BGP和IP/MPLS弹性骨干网的组合设计

2019 11th International Workshop on Resilient Networks Design and Modeling (RNDM) Pub Date : 2019-10-01 DOI:10.1109/RNDM48015.2019.8949099

C. Risso, C. Mayr, E. Grampín

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引用次数: 2

摘要

Internet是相互连接的自治系统(Autonomous system, as)的集合，这些自治系统使用边界网关协议BGP (Border Gateway Protocol)交换可达性信息。为自治系统设计最佳BGP覆盖是一个已知的NP-Hard问题，该团队以前为IP网络解决过，即为最佳努力范例。然而，大多数互联网提供商通过将IP路由与MPLS(多协议标签交换)相结合来实现其骨干网，以实现qos感知的流量转发。MPLS转发融合了流量工程和更高效的故障转移机制。本工作介绍了IP/MPLS基板的协调设计。我们的贡献是为IP/MPLS互联网骨干网提出了一种最优且具有弹性的拓扑设计，它利用流量工程特性来优化需求，保持上述iBGP覆盖的最优性。

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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A Combined BGP and IP/MPLS Resilient Transit Backbone Design

The Internet is a collection of interconnected Autonomous Systems (ASes) that use the Border Gateway Protocol (BGP) to exchange reachability information. The design of an optimal BGP overlay for an AS is a known NP-Hard problem this team tackled previously for IP networks, i.e, for the best effort paradigm. However, most Internet providers implement their backbones by combining IP routing with MPLS (Multipro- tocol Label Switching) for QoS-aware traffic forwarding. MPLS forwarding incorporates traffic engineering and more efficient failover mechanisms. The present work introduces a coordinated design of both IP/MPLS substrates. Our contribution is on proposing an optimal and yet resilient topology design for an IP/MPLS Internet backbone, which takes advantage of traffic engineering features to optimize the demands, maintaining the aforementioned iBGP overlay optimality.

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来源期刊

2019 11th International Workshop on Resilient Networks Design and Modeling (RNDM)

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