A Graph-Grammar Based Multi-Frontal Parallel Direct Solver for One, Two and Three-Dimensional Partial Differential Equations

机译：一维，二维和三维偏微分方程的基于图语法的多前沿并行直接求解器

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In this paper we present a new multi-frontal parallel direct solver algorithm for one, two and three dimensional finite difference method computations. The algorithm is dedicated for multi-core shared memory architecture. It is based on partitioning of the solver algorithm into multiple undividable tasks, expressed as graph grammar productions. The partial order of tasks is analyzed by introducing the dependency relations by means of the trace theory. The analysis implies the sequence of classes with independent tasks that can be executed in concurrent, one class after another. The algorithm involves also the minimization of memory usage for three dimensional problems by re-computing some branches of the elimination tree before the backward substitution. The solver has been implemented and tested on multi-core NVIDIA CUDA architecture.

机译：在本文中，我们为一维，二维和三维有限差分方法计算提供了一种新的多面并行直接求解器算法。该算法专用于多核共享内存体系结构。它基于将求解器算法划分为多个不可分割的任务，表示为图文法生成。通过跟踪理论引入依赖关系来分析任务的部分顺序。这种分析意味着具有独立任务的类的顺序，这些任务可以并发执行，一个又一个。该算法还涉及通过向后替换之前重新计算消除树的某些分支来最小化三维问题的内存使用。该求解器已在多核NVIDIA CUDA架构上实施和测试。

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来源
《Proceedings of the Second international conference on parallel, distributed, grid and cloud computing for engineering.》|2011年|p.1-17|共17页
会议地点 Ajaccio(FR);Ajaccio(FR)
作者
P. Obrok; M. Paszyński;
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作者单位

Department of Computer Science AGH University of Science and Technology, Cracow, Poland;

Department of Computer Science AGH University of Science and Technology, Cracow, Poland;

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会议组织
原文格式 PDF
正文语种 eng
中图分类计算数学的应用;计算数学的应用;计算技术、计算机技术;计算数学的应用;计算数学的应用;计算数学的应用;
关键词
parallel multi-frontal solver; finite difference; graph grammar; trace theory; multi-core environment; memory optimization;

机译：并行多面求解器;有限差分;图语法;迹理论;多核环境;内存优化;

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1. Graph Grammar-Based Multi-Frontal Parallel Direct Solver for Two-Dimensional Isogeometric Analysis [J] . Krzysztof Ku?nik, Maciej Paszyński, Victor Calo Procedia Computer Science . 2012,第1期

机译：基于图文法的二维多几何面平行直接求解器
2. A new parallel solver suited for arbitrary semilinear parabolic partial differential equations based on generalized random trees [J] . Acebrón Juan A., Rodríguez-Rozas ángel Journal of Computational Physics . 2011,第21期

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3. An environment to develop parallel code for solving partial differential equations based-problems [J] . M. Prieto, I. Martin, F. Tirado Journal of systems architecture . 1999,第6a7期

机译：开发用于解决基于偏微分方程的问题的并行代码的环境
4. Evidences that Software Based on Non-overlapping Discretization Is Most Efficient for Applying Highly Parallelized Supercomputers to Solving Partial Differential Equations [C] . Ismael Herrera-Revilla, Ivan Contreras International conference on high performance computing and applications . 2016

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5. Some results concerning certain solvable directed polymer models and non-linear stochastic partial differential equations. [D] . Janjigian, Christopher. 2016

机译：关于某些可求解的有向聚合物模型和非线性随机偏微分方程的一些结果。
6. A boundary value approach for solving three-dimensional elliptic and hyperbolic partial differential equations [O] . T. A. Biala, S. N. Jator -1

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7. Graph Grammar-Based Multi-Frontal Parallel Direct Solver for Two-Dimensional Isogeometric Analysis [O] . Kuźnik Krzysztof, Paszyński Maciej, Calo Victor M. 2012

机译：基于图文法的二维等几何分析的多面并行直接求解器
8. Parallelizing across time when solving time-dependent partial differential equations. [R] . P. H. Worley 1991

机译：求解时间依赖的偏微分方程时，在时间上并行化。

A Graph-Grammar Based Multi-Frontal Parallel Direct Solver for One, Two and Three-Dimensional Partial Differential Equations

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