Distributed Direction-Optimizing Label Propagation for Community Detection

2019 IEEE High Performance Extreme Computing Conference (HPEC) Pub Date : 2019-09-01 DOI:10.1109/HPEC.2019.8916215

Xu T. Liu, J. Firoz, Marcin Zalewski, M. Halappanavar, K. Barker, A. Lumsdaine, A. Gebremedhin

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引用次数: 7

Abstract

Designing a scalable algorithm for community detection is challenging due to the simultaneous need for both high performance and quality of solution. We propose a new distributed algorithm for community detection based on a novel Label Propagation algorithm. The algorithm is inspired by the direction optimization technique in graph traversal algorithms, relies on the use of frontiers, and alternates between abstractions called label push and label pull. This organization creates flexibility and affords us with opportunities for balancing performance and quality of solution. We implement our algorithm in distributed memory with the active-message based asynchronous many-task runtime AM++. We experiment with two seeding strategies for the initial seeding stage, namely, random seeding and degree seeding. With the Graph Challenge dataset, our distributed implementation, in conjunction with the runtime support, detects the communities in graphs having 20 million vertices in less than one second while achieving reasonably high quality of solution.

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面向社区检测的分布式方向优化标签传播

设计一种可扩展的社区检测算法具有挑战性，因为同时需要高性能和高质量的解决方案。在标签传播算法的基础上，提出了一种新的分布式社区检测算法。该算法受图遍历算法中的方向优化技术的启发，依赖于边界的使用，并在称为标签推和标签拉的抽象之间交替。这种组织创造了灵活性，并为我们提供了平衡解决方案性能和质量的机会。我们使用基于活动消息的异步多任务运行时am++在分布式内存中实现了我们的算法。在初始播种阶段，采用随机播种和程度播种两种播种策略进行了试验。使用Graph Challenge数据集，我们的分布式实现与运行时支持一起，在不到一秒的时间内检测到具有2000万个顶点的图中的社区，同时获得相当高质量的解决方案。

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2019 IEEE High Performance Extreme Computing Conference (HPEC)

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