利用改进的Floyd-Warshall算法在NS-3上实现SPB IEEE 802.1aq协议模拟器

World Academy of Science, Engineering and Technology, International Journal of Electrical, Computer, Energetic, Electronic and Communication Engineering Pub Date : 2017-01-01 DOI:10.17706/IJCCE.2017.6.1.1-18

S. Ajila, Yoonsoon Chang

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引用次数: 0

摘要

以太网已经发展到支持各种网络拓扑结构，同时保持其向后兼容性和简单性。提供商的以太网网络的虚拟化支持为不同用户提供细粒度服务。生成树协议(STP)满足这些特性，但仍然可以从利用率和收敛时间的改进中获益。最短路径桥接(SPB, IEEE 802.1aq)是为了克服STP的缺点而发展起来的。本文介绍了NS-3的SPB模拟器的设计与实现。采用改进的Floyd-Warshall算法进行路由计算。在SPBM (SPB Mac-in-Mac)模式下对多播和单播通信进行了仿真，以展示模拟器的功能。结果表明，通信保持了SPB的关键特性;组播和单播之间的一致性，以及前后路径之间的对称性。在具有相同开销的候选路径中选择的流量路由符合SPB标准。这项工作的贡献是一个强大的模拟器，可以用来进行实验，而不需要通常的物理实现成本。

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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Using Modified Floyd-Warshall Algorithm to Implement SPB IEEE 802.1aq Protocol Simulator on NS-3

Ethernet has evolved to support various network topologies while maintaining its backward compatibility and simplicity. Virtualization of the provider’s Ethernet network enables support for finegrained services for different users. Spanning Tree Protocol (STP) meets these properties but, still could benefit from improvements on utilization and convergence time. Shortest Path Bridging (SPB, IEEE 802.1aq) has been developed to overcome the shortcomings of STP. This paper presents the design and implementation of an SPB simulator for NS-3. The modified version of Floyd-Warshall algorithm is used to compute routes. Multicast and unicast communications are simulated in SPBM (SPB Mac-in-Mac) mode to show the simulator’s capability. The results prove that the communication maintains the crucial property of SPB; congruency between multicast and unicast, and symmetry between forward and backward paths. The traffic route selected among candidate paths with the same cost is in accordance with the SPB standard. The contribution of this work is a powerful simulator that can be used to conduct experiments without the usual cost attached to the physical implementation.

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来源期刊

World Academy of Science, Engineering and Technology, International Journal of Electrical, Computer, Energetic, Electronic and Communication Engineering

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