Mesh Decomposition for Efficient Parallel Computing of Electrical Machines by Means of FEM Accounting for Motion

Bohmer S.; Lange E.; Hafner M.; Cramer T.; Bischof C.; Hameyer K.

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Mesh Decomposition for Efficient Parallel Computing of Electrical Machines by Means of FEM Accounting for Motion

机译：利用运动有限元法对电机进行高效并行计算的网格分解

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摘要

The relative motion between stator and rotor in electrical machines requires a flexible representation in 2-D and 3-D finite element (FE) models. Numerous approaches to incorporate the relative motion are available. Due to increasing problem size and accuracy, parallel computing becomes more desirable. The parallel simulation of sufficiently large problems often involves domain decomposition algorithms, especially if distributed memory systems are used for the parallelisation. Accounting for motion usually requires explicit domain decomposition at each simulation step. This paper proposes an approach avoiding the computationally expensive domain decomposition at each step by properly choosing an initial decomposition, which can be applied to all steps throughout the simulation.

机译：电机中定子和转子之间的相对运动需要在2-D和3-D有限元（FE）模型中灵活地表示。可以采用多种方法来结合相对运动。由于问题大小和准确性的增加，并行计算变得更加理想。足够大的问题的并行仿真通常涉及域分解算法，尤其是在将分布式存储系统用于并行化的情况下。考虑运动通常需要在每个模拟步骤中进行明确的域分解。本文提出了一种方法，可以通过适当选择初始分解来避免每一步的计算开销很大的域分解，该方法可以应用于整个仿真的所有步骤。

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来源
《Magnetics, IEEE Transactions on》 |2012年第2期|p.891-894|共4页
作者
Bohmer S.; Lange E.; Hafner M.; Cramer T.; Bischof C.; Hameyer K.;
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作者单位

Institute of Electrical Machines, , RWTH Aachen University,, Aachen,, Germany;

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原文格式 PDF
正文语种 eng
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关键词
Multithreading; nonconforming mesh; parallel algorithms; rigid motion;

机译：多线程;不一致网格;并行算法;刚性运动;

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机译：通过FEM核对动作的电机有效并行计算的网格分解
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机译：'不合格有限元的最终报告;大规模并行计算环境中的网格生成，适应性及相关代数多重网格和域分解方法

Mesh Decomposition for Efficient Parallel Computing of Electrical Machines by Means of FEM Accounting for Motion

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