并行OpenMP和OpenACC混合层仿真

2022 30th Euromicro International Conference on Parallel, Distributed and Network-based Processing (PDP) Pub Date : 2022-03-01 DOI:10.1109/pdp55904.2022.00036

H. Silva, C. Schepke, Natiele Lucca, C. Cristaldo, Dalmo Paim de Oliveira

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引用次数: 2

摘要

据估计，高达25%的粮食作物最终在收获后损失。正确干燥咖啡豆是控制这种损失的措施之一。由于颗粒质量是一组固体和空的空间，它的干燥可以认为是一个耦合的开孔介质问题。本文提出了一个数学和计算机模拟模型，描述了具有多孔障碍物的自由流动对流在谷物干燥中的应用。在FORTRAN中实现了一种计算流体力学格式，利用有限体积对数值解进行了模拟和计算。代码是使用OpenMP和OpenACC编程接口并行实现的。因此，在这两种情况下，处理时间都大大缩短了。对于多核架构(16个物理内核)，总模拟时间减少了8倍，使用单个GPU (Quadro M5000)则减少了17.3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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Parallel OpenMP and OpenACC Mixing Layer Simulation

It is estimated that up to 25% of the grain crop ends up being lost in the post-harvest. The correct drying of the beans is one of the measures to contain this loss. As the grain mass is a set of solid and empty spaces, its drying could be considered a problem of the coupled open-porous medium. In this paper, a mathematical and computer simulation model was proposed, which describes the convection in a free flow with a porous obstacle applied to the drying of the grain. A computational fluid dynamics scheme was implemented in FORTRAN using Finite Volume to simulate and compute the numerical solutions. The code is parallel implemented using OpenMP and OpenACC programming interfaces. As a result, there was a significant reduction in processing time in both cases. The total simulation time was eight times less for a multicore architecture (16 physical cores) and 17.3 times using a single GPU (Quadro M5000).

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2022 30th Euromicro International Conference on Parallel, Distributed and Network-based Processing (PDP)

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