This paper provides a general overview of the methodology implemented in onetep (Order-N Electronic Total Energy Package), a parallel density-functional theory code for large scale first-principles quantum-mechanical calculations. The distinctive features of onetep are linear-scaling in both computational effort and resources, obtained by making well-controlled approximations which enable simulations to be performed with plane-wave accuracy. Titanium dioxide clusters of increasing size designed to mimic surfaces are studied to demonstrate the accuracy and scaling of onetep
Kohn-Sham Density Functional Theory (DFT) provides a method for electronic structure calculations ap...
Advances in computational methods in recent decades have significantly expanded the range of problem...
We extend our linear-scaling approach for the calculation of Hartree–Fock exchange energy using loca...
Conventional methods for atomistic simulations based on density-functional theory (DFT), such as the...
An overview of the ONETEP (Order-N Electronic Total Energy Package) code is presented, focusing on t...
ONETEP is an ab initio electronic structure package for total energy calculations within density-fun...
ONETEP is an ab initio electronic structure package for total energy calculations within density-fun...
We present ONETEP (order-N electronic total energy package), a density functional program for parall...
We present an overview of the ONETEP program for linear-scaling density functional theory (DFT) calc...
We present a detailed comparison between ONETEP, our linear-scaling density functional method, and t...
Quantum mechanical simulation of realistic models of nanostructured systems, such as nanocrystals an...
Linear-scaling methods for density functional theory promise to revolutionize the scope and scale of...
We describe the algorithms we have developed for linear-scaling plane wave density functional calcul...
ONETEP is a linear scaling code for performing first-principles total energy calculations within den...
While density functional theory (DFT) allows accurate quantum mechanical simulations from first prin...
Kohn-Sham Density Functional Theory (DFT) provides a method for electronic structure calculations ap...
Advances in computational methods in recent decades have significantly expanded the range of problem...
We extend our linear-scaling approach for the calculation of Hartree–Fock exchange energy using loca...
Conventional methods for atomistic simulations based on density-functional theory (DFT), such as the...
An overview of the ONETEP (Order-N Electronic Total Energy Package) code is presented, focusing on t...
ONETEP is an ab initio electronic structure package for total energy calculations within density-fun...
ONETEP is an ab initio electronic structure package for total energy calculations within density-fun...
We present ONETEP (order-N electronic total energy package), a density functional program for parall...
We present an overview of the ONETEP program for linear-scaling density functional theory (DFT) calc...
We present a detailed comparison between ONETEP, our linear-scaling density functional method, and t...
Quantum mechanical simulation of realistic models of nanostructured systems, such as nanocrystals an...
Linear-scaling methods for density functional theory promise to revolutionize the scope and scale of...
We describe the algorithms we have developed for linear-scaling plane wave density functional calcul...
ONETEP is a linear scaling code for performing first-principles total energy calculations within den...
While density functional theory (DFT) allows accurate quantum mechanical simulations from first prin...
Kohn-Sham Density Functional Theory (DFT) provides a method for electronic structure calculations ap...
Advances in computational methods in recent decades have significantly expanded the range of problem...
We extend our linear-scaling approach for the calculation of Hartree–Fock exchange energy using loca...