Cholesky decomposition of the atomic two-electron integral matrix has recently been proposed as a procedure for automated generation of auxiliary basis sets for the density fitting approximation [F. Aquilante , J. Chem. Phys. 127, 114107 (2007)]. In order to increase computational performance while maintaining accuracy, we propose here to reduce the number of primitive Gaussian functions of the contracted auxiliary basis functions by means of a second Cholesky decomposition. Test calculations show that this procedure is most beneficial in conjunction with highly contracted atomic orbital basis sets such as atomic natural orbitals, and that the error resulting from the second decomposition is negligible. We also demonstrate theoretically as ...
We review recently developed methods to efficiently utilize the Cholesky decomposition technique in ...
We compute noncovalent intermolecular interaction energies for the S22 test set [Phys. Chem. Chem. P...
We propose a formalism for calculating analytic derivatives of the electronic energy with respect to...
Cholesky decomposition of the atomic two-electron integral matrix has recently been proposed as a pr...
sets for density fitting approximation with tunable accuracy and efficiency AQUILANTE, Francesco, et...
We propose Cholesky decomposition (CD) of the atomic two-electron integral matrix as a robust and ge...
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 accuracy of auxiliary basis sets derived by Cholesky decompositions of the electron repulsion in...
Recent years have witnessed a growing interest of the scientific community for the use of ab initio ...
We have recently discussed an algorithm to automatically generate auxiliary basis sets (ABSs) of the...
Auxiliary basis sets specifically matched to the correlation consistent cc- pVnZ-F12 and cc-pCVnZ-F1...
An algorithm for computing analytical gradients of the second-order MOller-Plesset (MP2) energy usin...
Density fitting (DF),[1–7] also known as resolution of the identity (RI), is used to reduce the com...
Auxiliary basis sets specifically matched to the correlation consistent cc-pV<i>n</i>Z-F12 and cc-pC...
We review recently developed methods to efficiently utilize the Cholesky decomposition technique in ...
We compute noncovalent intermolecular interaction energies for the S22 test set [Phys. Chem. Chem. P...
We propose a formalism for calculating analytic derivatives of the electronic energy with respect to...
Cholesky decomposition of the atomic two-electron integral matrix has recently been proposed as a pr...
sets for density fitting approximation with tunable accuracy and efficiency AQUILANTE, Francesco, et...
We propose Cholesky decomposition (CD) of the atomic two-electron integral matrix as a robust and ge...
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 accuracy of auxiliary basis sets derived by Cholesky decompositions of the electron repulsion in...
Recent years have witnessed a growing interest of the scientific community for the use of ab initio ...
We have recently discussed an algorithm to automatically generate auxiliary basis sets (ABSs) of the...
Auxiliary basis sets specifically matched to the correlation consistent cc- pVnZ-F12 and cc-pCVnZ-F1...
An algorithm for computing analytical gradients of the second-order MOller-Plesset (MP2) energy usin...
Density fitting (DF),[1–7] also known as resolution of the identity (RI), is used to reduce the com...
Auxiliary basis sets specifically matched to the correlation consistent cc-pV<i>n</i>Z-F12 and cc-pC...
We review recently developed methods to efficiently utilize the Cholesky decomposition technique in ...
We compute noncovalent intermolecular interaction energies for the S22 test set [Phys. Chem. Chem. P...
We propose a formalism for calculating analytic derivatives of the electronic energy with respect to...