Adaptation and optimization of basic operations for an unstructured mesh CFD algorithm for computation on massively parallel accelerators

Bogdanov P.B.; Gorobets A.V.; Sukov S.A.

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Adaptation and optimization of basic operations for an unstructured mesh CFD algorithm for computation on massively parallel accelerators

机译：适应和优化用于大规模并行加速器的非结构化网格CFD算法的基本操作

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The design of efficient algorithms for large-scale gas dynamics computations with hybrid (heterogeneous) computing systems whose high performance relies on massively parallel accelerators is addressed. A high-order accurate finite volume algorithm with polynomial reconstruction on unstructured hybrid meshes is used to compute compressible gas flows in domains of complex geometry. The basic operations of the algorithm are implemented in detail for massively parallel accelerators, including AMD and NVIDIA graphics processing units (GPUs). Major optimization approaches and a computation transfer technique are covered. The underlying programming tool is the Open Computing Language (OpenCL) standard, which performs on accelerators of various architectures, both existing and emerging.

机译：解决了使用混合（异构）计算系统进行大规模气体动力学计算的高效算法的设计，该系统的高性能依赖于大规模并行加速器。在多项非结构混合网格上采用多项式重构的高阶精确有限体积算法用于计算复杂几何域中的可压缩气体流量。对于大规模并行加速器，包括AMD和NVIDIA图形处理单元（GPU），详细实现了该算法的基本操作。涵盖了主要的优化方法和计算传输技术。底层的编程工具是开放计算语言（OpenCL）标准，该标准在各种体系结构的加速器上执行，包括现有的和新兴的。

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《Computational mathematics and mathematical physics》 |2013年第8期|共12页
作者
Bogdanov P.B.; Gorobets A.V.; Sukov S.A.;
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原文格式 PDF
正文语种 eng
中图分类计算数学;
关键词
gas dynamics; GPU; OpenCL; parallel computations; unstructured meshes;

机译：气体动力学;GPU;OpenCL;并行计算;非结构化网格;

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1. Adaptation and optimization of basic operations for an unstructured mesh CFD algorithm for computation on massively parallel accelerators [J] . Bogdanov P.B., Gorobets A.V., Sukov S.A. Computational mathematics and mathematical physics . 2013,第8期

机译：适应和优化用于大规模并行加速器的非结构化网格CFD算法的基本操作
2. Open Problems in Computational Steering of Massive Parallel Unstructured Grid Based CFD Simulations [J] . Christian Wagner OASIcs : OpenAccess Series in Informatics . 2011,第2期

机译：基于大规模并行非结构化网格的CFD仿真计算转向中的开放性问题
3. Automatic decomposition of unstructured meshes employing genetic algorithms for parallel FEM computations [J] . A. Rama Mohan Rao, T.V.S.R. Appa Rao, B. Dattaguru Structural Engineering and Mechanics . 2002,第6期

机译：使用遗传算法对非结构化网格进行自动分解以进行并行FEM计算
4. Multigrid using Adaptive Unstructured Meshes for Massively Parallel Computation [C] . H. Digonnet International Conference on Parallel, Distributed, Grid and Cloud Computing for Engineering . 2013

机译：使用自适应非结构化网格的多基体进行大规模并行计算
5. Massively parallel algorithms for CFD simulation and optimization on heterogeneous many-core architectures. [D] . Duffy, Austen C. 2011

机译：大规模并行算法，用于异构多核架构上的CFD仿真和优化。
6. Scalable Evaluation of Polarization Energy and Associated Forces in Polarizable Molecular Dynamics: II.Towards Massively Parallel Computations using Smooth Particle Mesh Ewald [O] . Louis Lagardère, Filippo Lipparini, Étienne Polack, -1

机译：可极化分子动力学中极化能量和相关力的可扩展评估：II。使用光滑粒子网格Ewald进行大规模并行计算
7. Exploring Shared-memory Optimizations for an Unstructured Mesh CFD Application on Modern Parallel Systems [O] . Dinesh Kaushik, David Keyes 2016

机译：探索现代并行系统中非结构化网格CFD应用的共享内存优化

Adaptation and optimization of basic operations for an unstructured mesh CFD algorithm for computation on massively parallel accelerators

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