Using Cholesky decomposition and density fitting to approximate the electron repulsion integrals, an implementation of the complete active space self-consistent field (CASSCF) method suitable for large-scale applications is presented. Sample calculations on benzene, diaquo-tetra- μ -acetato-dicopper(II), and diuraniumendofullerene demonstrate that the Cholesky and density fitting approximations allow larger basis sets and larger systems to be treated at the CASSCF level of theory with controllable accuracy. While strict error control is an inherent property of the Cholesky approximation, errors arising from the density fitting approach are managed by using a recently proposed class of auxiliary basis sets constructed from Cholesky decompos...
Cholesky decomposition of the atomic two-electron integral matrix has recently been proposed as a pr...
Cholesky decomposition of the atomic two-electron integral matrix has recently been proposed as a pr...
An algorithm that accelerates the convergence of the iterative optimization of the complete active s...
Using Cholesky decomposition and density fitting to approximate the electron repulsion integrals, an...
Using Cholesky decomposition and density fitting to approximate the electron repulsion integrals, an...
In this contribution, we present the implementation of a second-order complete active space-self-con...
The accuracy of auxiliary basis sets derived by Cholesky decompositions of the electron repulsion in...
A large-scale implementation of the complete active space self-consistent field (CASSCF) method is p...
Recent years have witnessed a growing interest of the scientific community for the use of ab initio ...
A2. Electronic Structure Methods and Their Applications: no. A2-16 (invited)CASSCF (Complete Active ...
sets for density fitting approximation with tunable accuracy and efficiency AQUILANTE, Francesco, et...
The density-fitting technique for approximating electron-repulsion integrals relies on the quality o...
The complete active space self-consistent field (CASSCF) method is the principal approach employed f...
Complete active space self-consistent field (CASSCF) methods are enormously important in quantum che...
We propose Cholesky decomposition (CD) of the atomic two-electron integral matrix as a robust and ge...
Cholesky decomposition of the atomic two-electron integral matrix has recently been proposed as a pr...
Cholesky decomposition of the atomic two-electron integral matrix has recently been proposed as a pr...
An algorithm that accelerates the convergence of the iterative optimization of the complete active s...
Using Cholesky decomposition and density fitting to approximate the electron repulsion integrals, an...
Using Cholesky decomposition and density fitting to approximate the electron repulsion integrals, an...
In this contribution, we present the implementation of a second-order complete active space-self-con...
The accuracy of auxiliary basis sets derived by Cholesky decompositions of the electron repulsion in...
A large-scale implementation of the complete active space self-consistent field (CASSCF) method is p...
Recent years have witnessed a growing interest of the scientific community for the use of ab initio ...
A2. Electronic Structure Methods and Their Applications: no. A2-16 (invited)CASSCF (Complete Active ...
sets for density fitting approximation with tunable accuracy and efficiency AQUILANTE, Francesco, et...
The density-fitting technique for approximating electron-repulsion integrals relies on the quality o...
The complete active space self-consistent field (CASSCF) method is the principal approach employed f...
Complete active space self-consistent field (CASSCF) methods are enormously important in quantum che...
We propose Cholesky decomposition (CD) of the atomic two-electron integral matrix as a robust and ge...
Cholesky decomposition of the atomic two-electron integral matrix has recently been proposed as a pr...
Cholesky decomposition of the atomic two-electron integral matrix has recently been proposed as a pr...
An algorithm that accelerates the convergence of the iterative optimization of the complete active s...