AbstractFor many years ab initio electronic structure calculations based upon density functional theory have been one of the main application areas in high performance computing (HPC). Typically, the Kohn–Sham equations are solved by minimisation of the total energy functional, using a plane wave basis set for valence electrons and pseudopotentials to obviate the representation of core states. One of the best known and widely used software for performing this type of calculation is the Vienna Ab initio Simulation Package, VASP, which currently offers a parallelisation strategy based on the distribution of bands and plane wave coefficients over the machine processors. We report here an improved parallelisation strategy that also distributes ...
Density function theory (DFT) is the most widely employed electronic structure method because of its...
We have developed a highly efficient and scalable electronic structure code for parallel computers ...
We describe a scheme for efficient large-scale electronic-structure calculations based on the combin...
For many years ab initio electronic structure calculations based upon density functional theory have...
Simulations of materials from first principles have improved drastically over the last few decades, ...
International audienceWe present a way to improve the performance of the electronic structure Vienna...
Simulations of materials from first-principles have improved drastically over the last decades, bene...
International audienceWe present a way to improve the performance of the electronic structure Vienna...
First-principles electronic structure calculations are a popular tool for understanding and predicti...
We present ONETEP (order-N electronic total energy package), a density functional program for parall...
Abstract: Many systems of great importance in material science, chemistry, solid-state physics, and ...
We consider the role that large-scale electronic structure computations can now play in the modellin...
Development of new materials needs better understanding of the behavior of materials at nanoscale wh...
General purpose graphical processing units (GPUʼs) offer high processing speeds for certain classes ...
The interest in theoretical investigations of macromolecular structures in chemistry with quantum me...
Density function theory (DFT) is the most widely employed electronic structure method because of its...
We have developed a highly efficient and scalable electronic structure code for parallel computers ...
We describe a scheme for efficient large-scale electronic-structure calculations based on the combin...
For many years ab initio electronic structure calculations based upon density functional theory have...
Simulations of materials from first principles have improved drastically over the last few decades, ...
International audienceWe present a way to improve the performance of the electronic structure Vienna...
Simulations of materials from first-principles have improved drastically over the last decades, bene...
International audienceWe present a way to improve the performance of the electronic structure Vienna...
First-principles electronic structure calculations are a popular tool for understanding and predicti...
We present ONETEP (order-N electronic total energy package), a density functional program for parall...
Abstract: Many systems of great importance in material science, chemistry, solid-state physics, and ...
We consider the role that large-scale electronic structure computations can now play in the modellin...
Development of new materials needs better understanding of the behavior of materials at nanoscale wh...
General purpose graphical processing units (GPUʼs) offer high processing speeds for certain classes ...
The interest in theoretical investigations of macromolecular structures in chemistry with quantum me...
Density function theory (DFT) is the most widely employed electronic structure method because of its...
We have developed a highly efficient and scalable electronic structure code for parallel computers ...
We describe a scheme for efficient large-scale electronic-structure calculations based on the combin...