An atomic orbital-based formulation of the complete active space self-consistent field method on graphical processing units

Hohenstein Edward G.; Luehr Nathan; Ufimtsev Ivan S.; Martinez Todd J.

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An atomic orbital-based formulation of the complete active space self-consistent field method on graphical processing units

机译：图形处理单元上基于完整活动空间自洽场方法的原子轨道表示

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Despite its importance, state-of-the-art algorithms for performing complete active space selfconsistent field (CASSCF) computations have lagged far behind those for single reference methods. We develop an algorithm for the CASSCF orbital optimization that uses sparsity in the atomic orbital (AO) basis set to increase the applicability of CASSCF. Our implementation of this algorithm uses graphical processing units (GPUs) and has allowed us to perform CASSCF computations on molecular systems containing more than one thousand atoms. Additionally, we have implemented analytic gradients of the CASSCF energy; the gradients also benefit from GPU acceleration as well as sparsity in the AO basis. (C) 2015 AIP Publishing LLC.

机译：尽管它很重要，但是用于执行完整的有效空间自洽场（CASSCF）计算的最新算法已远远落后于单一参考方法的算法。我们开发了一种用于CASSCF轨道优化的算法，该算法在原子轨道（AO）基集中使用稀疏性来提高CASSCF的适用性。我们对该算法的实现使用图形处理单元（GPU），并允许我们在包含一千多个原子的分子系统上执行CASSCF计算。另外，我们已经实现了CASSCF能量的解析梯度。梯度还受益于GPU加速以及基于AO的稀疏性。（C）2015 AIP Publishing LLC。

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《The Journal of Chemical Physics》 |2015年第22期|共9页
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Hohenstein Edward G.; Luehr Nathan; Ufimtsev Ivan S.; Martinez Todd J.;
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1. An atomic orbital-based formulation of the complete active space self-consistent field method on graphical processing units [J] . Hohenstein Edward G., Luehr Nathan, Ufimtsev Ivan S., The Journal of Chemical Physics . 2015,第22期

机译：图形处理单元上基于完整活动空间自洽场方法的原子轨道表示
2. An atomic orbital-based formulation of the complete active space self-consistent field method on graphical processing units [J] . Hohenstein Edward G., Luehr Nathan, Ufimtsev Ivan S., The Journal of Chemical Physics . 2015,第22期

机译：图形处理单元上基于完整活动空间自洽场方法的原子轨道表示
3. A direct-compatible formulation of the coupled perturbed complete active space self-consistent field equations on graphical processing units [J] . Snyder James W. Jr., Fales B. Scott, Hohenstein Edward G., The Journal of Chemical Physics . 2017,第17期

机译：图形处理单元上的耦合扰动的完整活动空间自洽的直接配方
4. Time-dependent complete active-space self-consistent field method for multielectron dynamics in intense laser fields [C] . Sato A.Takeshi, Ishikawa Kenichi L. Conference on Lasers and Electro-Optics Pacific Rim . 2013

机译：依赖时间的完全有源空间自洽场方法在强激光场中的多电子动力学
5. Graphical Processing Unit Acceleration and Development of Multireference Quantum Chemical Methods [D] . Fales, Bryan Scott. 2017

机译：图形处理单元加速度，多引导量子化学方法的加速度和开发
6. Calculation of Heats of Formation for Zn Complexes: Comparison of Density Functional Theory Second Order Perturbation Theory Coupled-Cluster and Complete Active Space Methods [O] . Michael N. Weaver, Kenneth M. Merz Jr., Dongxia Ma, -1

机译：锌配合物的形成热的计算：密度泛函理论二阶微扰理论耦合簇和完全有源空间方法的比较
7. Time-dependent complete-active-space self-consistent field method for multielectron dynamics in intense laser fields [O] . Sato, Takeshi, Ishikawa, Kenichi L. 2013

机译：时间依赖的完全活动空间自洽场方法强激光场中的多电子动力学

An atomic orbital-based formulation of the complete active space self-consistent field method on graphical processing units

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