We extend our linear-scaling approach for the calculation of Hartree–Fock exchange energy using localized in situ optimized orbitals [Dziedzic et al., J. Chem. Phys. 139, 214103 (2013)] to leverage massive parallelism. Our approach has been implemented in the onetep (Order-N Electronic Total Energy Package) density functional theory framework, which employs a basis of non-orthogonal generalized Wannier functions (NGWFs) to achieve linear scaling with system size while retaining controllable near-complete-basis-set accuracy. For the calculation of Hartree–Fock exchange, we use a resolution-of-identity approach, where an auxiliary basis set of truncated spherical waves is used to fit products of NGWFs. The fact that the electrostatic potentia...
Simulations of materials from first-principles have improved drastically over the last decades, bene...
A new method for the multipole evaluation of contracted Cartesian Gaussian-based electron repulsion ...
International audienceDensity functional theory calculations are computationally extremely expensive...
We present ONETEP (order-N electronic total energy package), a density functional program for parall...
Exact exchange is a primordial ingredient in Kohn–Sham Density Functional Theory based Molecular Dyn...
ONETEP is an ab initio electronic structure package for total energy calculations within density-fun...
We present an overview of the ONETEP program for linear-scaling density functional theory (DFT) calc...
ONETEP is an ab initio electronic structure package for total energy calculations within density-fun...
We describe the algorithms we have developed for linear-scaling plane wave density functional calcul...
Kohn-Sham Density Functional Theory (DFT) provides a method for electronic structure calculations ap...
This paper provides a general overview of the methodology implemented in onetep (Order-N Electronic ...
An efficient new molecular orbital (MO) basis algorithm is reported implementing the pair atomic res...
Quantum mechanical simulation of realistic models of nanostructured systems, such as nanocrystals an...
ABSTRACT: An efficient new molecular orbital (MO) basis algorithm is reported implementing the pair ...
Simulations of materials from first principles have improved drastically over the last few decades, ...
Simulations of materials from first-principles have improved drastically over the last decades, bene...
A new method for the multipole evaluation of contracted Cartesian Gaussian-based electron repulsion ...
International audienceDensity functional theory calculations are computationally extremely expensive...
We present ONETEP (order-N electronic total energy package), a density functional program for parall...
Exact exchange is a primordial ingredient in Kohn–Sham Density Functional Theory based Molecular Dyn...
ONETEP is an ab initio electronic structure package for total energy calculations within density-fun...
We present an overview of the ONETEP program for linear-scaling density functional theory (DFT) calc...
ONETEP is an ab initio electronic structure package for total energy calculations within density-fun...
We describe the algorithms we have developed for linear-scaling plane wave density functional calcul...
Kohn-Sham Density Functional Theory (DFT) provides a method for electronic structure calculations ap...
This paper provides a general overview of the methodology implemented in onetep (Order-N Electronic ...
An efficient new molecular orbital (MO) basis algorithm is reported implementing the pair atomic res...
Quantum mechanical simulation of realistic models of nanostructured systems, such as nanocrystals an...
ABSTRACT: An efficient new molecular orbital (MO) basis algorithm is reported implementing the pair ...
Simulations of materials from first principles have improved drastically over the last few decades, ...
Simulations of materials from first-principles have improved drastically over the last decades, bene...
A new method for the multipole evaluation of contracted Cartesian Gaussian-based electron repulsion ...
International audienceDensity functional theory calculations are computationally extremely expensive...