The small numerical rank of the two-electron integral matrix for large molecular systems and large basis sets was demonstrated. Though, the current implementation still requires some improvements on the calculations done in the inner most loop of the decomposition do not exploit the parsity in the Cholesky vectors. With respect to the practical applicability of the presented method an efficient approach to geometrical derivatives was imperative. Such an approach was obtained including certain derivative product functions and decomposing an expanded integral matrix
Cholesky decomposition of the atomic two-electron integral matrix has recently been proposed as a pr...
We propose Cholesky decomposition (CD) of the atomic two-electron integral matrix as a robust and ge...
A significant reduction in the computational effort for the evaluation of the electronic repulsion i...
The small numerical rank of the two-electron integral matrix for large molecular systems and large b...
Recent years have witnessed a growing interest of the scientific community for the use of ab initio ...
We review recently developed methods to efficiently utilize the Cholesky decomposition technique in ...
Approximating the electron repulsion integrals using inner projections is a well-established approac...
We propose a formalism for calculating analytic derivatives of the electronic energy with respect to...
Recent progress in the use of Cholesky decomposition techniques within the density fitting approxima...
The density-fitting technique for approximating electron-repulsion integrals relies on the quality o...
The resolution-of-the-identity (RI) or density fitting (DF) approximation for the electron repulsion...
Decomposing the Hartree-Fock one-electron density matrix and a virtual pseudodensity matrix, we obta...
We present a novel approach to the calculation of the Coulomb and exchange contributions to the tota...
We present a novel approach to the calculation of the Coulomb and exchange contributions to the tota...
CASSCF calculations are often performed in order to get a qualitatively correct description of multi...
Cholesky decomposition of the atomic two-electron integral matrix has recently been proposed as a pr...
We propose Cholesky decomposition (CD) of the atomic two-electron integral matrix as a robust and ge...
A significant reduction in the computational effort for the evaluation of the electronic repulsion i...
The small numerical rank of the two-electron integral matrix for large molecular systems and large b...
Recent years have witnessed a growing interest of the scientific community for the use of ab initio ...
We review recently developed methods to efficiently utilize the Cholesky decomposition technique in ...
Approximating the electron repulsion integrals using inner projections is a well-established approac...
We propose a formalism for calculating analytic derivatives of the electronic energy with respect to...
Recent progress in the use of Cholesky decomposition techniques within the density fitting approxima...
The density-fitting technique for approximating electron-repulsion integrals relies on the quality o...
The resolution-of-the-identity (RI) or density fitting (DF) approximation for the electron repulsion...
Decomposing the Hartree-Fock one-electron density matrix and a virtual pseudodensity matrix, we obta...
We present a novel approach to the calculation of the Coulomb and exchange contributions to the tota...
We present a novel approach to the calculation of the Coulomb and exchange contributions to the tota...
CASSCF calculations are often performed in order to get a qualitatively correct description of multi...
Cholesky decomposition of the atomic two-electron integral matrix has recently been proposed as a pr...
We propose Cholesky decomposition (CD) of the atomic two-electron integral matrix as a robust and ge...
A significant reduction in the computational effort for the evaluation of the electronic repulsion i...