We present an accurate, efficient and massively parallel finite-element code, DFT-FE, for large-scale ab-initio calculations (reaching ~100,000 electrons) using Kohn–Sham density functional theory (DFT). DFT-FE is based on a local real-space variational formulation of the Kohn–Sham DFT energy functional that is discretized using a higher-order adaptive spectral finite-element (FE) basis, and treats pseudopotential and all-electron calculations in the same framework, while accommodating non-periodic, semi-periodic and periodic boundary conditions. We discuss the main aspects of the code, which include, the various strategies of adaptive FE basis generation, and the different approaches employed in the numerical implementation of the solution...
We discuss recent developments in finite-element (FE) based methods for the solution of the Kohn-Sha...
We present an overview of the ONETEP program for linear-scaling density functional theory (DFT) calc...
Over the course of the past two decades, quantum mechanical calculations have emerged as a key compo...
We present DFT-FE 1.0, building on DFT-FE 0.6 [Comput. Phys. Commun. 246, 106853 (2020)], to conduct...
A computationally efficient approach to perform systematically convergent real-space all-electron Ko...
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...
We present a real-space, non-periodic, finite-element formulation for Kohn–Sham density functional t...
Two factors limit our ability to accurately describe the properties of materials: (1) the ability ch...
First-principles electronic structure calculations are a popular tool for understanding and predicti...
Large-scale density functional theory (DFT) calculations provide a powerful tool to investigate the...
Over the course of the past few decades, quantum mechanical calculations based on Kohn-Sham density ...
Calculations involving the electronic structure of matter provides valuable insight in understanding...
Density functional theory (DFT) has become a standard tool for ab-initio simulations for a wide rang...
Recently, we have proposed the adaptive local basis set for electronic structure calculations based ...
We discuss recent developments in finite-element (FE) based methods for the solution of the Kohn-Sha...
We present an overview of the ONETEP program for linear-scaling density functional theory (DFT) calc...
Over the course of the past two decades, quantum mechanical calculations have emerged as a key compo...
We present DFT-FE 1.0, building on DFT-FE 0.6 [Comput. Phys. Commun. 246, 106853 (2020)], to conduct...
A computationally efficient approach to perform systematically convergent real-space all-electron Ko...
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...
We present a real-space, non-periodic, finite-element formulation for Kohn–Sham density functional t...
Two factors limit our ability to accurately describe the properties of materials: (1) the ability ch...
First-principles electronic structure calculations are a popular tool for understanding and predicti...
Large-scale density functional theory (DFT) calculations provide a powerful tool to investigate the...
Over the course of the past few decades, quantum mechanical calculations based on Kohn-Sham density ...
Calculations involving the electronic structure of matter provides valuable insight in understanding...
Density functional theory (DFT) has become a standard tool for ab-initio simulations for a wide rang...
Recently, we have proposed the adaptive local basis set for electronic structure calculations based ...
We discuss recent developments in finite-element (FE) based methods for the solution of the Kohn-Sha...
We present an overview of the ONETEP program for linear-scaling density functional theory (DFT) calc...
Over the course of the past two decades, quantum mechanical calculations have emerged as a key compo...