Vincent Liu, Danyang Zhuo, Simon Peter, A. Krishnamurthy, T. Anderson
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Subways: a case for redundant, inexpensive data center edge links
As network demand increases, data center network operators face a number of challenges including the need to add capacity to the network. Unfortunately, network upgrades can be an expensive proposition, particularly at the edge of the network where most of the network's cost lies. This paper presents a quantitative study of alternative ways of wiring multiple server links into a data center network. In it, we propose and evaluate Subways, a new approach to wiring servers and Top-of-Rack (ToR) switches that provides an inexpensive incremental upgrade path as well as decreased network congestion, better load balancing, and improved fault tolerance. Our simulation-based results show that Subways significantly improves performance compared to alternative ways of wiring the same number of links and switches together. For example, we show that Subways offers up to 3.1× better performance on a MapReduce shuffle workload compared to an equivalent capacity network.
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