Deploying PolKA Source Routing in P4 Switches : (Invited Paper)

2021 International Conference on Optical Network Design and Modeling (ONDM) Pub Date : 2021-06-28 DOI:10.23919/ONDM51796.2021.9492363

C. Dominicini, R. Guimaraes, D. Mafioletti, M. Martinello, M. Ribeiro, R. Villaça, F. Loui, Jordi Ortiz, Frank Slyne, M. Ruffini, E. Kenny

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引用次数: 4

Abstract

One great challenge of modern networks is how to select paths and react to highly variable and demanding traffic patterns. In recent years, emerging networking languages and architectures, such as P4/PISA, have created unprecedented opportunities for rapidly prototyping disruptive solutions in programmable data planes. In this direction, source routing (SR) is a prominent alternative to conventional table-based routing, since it reduces the convergence time of building distributed routing tables. In particular, PolKA explores the polynomial residue number system (RNS) for a fully stateless SR, i.e., no state update on packet headers needs to be conveyed along the route. This paper reports the deployment of PolKA in a continental testbed composed of P4 programmable switches. Results for end-to-end throughput and forwarding latency show that PolKA matches the data plane performance of traditional approaches, while paving the way for further innovative applications by exploring RNS properties in dynamic scenarios.

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在P4交换机中部署PolKA源路由:(特邀论文)

现代网络面临的一个巨大挑战是如何选择路径并对高度可变和苛刻的流量模式做出反应。近年来，新兴的网络语言和架构，如P4/PISA，为可编程数据平面的快速原型化破坏性解决方案创造了前所未有的机会。在这个方向上，源路由(SR)是传统基于表的路由的重要替代方案，因为它减少了构建分布式路由表的收敛时间。特别是，PolKA探索了一个完全无状态SR的多项式剩余数系统(RNS)，即不需要在路由上传递包头的状态更新。本文报道了PolKA在一个由P4可编程交换机组成的大陆试验台上的部署。端到端吞吐量和转发延迟的结果表明，PolKA与传统方法的数据平面性能相匹配，同时通过探索动态场景下RNS的特性，为进一步的创新应用铺平了道路。

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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2021 International Conference on Optical Network Design and Modeling (ONDM)

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