蜻蜓+:用于扩展数据中心的低成本拓扑

2017 IEEE 3rd International Workshop on High-Performance Interconnection Networks in the Exascale and Big-Data Era (HiPINEB) Pub Date : 2017-02-01 DOI:10.1109/HiPINEB.2017.11

Alexander Shpiner, Zachy Haramaty, Saar Eliad, Vladimir Zdornov, B. Gafni, E. Zahavi

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引用次数: 49

摘要

蜻蜓拓扑由Kim等人提出，旨在降低网络的成本和直径。这种拓扑将路由器划分为通过长链路连接的组。每个组都努力实现高基数的虚拟路由器，通过完全连接的拓扑结构连接。在本文中，我们提出了一种扩展的Dragonfly+网络，其中组内路由器以clos -like拓扑连接。蜻蜓+优于传统的蜻蜓，因为它能够支持的宿主数量明显更多。此外，Dragonfly+对各种流量模式支持类似或更好的双向带宽，并且需要更少的缓冲区以避免无损网络中的信用环路死锁。此外，我们还介绍了一种新颖的具有远程拥塞通知的全渐进自适应路由算法。为了支持我们的建议，我们提出了分析分析和模拟。

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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Dragonfly+: Low Cost Topology for Scaling Datacenters

Dragonfly topology was introduced by Kim et al. [1] aiming to decrease the cost and diameter of the network. The topology divides routers into groups connected by longlinks. Each group strives to implement high-radix virtual router, connected by a completely-connected topology. In this paper, we propose an extended Dragonfly+ networkin which routers inside the group are connected in Clos-liketopology. Dragonfly+ is superior to conventional Dragonfly due to the significantly larger number of hosts which it is able to support. In addition, Dragonfly+ supports similar or better bi-sectional bandwidth for various traffic patterns, and requires smaller number of buffers to avoid credit loop deadlocks in lossless networks. Moreover, we introduce a novel Fully Progressive Adaptive Routing algorithm with remote congestion notifications. To support our proposal we present analytical analysis and simulations.

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来源期刊

2017 IEEE 3rd International Workshop on High-Performance Interconnection Networks in the Exascale and Big-Data Era (HiPINEB)

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