OSPF和混合网络的性能分析

Asad Ali Khan, M. Zafrullah, M. Hussain, A. Ahmad
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引用次数: 13

摘要

大规模IP提供商网络的软件定义网络(SDN)是一个悬而未决的问题,并提出了不同的解决方案。而采用分布式和集中式两种方式的混合IP网络提供了SDN的集中化和分布式网络的可靠性。常用的方式是SDN控制流量的优先级,OSPF (Open Shortest Path First)协议保证流量的正常运行。在本研究中,我们提出了SDN隔离,它保持了对分散路由控制的集中管理。给定的拓扑在节点之间使用OpenFlow启用的交换机在某些字段中进行拆分。日志含义使能OSPF的路由器通过SDN交换机触发其他域的路由器更新。集中控制器定义两台OSPF路由器如何相互观察。在SDN的集中控制和OSPF的容错能力之间会有一个权衡。随着SDN节点的增加,控制会增加,整个网络的容错能力会下降。平衡拓扑隔离研究工作的新颖性也为网络管理提供了模型。为了展示混合网络对路由协议部署的增强,我们为路由协议和提议的混合网络部署了单独的测试平台。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Performance analysis of OSPF and hybrid networks
Software Defined Network (SDN) for large-scale IP provider network is an open issue and different solutions were proposed. However, the hybrid IP networks in which both distributed and centralized approach provide centralization of SDN and reliability of distributed networks. The common approach in which SDN controls the prioritized traffic and OSPF (Open Shortest Path First) guarantees the operation of traffic. In this research, we propose the SDN segregation, which maintain central management over dispersed routing control. A given topology is split in some fields with OpenFlow enabled switches as in between nodes. OSPF enabled router triggered updates to other routers in other field via SDN switches. The centralized controller defines how two OSPF routers observe each other. There will be a tradeoff between central control of SDN and fault tolerance capability of OSPF. As we increase SDN nodes control will increase and fault tolerance capacity of overall network decreases. The novelty of research work for balanced topology segregation also offers the models for network management. To show the enhancement provided by hybrid network over routing protocol deployment we have deployed separate test beds for routing protocol and proposed hybrid network.
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