Abstract: Towards Highly Accurate Large-Scale Ab Initio Calculations Using Fragment Molecular Orbital Method in GAMESS

机译：摘要：利用Gamess中的片段分子轨道法对高度准确的大规模AB初始计算

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One of the major challenges of modern quantum chemistry (QC) is to apply it to large systems with thousands of correlated electrons and basis functions. The availability of supercomputers and development of novel methods are necessary to realize this challenge. In particular, we employ linear scaling Fragment Molecular Orbital (FMO) method which decompose the large system into smaller, localized fragments which can be treated with high-level QC method like MP2. FMO is inherently scalable since the individual fragment calculations can be carried out simultaneously on separate processor groups. It is implemented in GAMESS, a popular ab-initio QC program. We present the scalability and performance of FMO on Intrepid (Blue Gene/P) and Blue Gene/Q systems at ALCF.

机译：现代量子化学（QC）的主要挑战之一是将其应用于具有数千个相关电子和基本功能的大型系统。需要超级计算机的可用性和新颖方法的发展，以实现这一挑战。特别地，我们采用线性缩放片段分子轨道（FMO）方法，该方法将大系统分解成更小，局部的片段，其可以用高水平的QC方法如MP2处理。 FMO本质上可扩展，因为各个片段计算可以在单独的处理器组上同时进行。它是在游戏中实现的，流行的ab-initio qc程序。我们在ALCF的Intrepid（蓝色基因/ p）和蓝色基因/ Q系统上的缩放性和性能。

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《International Conference for High Performance Computing, Networking, Storage and Analysis》|2012年||共1页
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Mayes Maricris L.; Fletcher Graham D.; Gordon Mark S.;
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Abstract: Towards Highly Accurate Large-Scale Ab Initio Calculations Using Fragment Molecular Orbital Method in GAMESS

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