Contour Dynamics Simulations with a Parallel Hierarchical-Element Method

机译：并行层次元方法的轮廓动力学模拟

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Many two-dimensional incompressible inviscid vortex flows can be simulated with high efficiency by means of the contour dynamics method. Several applications require the use of a hierarchical-element method (HEM), a modified version of the classical contour dynamics scheme by applying a fast multipole method, in order to accelerate the computations substantially. In this paper it is shown that the acceleration of contour dynamics simulations by means of the HEM can be increased further by parallelising the HEM algorithm. Speed-up, load balance and scalability are parallel performance features which are studied for several test examples. Furthermore, typical simulations are shown, including an application of vortex dynamics near the pole of a rotating sphere. The HEM has been parallelised using OpenMP and tested with up to 16 processors on an Origin 3800 CC-NUMA computer.

机译：利用轮廓动力学方法可以高效地模拟许多二维不可压缩的无粘性涡流。几个应用程序要求使用分层元素方法（HEM），这是通过应用快速多极点方法对经典轮廓动力学方案进行的修改，以大大加快计算速度。本文表明，通过并行化HEM算法，可以进一步提高利用HEM进行轮廓动力学仿真的速度。提速，负载平衡和可伸缩性是并行性能特征，将针对几个测试示例进行研究。此外，还显示了典型的模拟，包括在旋转球体的极点附近应用涡旋动力学。 HEM已使用OpenMP进行了并行化，并在Origin 3800 CC-NUMA计算机上使用多达16个处理器进行了测试。

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《International Conference on Computational Science - ICCS 2002 Pt.1, Apr 21-24, 2002, Amsterdam, the Netherlands》|2002年|p.1010-1019|共10页
会议地点 Amsterdam(NL);Amsterdam(NL)
作者
R.M. Schoemaker; P.C.A. de Haas; H.J.H. Clercx; R.M.M. Mattheij;
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Department of Applied Physics Eindhoven University of Technology, The Netherlands;

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原文格式 PDF
正文语种 eng
中图分类自动化技术、计算机技术;
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1. A parallel hierarchical-element method for contour dynamics simulations [J] . R. M. Schoemaker, P. C. A. de Haas, H. J. H. Clercx, Computers & Fluids . 2005,第10期

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2. Midpoint Cell Method for Hybrid (MPI1OpenMP) Parallelization of Molecular Dynamics Simulations [J] . Jaewoon Jung, Takaharu Mori, Yuji Sugita Journal of Computational Chemistry: Organic, Inorganic, Physical, Biological . 2014,第13a14期

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3. The distributed diagonal force decomposition method for parallelizing molecular dynamics simulations [J] . Bor?tnik U., Miller B.T., Brooks B.R., Journal of Computational Chemistry: Organic, Inorganic, Physical, Biological . 2011,第14期

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4. Contour Dynamics Simulations with a Parallel Hierarchical-Element Method [C] . International conference on computational science . 2002

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5. Parallel implicit fully coupled Newton-Krylov-Schwarz methods for numerical simulations of magnetohydrodynamics. [D] . Ovtchinnikov, Serguei. 2006

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6. The Distributed Diagonal Force Decomposition Method for Parallelizing Molecular Dynamics Simulations [O] . Urban Boršnik, Benjamin T. Miller, Bernard R. Brooks, -1

机译：用于并行分子动力学模拟的分布式对角线分解方法
7. A parallel hierarchical-element method for contour dynamics simulations [O] . Schoemaker, RM Robin, Haas, de, PCA Paul, Clercx, HJH Herman, 2005

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8. New parallel method for molecular dynamics simulation of macromolecular systems [R] . Plimpton, S. , Hendrickson, B. 1994

机译：新的大分子系统分子动力学模拟并行方法

Contour Dynamics Simulations with a Parallel Hierarchical-Element Method

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