Algorithm for generating irreducible site-occupancy configurations

J. Lian, Hong-Yu Wu, Wei‐Qing Huang, Wangyu Hu, Gui‐Fang Huang
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引用次数: 7

Abstract

Generating irreducible site-occupancy configurations by taking advantage of crystal symmetry is a ubiquitous method for accelerating of disordered structure prediction, which plays an important role in condensed matter physics and material science. Here, we present a new algorithm for generating irreducible site-occupancy configurations, that works for arbitrary parent cell with any supercell expansion matrix, and for any number of atom types with arbitrary stoichiometry. The new algorithm identifies the symmetrically equivalent configurations by searching the space group operations of underlying lattice and building the equivalent atomic matrix based on it. Importantly, an integer representation of configurations can greatly accelerate the speed of elimination of duplicate configurations, resulting into a linear scale of run time with the number of irreducible configurations that finally found. Moreover, based on our new algorithm, we write the corresponding code named as disorder in FORTRAN programming language, and the performance test results show that the time efficiency of our disorder code is superior to that of other related codes (supercell, enumlib and SOD).
生成不可约场地占用配置的算法
利用晶体对称性生成不可约的占位构型是一种普遍存在的加速无序结构预测的方法,在凝聚态物理和材料科学中发挥着重要作用。在这里,我们提出了一种新的算法,用于产生不可约的位置占用配置,该算法适用于具有任何超级单体膨胀矩阵的任意亲本细胞,以及具有任意化学计量的任意数量的原子类型。该算法通过搜索底层晶格的空间群运算并在此基础上构建等效原子矩阵来识别对称等价构型。重要的是,配置的整数表示可以大大加快重复配置的消除速度,从而使最终发现的不可约配置的数量在运行时间上呈线性比例。在此基础上,用FORTRAN编程语言编写了相应的无序代码,性能测试结果表明,无序代码的时间效率优于其他相关代码(supercell、enumlib和SOD)。
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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