基于OpenMP的大规模地下水流模拟并行PCG求解器

2011 Fourth International Symposium on Parallel Architectures, Algorithms and Programming Pub Date : 2011-12-09 DOI:10.1109/PAAP.2011.45

Dandan Li, Xiaohui Ji, Qun Wang

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引用次数: 4

摘要

地下水流动模拟已成为新一代环境应用领域的国际热点问题之一。在管理大规模地下水流动问题时，密集的计算能力和建模所需的大量存储空间是研究人员面临的主要瓶颈。为了更快地求解三维大尺度地下水流动问题，本文采用Open MP对预置共轭梯度(PCG)算法进行并行化处理。并在四核计算机上进行了三维地下水流动模型的数值实验。通过数值实验发现，原串行PCG程序的执行时间约为不同线程数并行PCG程序的1.74 ~ 2.86倍。实验结果还表明，基于Open MP的PCG求解器是求解大尺度三维地下水流动问题的有效方法。

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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A Parallel PCG Solver for Large-Scale Groundwater Flow Simulation Based on OpenMP

Groundwater flow simulation has become one of the top international issues in new generation of environmental applications. When managing large-scale groundwater flow problems, the intensive computational ability and large amounts of memory space required for modeling are the main bottlenecks for researchers. In order to solve three-dimensional large-scale groundwater flow problems more rapidly, the Open MP was adopted to parallelize the preconditioned conjugate gradient (PCG) algorithm in this paper. And this paper carried out a numerical experiment of the three-dimensional groundwater flow model on a computer with four cores. Based on the numerical experiment, it is found that the execution time of the original serial PCG program is about 1.74 to 2.86 times of the parallel PCG program executed with different number of threads. The experimental results also demonstrate that the PCG solver based on Open MP is an effective way for solving large-scale three-dimensional groundwater flow problem.

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2011 Fourth International Symposium on Parallel Architectures, Algorithms and Programming

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