具有高效自定义路由的互连网络，利用小世界效应

The 2013 RIVF International Conference on Computing & Communication Technologies - Research, Innovation, and Vision for Future (RIVF) Pub Date : 2013-11-01 DOI:10.1109/RIVF.2013.6719864

Nhat T. X. Le, V. Nguyen

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引用次数: 2

摘要

我们设计了一种新的互连网络拓扑和自定义路由算法，旨在解决大规模并行计算和大规模数据中心领域最新研究提出的新的挑战性问题。我们遵循分布式快捷网络(DSN)的设计原则[1]，它通过创建受小世界网络观察启发的远程快捷方式来构建非随机拓扑。因此，我们的新DSN-α网络在通信延迟方面表现明显优于基本DSN，同时提供令人惊讶的负载平衡，这有助于网络变得健壮，以应对突发的流量需求，而拓扑无关的无死锁路由(例如向上*/向下*)遭受了很多。

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Interconnection networks with efficient custom routing, exploiting small-world effect

We design a new interconnection network topology and a custom routing algorithm, which targets solving new challenging issues posed by recent advanced studies in the areas of massively parallel computing and large-scale data centers. We follow the design principles of Distributed Shortcut Networks (DSN) [1], which construct non-random topologies with the creation of long-range Shortcuts inspired by observations in small-world networks. As a result, our new DSN-α networks performs significantly better than the basic DSN in term of communication latency while provide an surprisingly load balance which helps the network become robust against burst of traffic demand while topology-agnostic deadlock-free routing (e.g. the up*/down*) suffers a lot.

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The 2013 RIVF International Conference on Computing & Communication Technologies - Research, Innovation, and Vision for Future (RIVF)

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