使用低基数路由器构建大规模直连网络

2014 20th IEEE International Conference on Parallel and Distributed Systems (ICPADS) Pub Date : 2014-12-01 DOI:10.1109/PADSW.2014.7097830

Yong Su, Zheng Cao, Zhiguo Fan, Zhan Wang, Xiaoli Liu, Xiaobing Liu, Li Qiang, Xuejun An, Ninghui Sun

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引用次数: 1

摘要

通信局部性是并行应用的一个重要特征。大量研究表明，利用这一特性将有利于大多数应用。针对通信局部性，提出了一种分层直连网络拓扑结构，以加快邻居通信。将网状拓扑结构与完全图拓扑结构相结合，可用于优化局部通信，构建低基数路由器的大规模网络。分析了层次化拓扑的特点，发现该拓扑具有较高的性价比和良好的可扩展性。我们还设计了两种最小路径路由算法，并与Mesh、Dragonfly和PERCS拓扑进行了比较。结果表明，采用均匀随机路径时，分层拓扑的饱和吞吐量接近40%，采用4K节点的局部通信模型时，饱和吞吐量接近70%。这表明具有本地通信的应用程序具有很高的可扩展性和统一随机跟踪的成本效率。

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Building a large-scale direct network with low-radix routers

Communication locality is an important characteristic of parallel applications. A great deal of research shows that utilizing the characteristic will favor most applications. Aiming at communication locality, we present a hierarchical direct network topology to accelerate neighbor communication. Combining mesh topology and complete graph topology, it can be used to optimize local communication and build large-scale network with low radix routers. Analyzing the characteristic of hierarchical topology, we find the presented topology has high cost performance and excellent expandability. We also design two minimum path routing algorithms and compare them with Mesh, Dragonfly and PERCS topologies. The results show the saturated throughput of hierarchical topology is nearly 40% with uniform random trace and 70% with local communication model of 4K nodes. That indicates high scalability for applications with local communication and cost efficiency for uniform random trace.

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2014 20th IEEE International Conference on Parallel and Distributed Systems (ICPADS)

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