Open AccessLarge-Scale MP2 Calculations on the Blue Gene Architecture Using the Fragment Molecular Orbital Method
Author(s) -
Graham D. Fletcher,
Dmitri G. Fedorov,
Spencer R. Pruitt,
Theresa L. Windus,
Mark S. Gordon
Publication year - 2011
Publication title -
journal of chemical theory and computation
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.001
H-Index - 185
eISSN - 1549-9626
pISSN - 1549-9618
DOI - 10.1021/ct200548v
Subject(s) - fragment molecular orbital , fragment (logic) , computation , benchmark (surveying) , basis (linear algebra) , computer science , basis set , set (abstract data type) , molecular orbital , perturbation theory (quantum mechanics) , architecture , perturbation (astronomy) , algorithm , biological system , molecule , physics , biology , mathematics , quantum mechanics , geometry , art , geodesy , visual arts , programming language , geography
Benchmark timings are presented for the fragment molecular orbital method on a Blue Gene/P computer. Algorithmic modifications that lead to enhanced performance on the Blue Gene/P architecture include strategies for the storage of fragment density matrices by process subgroups in the global address space. The computation of the atomic forces for a system with more than 3000 atoms and 44 000 basis functions, using second order perturbation theory and an augmented and polarized double-ζ basis set, takes ∼7 min on 131 072 cores.
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