Channel reservation protocol for over-subscribed channels and destinations

2013 SC - International Conference for High Performance Computing, Networking, Storage and Analysis (SC) Pub Date : 2013-11-17 DOI:10.1145/2503210.2503213

George Michelogiannakis, Nan Jiang, Daniel U. Becker, W. Dally

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引用次数: 21

Abstract

Channels in system-wide networks tend to be over-subscribed due to the cost of bandwidth and increasing traffic demands. To make matters worse, workloads can overstress specific destinations, creating hotspots. Lossless networks offer attractive advantages compared to lossy networks but suffer from tree saturation. This led to the development of explicit congestion notification (ECN). However, ECN is very sensitive to its configuration parameters and acts only after congestion forms. We propose channel reservation protocol (CRP) to enable sources to reserve bandwidth in multiple resources in advance of packet transmission and with a single request, but without idling resources like circuit switching. CRP prevents congestion from ever occurring and thus reacts instantly to traffic changes, whereas ECN requires 300,000 cycles to stabilize in our experiments. Furthermore, ECN may not prevent congestion formed by short-lived flows generated by a large combination of source-destination pairs.

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用于超额订阅的通道和目的地的通道预订协议

由于带宽成本和不断增加的流量需求，全系统网络中的信道往往会被过度订阅。更糟糕的是，工作负载可能会对特定目的地造成过度压力，从而产生热点。与有损网络相比，无损网络具有吸引人的优势，但存在树饱和的问题。这导致了显式拥塞通知(ECN)的发展。然而，ECN对其配置参数非常敏感，只有在拥塞形成后才会起作用。我们提出了信道保留协议(CRP)，以使源在数据包传输之前和单个请求中保留多个资源中的带宽，而不会像电路交换那样空闲资源。在我们的实验中，CRP可以防止拥堵的发生，从而对交通变化做出即时反应，而ECN需要30万个循环才能稳定下来。此外，ECN可能无法防止由大量源-目的地对组合产生的短时间流形成的拥塞。

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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2013 SC - International Conference for High Performance Computing, Networking, Storage and Analysis (SC)

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