Analysis of Fast Parallel Sorting Algorithms for GPU Architectures'

2011 Frontiers of Information Technology Pub Date : 2011-12-19 DOI:10.1109/FIT.2011.39

F. Khan, O. Khan, B. Montrucchio, P. Giaccone

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引用次数: 22

Abstract

Sorting algorithms have been studied extensively since past three decades. Their uses are found in many applications including real-time systems, operating systems, and discrete event simulations. In most cases, the efficiency of an application itself depends on usage of a sorting algorithm. Lately, the usage of graphic cards for general purpose computing has again revisited sorting algorithms. In this paper we extended our previous work regarding parallel sorting algorithms on GPU, and are presenting an analysis of parallel and sequential bitonic, odd-even and rank-sort algorithms on different GPU and CPU architectures. Their performance for various queue sizes is measured with respect to sorting time and rate and also the speed up of bitonic sort over odd-even sorting algorithms is shown on different GPUs and CPU. The algorithms have been written to exploit task parallelism model as available on multi-core GPUs using the OpenCL specification. Our findings report minimum of 19x speed-up of bitonic sort against odd-even sorting technique for small queue sizes on CPU and maximum of 2300x speed-up for very large queue sizes on Nvidia Quadro 6000 GPU architecture.

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面向GPU架构的快速并行排序算法分析

排序算法在过去的三十年里得到了广泛的研究。它们在许多应用程序中都有使用，包括实时系统、操作系统和离散事件模拟。在大多数情况下，应用程序本身的效率取决于排序算法的使用。最近，图形卡在通用计算中的使用再次重新审视了排序算法。在本文中，我们扩展了之前关于GPU上并行排序算法的工作，并对不同GPU和CPU架构上的并行和顺序双位、奇偶和秩排序算法进行了分析。在不同的gpu和CPU上测量了不同队列大小的排序时间和排序速率的性能，并显示了双元排序比奇偶排序算法的速度。这些算法是利用OpenCL规范在多核gpu上可用的任务并行模型编写的。我们的研究结果表明，对于CPU上的小队列大小，bitonic排序相对于奇偶排序技术的速度提高最少19倍，对于Nvidia Quadro 6000 GPU架构上的非常大的队列大小，速度提高最多2300倍。

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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2011 Frontiers of Information Technology

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