Richárd Pallos, J. Farkas, I. Moldován, Csaba Lukovszki
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引用次数: 28
摘要
以太网为接入网和城域网提供了一种简单、低成本的高带宽解决方案。桥接器的故障转移性能是其适用性不可缺少的条件。因此,新的IEEE协议被开发和部署,以支持快速恢复。RSTP (Rapid Spanning Tree Protocol,快速生成树协议)是当前通用拓扑的故障处理机制,已被纳入标准,并在各个以太网网桥中实现。关于RSTP的恢复时间,有很多不同的说法,从秒到十毫秒不等。这些分析大多只依赖于理想条件下的模拟结果。本文报道了RSTP在实际环境中的性能。基于由不同厂商的以太网网桥组成的测试网络的测量结果,给出了RSTP的实验性能分析。深入分析了小型拓扑的基本处理时间和硬件延迟,然后对大型网络拓扑的RSTP性能进行了表征。
Performance of rapid spanning tree protocol in access and metro networks
Ethernet provides a simple and low-cost solution at high bandwidth for access and metropolitan networks. The failover performance of bridges is indispensable of their applicability. Therefore, new IEEE protocols were developed and deployed in support of fast recovery. Rapid Spanning Tree Protocol (RSTP) is the current fault handling mechanism for generic topologies, which is included in the standards and implemented in each Ethernet bridge nowadays. There are many different statements about the recovery time of RSTP from the order of seconds down to the order of ten milliseconds. Most of these analyses only rely on simulation results assuming ideal conditions. This paper reports on the performance of RSTP in real environment. It presents an experimental performance analysis of RSTP based on measurement results from test networks comprising Ethernet bridges from various vendors. Basic processing times and hardware delays are deeply analyzed for small topologies and the performance of RSTP is then characterized for larger network topologies.
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