Accelerating Wave Function Convergence in Interactive Quantum Chemical Reactivity Studies.
Identifieur interne : 000302 ( Main/Merge ); précédent : 000301; suivant : 000303Accelerating Wave Function Convergence in Interactive Quantum Chemical Reactivity Studies.
Auteurs : Adrian H. Mühlbach [Suisse] ; Alain C. Vaucher [Suisse] ; Markus Reiher [Suisse]Source :
- Journal of chemical theory and computation [ 1549-9626 ] ; 2016.
Abstract
The inherently high computational cost of iterative self-consistent field (SCF) methods proves to be a critical issue delaying visual and haptic feedback in real-time quantum chemistry. In this work, we introduce two schemes for SCF acceleration. They provide a guess for the initial density matrix of the SCF procedure generated by extrapolation techniques. SCF optimizations then converge in fewer iterations, which decreases the execution time of the SCF optimization procedure. To benchmark the proposed propagation schemes, we developed a test bed for performing quantum chemical calculations on sequences of molecular structures mimicking real-time quantum chemical explorations. Explorations of a set of six model reactions employing the semi-empirical methods PM6 and DFTB3 in this testing environment showed that the proposed propagation schemes achieved speedups of up to 30% as a consequence of a reduced number of SCF iterations.
DOI: 10.1021/acs.jctc.5b01156
PubMed: 26788887
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<front><div type="abstract" xml:lang="en">The inherently high computational cost of iterative self-consistent field (SCF) methods proves to be a critical issue delaying visual and haptic feedback in real-time quantum chemistry. In this work, we introduce two schemes for SCF acceleration. They provide a guess for the initial density matrix of the SCF procedure generated by extrapolation techniques. SCF optimizations then converge in fewer iterations, which decreases the execution time of the SCF optimization procedure. To benchmark the proposed propagation schemes, we developed a test bed for performing quantum chemical calculations on sequences of molecular structures mimicking real-time quantum chemical explorations. Explorations of a set of six model reactions employing the semi-empirical methods PM6 and DFTB3 in this testing environment showed that the proposed propagation schemes achieved speedups of up to 30% as a consequence of a reduced number of SCF iterations.</div>
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