海报:基于planewave的8万节点k型计算机第一性原理MD计算

A. Kuroda, K. Minami, T. Yamasaki, J. Nara, J. Koga, T. Uda, T. Ohno
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引用次数: 0

摘要

我们展示了第一原理电子结构计算代码PHASE在大规模并行超级计算机K上的效率,K有80,000个节点。此代码基于平面波基集,因此包含FFT例程。通过将每个FFT计算定位在少量节点上,我们成功地将代码中所需的FFT例程并行化,从而减少了FFT计算所需的通信时间。我们还引入了波段和平面波的多轴并行化,然后相位显示出很高的并行效率。利用这一程序,我们研究了碳化硅中螺旋位错的结构稳定性,这一问题在半导体工业中具有重要的意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Poster: Planewave-Based First-Principles MD Calculation on 80,000-node K-Computer
We show the efficiency of a first-principles electronic structure calculation code, PHASE on the massive-parallel super computer, K, which has 80,000 nodes. This code is based on plane-wave basis set, thus FFT routines are included. We succeeded in parallelization of FFT routines needed in our code by localizing each FFT calculation in small number of nodes, resulting in decreasing communication time required for FFT calculation. We also introduce multi-axis parallelization for bands and plane waves and then PHASE shows very high parallel efficiency. By using this code, we have investigated the structural stability of screw dislocations in silicon carbide, which has attracted much attention due to the semiconductor industry importance.
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