重新思考高性能可重构网络中的路由设计

SC20: International Conference for High Performance Computing, Networking, Storage and Analysis Pub Date : 2020-11-01 DOI:10.1109/SC41405.2020.00029

Min Yee Teh, Y. Hung, George Michelogiannakis, Shijia Yan, M. Glick, J. Shalf, K. Bergman

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引用次数: 6

摘要

过去已经提出了许多可重构的网络拓扑。然而，在这些灵活互连之上的高效路由仍然是一个挑战。在这项工作中，我们重新评估了指导静态网络上许多路由协议设计的关键原则，并了解了这些原则在可重构网络拓扑中的应用情况。基于对可重构网络中路由需要满足的关键属性的理论分析，我们提出了一种可重构拓扑的拓扑感知全局直接无关(TAGO)路由协议。我们提出的路由协议设计简单，然而，当与可重构网络拓扑一起部署时，与已建立的路由协议相比，吞吐量提高了2.2倍，甚至在具有即时全局拥塞信息的不切实际的自适应路由吞吐量的10%以内。

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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TAGO: Rethinking Routing Design in High Performance Reconfigurable Networks

Many reconfigurable network topologies have been proposed in the past. However, efficient routing on top of these flexible interconnects still presents a challenge. In this work, we reevaluate key principles that have guided the designs of many routing protocols on static networks, and see how well those principles apply on reconfigurable network topologies. Based on a theoretical analysis of key properties that routing in a reconfigurable network should satisfy to maximize performance, we propose a topology-aware, globally-direct oblivious (TAGO) routing protocol for reconfigurable topologies. Our proposed routing protocol is simple in design and yet, when deployed in conjunction with a reconfigurable network topology, improves throughput by up to $2.2 \times$ compared to established routing protocols and even comes within 10% of the throughput of impractical adaptive routing that has instant global congestion information.

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SC20: International Conference for High Performance Computing, Networking, Storage and Analysis

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