We report a production level implementation of pair atomic resolution of the identity (PARI) based second-order Møller-Plesset perturbation theory (MP2) in the Slater type orbital (STO) based Amsterdam Density Functional (ADF) code. As demonstrated by systematic benchmarks, dimerization and isomerization energies obtained with our code using STO basis sets of triple-ζ-quality show mean absolute deviations from Gaussian type orbital, canonical, basis set limit extrapolated, global density fitting (DF)-MP2 results of less than 1 kcal/mol. Furthermore, we introduce a quadratic scaling atomic orbital based spin-opposite-scaled (SOS)-MP2 approach with a very small prefactor. Due to a worst-case scaling of [Formula: see text], our implementation ...
This chapter describes the graphics processing unit (GPU) acceleration of density functional theory ...
We demonstrate the use of dataflow technology in the computation of the correlation energy in molecu...
The “Swiss army knife” composite density functional electronic-structure method r2SCAN-3c (J. Chem. ...
An efficient new molecular orbital (MO) basis algorithm is reported implementing the pair atomic res...
ABSTRACT: An efficient new molecular orbital (MO) basis algorithm is reported implementing the pair ...
We have recently discussed an algorithm to automatically generate auxiliary basis sets (ABSs) of the...
We derive a low-scaling G0W0 algorithm for molecules using pair atomic density fitting (PADF) and an...
This thesis improves computational efficiency in two domains of quantum chemistry. Firstly, we impr...
On a comprehensive database with 1,644 datapoints, covering several aspects of main-group as well as...
Dynamic electron correlation methods are known to have a computational cost that scales with a high ...
The efficient implementation of electronic structure methods is essential for first principles model...
We report an implementation of extended symmetry-adapted perturbation theory (XSAPT) in the atomic o...
Building upon our previously published work [P. Pinski and F. Neese, J. Chem. Phys. 148, 031101 (201...
The practical utility of Møller-Plesset (MP) perturbation theory is severely constrained by the use ...
This work systematically assesses the influence of reference orbitals, regularization, and scaling o...
This chapter describes the graphics processing unit (GPU) acceleration of density functional theory ...
We demonstrate the use of dataflow technology in the computation of the correlation energy in molecu...
The “Swiss army knife” composite density functional electronic-structure method r2SCAN-3c (J. Chem. ...
An efficient new molecular orbital (MO) basis algorithm is reported implementing the pair atomic res...
ABSTRACT: An efficient new molecular orbital (MO) basis algorithm is reported implementing the pair ...
We have recently discussed an algorithm to automatically generate auxiliary basis sets (ABSs) of the...
We derive a low-scaling G0W0 algorithm for molecules using pair atomic density fitting (PADF) and an...
This thesis improves computational efficiency in two domains of quantum chemistry. Firstly, we impr...
On a comprehensive database with 1,644 datapoints, covering several aspects of main-group as well as...
Dynamic electron correlation methods are known to have a computational cost that scales with a high ...
The efficient implementation of electronic structure methods is essential for first principles model...
We report an implementation of extended symmetry-adapted perturbation theory (XSAPT) in the atomic o...
Building upon our previously published work [P. Pinski and F. Neese, J. Chem. Phys. 148, 031101 (201...
The practical utility of Møller-Plesset (MP) perturbation theory is severely constrained by the use ...
This work systematically assesses the influence of reference orbitals, regularization, and scaling o...
This chapter describes the graphics processing unit (GPU) acceleration of density functional theory ...
We demonstrate the use of dataflow technology in the computation of the correlation energy in molecu...
The “Swiss army knife” composite density functional electronic-structure method r2SCAN-3c (J. Chem. ...