路径计算元素(PCE)中的多路径路由:协议扩展和实现

Xiaomin Chen, Yuesheng Zhong, A. Jukan
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引用次数: 5

摘要

路径计算元素(PCE)和路径计算元素通信协议(PCE)已经被IETF标准化。PCE的可扩展性和约束路径计算能力使其对运营商特别有吸引力。考虑到相关协议的最新扩展,PCE已经成为连接业务提供的事实上的标准,特别是在对QoS要求严格的运营商级网络中。尽管迄今为止提出的PCE框架只考虑单路径计算,但对高带宽要求的灵活业务的需求日益增长,正在推动PCE向多路径技术发展。本文提出了PCE的第一个实现和协议扩展,具有符合PCE标准的多路径计算能力。我们证明了pce中由多路径扩展引起的开销(即信令延迟)是可以接受的,而连接请求的阻塞比率可以显着降低。我们还建议在多路径路由算法中限制路径的数量,以略微增加阻塞率为代价来减少多路径扩展带来的开销。结果表明,所提出的多径PCE系统在大型网络中具有可扩展性,平均信令延迟在毫秒量级。因此,它在实际应用中是可行的,并且对具有新兴应用的传输网络(如光网和载波以太网)是有益的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multipath routing in Path Computation Element (PCE): Protocol extensions and implementation
The Path Computation Element (PCE) and PCE communication Protocol (PCEP) have been standardized by the IETF. The scalability of PCE and its capability of constrained path computation make it especially attractive to carriers. Considering the latest extensions on related protocols, PCE has become the de-facto standard in connection service provisioning, especially in the carrier grade networks with strict QoS requirements. Whereas the PCE frameworks proposed to date have exclusively considered single path computation, the increasing demand for flexible services with high bandwidth requirement is driving PCE towards multipath techniques. This paper proposes the first implementation and protocol extensions of PCE with capability of multipath computation in line with PCE standards. We show that the overhead, i.e., signaling delay, caused by the multipath extensions in the PCEs is acceptable, while the blocking ratio of connection requests can be significantly reduced. We also suggest that the number of paths can be limited in the multipath routing algorithms to reduce the overhead caused by multipath extensions at a price of slight increase of blocking ratio. The results show that the presented multipath PCE system is scalable in large networks, with average signaling delay in the order of milliseconds. Therefore, it is feasible in practice and it can be beneficial for transport networks with emerging new applications, such as optical and Carrier Ethernet networks.
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