Cost-effective diameter-two topologies: analysis and evaluation

SC15: International Conference for High Performance Computing, Networking, Storage and Analysis Pub Date : 2015-11-15 DOI:10.1145/2807591.2807652

G. Kathareios, C. Minkenberg, B. Prisacari, G. Rodríguez, T. Hoefler

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引用次数: 51

Abstract

HPC network topology design is currently shifting from high-performance, higher-cost Fat-Trees to more cost-effective architectures. Three diameter-two designs, the Slim Fly, Multi-Layer Full-Mesh, and Two-Level Orthogonal Fat-Tree excel in this, exhibiting a cost per endpoint of only 2 links and 3 router ports with lower end-to-end latency and higher scalability than traditional networks of the same total cost. However, other than for the Slim Fly, there is currently no clear understanding of the performance and routing of these emerging topologies. For each network, we discuss minimal, indirect random, and adaptive routing algorithms along with deadlock-avoidance mechanisms. Using these, we evaluate the performance of a series of representative workloads, from global uniform and worst-case traffic to the all-to-all and near-neighbor exchange patterns prevalent in HPC applications. We show that while all three topologies have similar performance, OFTs scale to twice as many endpoints at the same cost as the others.

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具有成本效益的直径二拓扑:分析和评估

目前，HPC网络拓扑设计正从高性能、高成本的fat - tree结构转向更具成本效益的架构。Slim Fly、Multi-Layer Full-Mesh和Two-Level Orthogonal Fat-Tree三种直径两种设计在这方面表现出色，每个端点的成本只有2条链路和3个路由器端口，与相同总成本的传统网络相比，端到端延迟更低，可扩展性更高。然而，除了Slim Fly之外，目前对这些新兴拓扑的性能和路由还没有明确的了解。对于每个网络，我们讨论了最小、间接随机和自适应路由算法以及死锁避免机制。使用这些，我们评估了一系列代表性工作负载的性能，从全局统一和最坏情况流量到HPC应用程序中流行的所有对所有和近邻交换模式。我们表明，虽然所有三种拓扑都具有相似的性能，但oft以相同的成本扩展到两倍于其他拓扑的端点。

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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SC15: International Conference for High Performance Computing, Networking, Storage and Analysis

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