启用hsa的系统中的中间性

Proceedings of the ACM Workshop on High Performance Graph Processing Pub Date : 2016-05-31 DOI:10.1145/2915516.2915526

Shuai Che, Marc S. Orr, Gregory P. Rodgers, J. Gallmeier

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引用次数: 4

摘要

本文研究了在异构系统中实现间性中心性的不同方法。中间中心性是图处理中的一种重要算法。在处理图时，它提供了多层并行性，并且利用各种优化是一个有趣的问题。我们在AMD加速处理单元(APU)上实现了不同版本的间性中心性。其中包括仅gpu实现的两种边缘分布方法、gpu端负载平衡、带有队列监控的主工作模型中的CPU-GPU负载平衡以及工作窃取模型。我们利用异构系统架构(HSA)的最新发展，如统一的虚拟地址空间和多样化的原子的特点。我们还为不同的同步场景使用不同的内存作用域和排序选项。我们比较了多种中间性中心性的实现，分析了它们的性能，并讨论了未来重要的研究方向。

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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Betweenness Centrality in an HSA-enabled System

This paper studies different approaches to implementing betweenness centrality in a heterogeneous system. Betweenness centrality is an important algorithm in graph processing. It presents multiple levels of parallelism when processing a graph, and is an interesting problem to exploit various optimizations. We implement different versions of betweenness centrality on an AMD accelerated processing unit (APU). These include GPU-only implementations with two edge distribution methods, GPU-side load balancing, CPU-GPU load balancing in a master-worker model with queue monitoring and in a work stealing model. We take advantage of the latest development of heterogeneous system architecture (HSA), such as the features of unified virtual address space and diverse atomics. We also use different memory scope and ordering options for different synchronization scenarios. We compare multiple implementations of betweenness centrality, analyze their performance, and discuss important future research directions.

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Proceedings of the ACM Workshop on High Performance Graph Processing

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