Overcoming the Memory Bottleneck in Auxiliary Field Quantum Monte Carlo Simulations with Interpolative Separable Density Fitting

Malone Fionn D.; Zhang Shuai; Morales Miguel A.

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Overcoming the Memory Bottleneck in Auxiliary Field Quantum Monte Carlo Simulations with Interpolative Separable Density Fitting

机译：克服辅助现场量子蒙特卡罗模拟中的内存瓶颈，具有内插可分离密度配件

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We investigate the use of interpolative separable density fitting (ISDF) as a means to reduce the memory bottleneck in auxiliary field quantum Monte Carlo (AFQMC) simulations of real materials in Gaussian basis sets. We find that ISDF can reduce the memory scaling of AFQMC simulations from O(M-4) to O(M-2). We test these developments by computing the structural properties of carbon in the diamond phase, comparing to results from existing computational methods and experiment.

机译：我们调查使用内插可分离密度拟合（ISDF）作为减少高斯基础集中实际材料的辅助场云墨西哥卡罗（AFQMC）模拟中的内存瓶颈的方法。我们发现ISDF可以将AFQMC仿真的内存缩放从O（M-4）到O（M-2）降低。我们通过计算钻石阶段中碳的结构性，与来自现有计算方法和实验的结果进行比较来测试这些发展。

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《Journal of chemical theory and computation: JCTC》 |2019年第1期|共9页
作者
Malone Fionn D.; Zhang Shuai; Morales Miguel A.;
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Lawrence Livermore Natl Lab Quantum Simulat Grp 7000 East Ave Livermore CA 94551 USA;

Lawrence Livermore Natl Lab Quantum Simulat Grp 7000 East Ave Livermore CA 94551 USA;

Lawrence Livermore Natl Lab Quantum Simulat Grp 7000 East Ave Livermore CA 94551 USA;

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正文语种 eng
中图分类化学键的量子力学理论;化学;
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1. Overcoming the Memory Bottleneck in Auxiliary Field Quantum Monte Carlo Simulations with Interpolative Separable Density Fitting [J] . Malone Fionn D., Zhang Shuai, Morales Miguel A. Journal of chemical theory and computation: JCTC . 2019,第1期

机译：克服辅助现场量子蒙特卡罗模拟中的内存瓶颈，具有内插可分离密度配件
2. Auxiliary-Field Quantum Monte Carlo Simulations of Neutron Matter in Chiral Effective Field Theory [J] . G. Wlazlowski, J. W. Holt, S. Moroz, Physical review letters . 2014,第18期

机译：手性有效场理论中子物质的辅助场量子蒙特卡罗模拟
3. On Achieving High Accuracy in Quantum Chemical Calculations of 3d Transition Metal-Containing Systems: A Comparison of Auxiliary-Field Quantum Monte Carlo with Coupled Cluster, Density Functional Theory, and Experiment for Diatomic Molecules [J] . Shee James, Rudshteyn Benjamin, Arthur Evan J., Journal of chemical theory and computation: JCTC . 2019,第4期

机译：实现含3D过渡金属系统量子化学计算的高精度：辅助场量子蒙特卡洛与耦合簇，密度函数理论的比较，硅藻分子实验
4. Microscopic Calculation of Nuclear Level Densities with Auxiliary-Fields Monte Carlo Method [C] . H. Nakada International Conference on Nuclear Data for Science and Technology . 2002

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5. Ab Initio Simulations of Light Nuclear Systems Using Eigenvector Continuation and Auxiliary Field Monte Carlo [D] . Frame, Dillon Kyle. 2019

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6. In silico prediction of annihilators for triplet–triplet annihilation upconversion via auxiliary-field quantum Monte Carlo [O] . John L. Weber, Emily M. Churchill, Steffen Jockusch, 2021

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7. Overcoming the Memory Bottleneck in Auxiliary Field Quantum Monte Carlo Simulations with Interpolative Separable Density Fitting [O] . Fionn D. Malone, Shuai Zhang, Miguel A. Morales 2018

机译：克服辅助现场量子蒙特卡罗模拟中的内存瓶颈，具有内插可分离密度配件

Overcoming the Memory Bottleneck in Auxiliary Field Quantum Monte Carlo Simulations with Interpolative Separable Density Fitting

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