015-03-24 DOI:10.1109/AINA.2015.159

M. Sandri, Alan C. Silva, L. Rocha, F. Verdi

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引用次数: 46

摘要

本文的重点是评估MPTCP在开放流网络中转发子流的使用。MPTCP是一种网络协议，旨在通过不连接的路径转发子流。现代网络通常使用等价多路径协议(Equal-Cost Multipath Protocol, ECMP)通过不同的路径来分割流。然而，即使启用了ECMP，子流也可能通过相同的路径转发。MPTCP通过设置子流通过不同的路径转发来改进多路径路由。因此，必须考虑子流的数量来评估网络吞吐量。在本文中，我们设计了Multiflow，在Open Flow网络中使用MPTCP。我们的建议是通过多个路径转发来自同一MPTCP连接的子流来提高共享瓶颈中的吞吐量。我们在一个测试平台中验证我们的方法，其中共享瓶颈发生在端点的链接中。在弹性和端到端吞吐量实验中评估了Multiflow对网络性能的改善。

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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On the Benefits of Using Multipath TCP and Openflow in Shared Bottlenecks

This paper focuses on evaluating the use of MPTCP to forward sub flows in Open Flow networks. MPTCP is a network protocol designed to forward sub flows through disjointed paths. Modern networks commonly use Equal-Cost Multipath Protocol (ECMP) to split flows through distinct paths. However, even with ECMP enabled, sub flows may be forwarded through the same path. MPTCP improves the multipath routing by setting sub flows to be forwarded through distinct paths. As a consequence, the amount of sub flows must be considered to evaluate the network throughput. In this paper, we design Multiflow to use MPTCP in Open Flow networks. Our proposal is to improve the throughput in shared bottlenecks by forwarding sub flows from a same MPTCP connection through multiple paths. We validate our approach in a test bed where shared bottlenecks occur in the link at the endpoints. The Multiflow improvement of the network performance is evaluated in experiments about resilience and end-to-end throughput.

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2015 IEEE 29th International Conference on Advanced Information Networking and Applications Workshops

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