Issue 21, 2012

Extended implementation of canonical transformation theory: parallelization and a new level-shifted condition

Abstract

The canonical transformation (CT) theory has been developed as a multireference electronic structure method to compute high-level dynamic correlation on top of a large active space reference treated with the ab initio density matrix renormalization group method. This article describes a parallelized algorithm and implementation of the CT theory to handle large computational demands of the CT calculation, which has the same scaling as the coupled cluster singles and doubles theory. To stabilize the iterative solution of the CT method, a modification to the CT amplitude equation is introduced with the inclusion of a level shift parameter. The level-shifted condition has been found to effectively remove a type of intruder state that arises in the linear equations of CT and to address the discontinuity problems in the potential energy curves observed in the previous CT studies.

Graphical abstract: Extended implementation of canonical transformation theory: parallelization and a new level-shifted condition

Article information

Article type
Paper
Submitted
28 Nov 2011
Accepted
16 Apr 2012
First published
10 May 2012

Phys. Chem. Chem. Phys., 2012,14, 7809-7820

Extended implementation of canonical transformation theory: parallelization and a new level-shifted condition

T. Yanai, Y. Kurashige, E. Neuscamman and G. K. Chan, Phys. Chem. Chem. Phys., 2012, 14, 7809 DOI: 10.1039/C2CP23767A

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