Electronic Temperature in Divide-and-Conquer Electronic Structure Calculation Revisited: Assessment and Improvement of Self-Consistent Field Convergence

Akama Tomoko; Kobayashi Masato; Nakai Hiromi

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Electronic Temperature in Divide-and-Conquer Electronic Structure Calculation Revisited: Assessment and Improvement of Self-Consistent Field Convergence

机译：再论分治电子结构计算中的电子温度：自洽场收敛的评估和改进

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We investigated the electronic temperature dependence of divide-and-conquer (DC) self-consistent field (SCF) method in calculations of uniform (U) and bond-alternating polyene chains. It was found that part of total energy error of DC calculation is caused by a finite electronic temperature appeared in the DC formalism. As the electronic temperature decreases, the error by the finite temperature decreases to zero but the number of SCF iteration increases, especially in the U chain calculation. To improve the DC SCF convergence with a high energy accuracy, we introduced the temperature-lowering technique into DC calculation. Numerical assessment reveals thegood performance of the present method.

机译：在均匀（U）和交替键多烯链的计算中，我们研究了分治法（DC）自洽场（SCF）方法的电子温度依赖性。发现直流计算的总能量误差的一部分是由直流形式主义中出现的有限电子温度引起的。随着电子温度的降低，有限温度的误差降低至零，但SCF迭代次数增加，尤其是在U链计算中。为了以较高的能量精度提高DC SCF的收敛性，我们将降温技术引入了DC计算中。数值评估表明了该方法的良好性能。

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《International Journal of Quantum Chemistry》 |2009年第12期|共8页
作者
Akama Tomoko; Kobayashi Masato; Nakai Hiromi;
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正文语种 eng
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low-scaling electronic structure calculation; divide-and-conquer method; self-consistent field convergence; electronic temperature; varying fractional occupation number;

机译：低尺度电子结构计算;分治法;自洽场收敛;电子温度;分数占有率变化;

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1. Electronic Temperature in Divide-and-Conquer Electronic Structure Calculation Revisited: Assessment and Improvement of Self-Consistent Field Convergence [J] . Akama Tomoko, Kobayashi Masato, Nakai Hiromi International Journal of Quantum Chemistry . 2009,第12期

机译：再论分治电子结构计算中的电子温度：自洽场收敛的评估和改进
2. Sparse Projected-Gradient Method As a Linear-Scaling Low-Memory Alternative to Diagonalization in Self-Consistent Field Electronic Structure Calculations [J] . Ernesto G. Birgin, J. M. Martinez, Leandro Martinez Journal of chemical theory and computation: JCTC . 2013,第2期

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3. Adaptive regularized self-consistent field iteration with exact hessian for electronic structure calculation [J] . Wen Z., Milzarek A., Ulbrich M., SIAM Journal on Scientific Computing . 2013,第3期

机译：精确的粗麻布自适应正则化自洽场迭代用于电子结构计算
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7. Semi-empirical Self-consistent Field Calculations of Heteroaromatic Compounds of Biological Interest. II. The π-Electronic Structure of Riboflavin [O] . MAMORU KAMIYA, YUKIO AKAHORI 1970

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8. Dielectric Matrix Scheme for Fast Convergence in Self-Consistent Electronic-Structure Calculations [R] . Ho, K. M., Ihm, J., Joannopoulos, J. D. 1981

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Electronic Temperature in Divide-and-Conquer Electronic Structure Calculation Revisited: Assessment and Improvement of Self-Consistent Field Convergence

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