A scalable multiphysics algorithm for massively parallel direct numerical simulations of electrophoretic motion

Dominik Bartuschat; Ulrich Rüde

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A scalable multiphysics algorithm for massively parallel direct numerical simulations of electrophoretic motion

机译：可扩展的多物理场算法，用于电泳运动的大规模并行直接数值模拟

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We introduce a novel coupled algorithm for massively parallel direct numerical simulations of electrophoresis in microfluidic flows. This multiphysics algorithm employs an Eulerian description of fluid and ions, combined with a Lagrangian representation of moving charged particles. The fixed grid facilitates efficient solvers and the employed lattice Boltzmann method can efficiently handle complex geometries. Validation experiments with more than 70 000 time steps are presented, together with scaling experiments with over 4 × 106particles and 1.96 × 1011grid cells for both hydrodynamics and electric potential. We achieve excellent performance and scaling on up to 65 536 cores of a current supercomputer.

机译：我们介绍了一种新颖的耦合算法，用于大规模并行直接模拟微流中的电泳。这种多物理场算法采用了流体和离子的欧拉描述，并结合了带电粒子的拉格朗日表示。固定网格有助于高效求解，而所采用的格子Boltzmann方法可以有效处理复杂的几何形状。提出了超过70 000个时间步长的验证实验，以及超过4×106个颗粒和1.96×1011个网格单元的流体力学和电势定标实验。我们在当前超级计算机的多达65×536个内核上实现了出色的性能和可扩展性。

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《Journal of computational science》 |2018年第7期|147-167|共21页
作者
Dominik Bartuschat; Ulrich Rüde;
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A scalable multiphysics algorithm for massively parallel direct numerical simulations of electrophoretic motion

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