Add to ORKGNowadays, the efficient exploitation of high-performance computing resources is crucial to extend the applicability of first-principles theoretical methods to the description of large, progressively more realistic molecular and condensed matter systems. This can be achieved only by devising effective parallelization strategies for the most time-consuming steps of a calculation, which requires some effort given the usual complexity of quantum-mechanical algorithms, particularly so if parallelization is to be extended to all properties and not just to the basic functionalities of the code. In this Article, the performance and capabilities of the massively parallel version of the Crystal17 package for first-principles calculations on solids ar...
Following the development in recent years of progressively accurate approximations to the exchange-c...
ABSTRACT: Recent developments in density functional theory (DFT) methods applicable to studies of la...
We consider the role that large-scale electronic structure computations can now play in the modellin...
Nowadays, the efficient exploitation of high-performance computing resources is crucial to extend th...
Development of new materials needs better understanding of the behavior of materials at nanoscale wh...
In the past decade, developments of computational technology around density functional theory (DFT) ...
Simulations of materials from first-principles have improved drastically over the last decades, bene...
Simulations of materials from first principles have improved drastically over the last few decades, ...
CRYSTAL is a periodic ab initio code that uses a Gaussian-type basis set to express crystalline orbi...
The capabilities of the CRYSTAL14 program are presented, and the improvements made with respect to t...
The capabilities of the CRYSTAL14 program are presented, and the improvements made with respect to t...
The capabilities of the CRYSTAL14 program are presented, and the improvements made with respect to t...
We outline the main ideas underlying the CONQUEST code for first-principles modelling of sys-tems co...
A suite of scalable atomistic simulation programs has been developed for materials research based on...
Advances in high performance computing (HPC) have provided a way to treat large, computationally dem...
Following the development in recent years of progressively accurate approximations to the exchange-c...
ABSTRACT: Recent developments in density functional theory (DFT) methods applicable to studies of la...
We consider the role that large-scale electronic structure computations can now play in the modellin...
Nowadays, the efficient exploitation of high-performance computing resources is crucial to extend th...
Development of new materials needs better understanding of the behavior of materials at nanoscale wh...
In the past decade, developments of computational technology around density functional theory (DFT) ...
Simulations of materials from first-principles have improved drastically over the last decades, bene...
Simulations of materials from first principles have improved drastically over the last few decades, ...
CRYSTAL is a periodic ab initio code that uses a Gaussian-type basis set to express crystalline orbi...
The capabilities of the CRYSTAL14 program are presented, and the improvements made with respect to t...
The capabilities of the CRYSTAL14 program are presented, and the improvements made with respect to t...
The capabilities of the CRYSTAL14 program are presented, and the improvements made with respect to t...
We outline the main ideas underlying the CONQUEST code for first-principles modelling of sys-tems co...
A suite of scalable atomistic simulation programs has been developed for materials research based on...
Advances in high performance computing (HPC) have provided a way to treat large, computationally dem...
Following the development in recent years of progressively accurate approximations to the exchange-c...
ABSTRACT: Recent developments in density functional theory (DFT) methods applicable to studies of la...
We consider the role that large-scale electronic structure computations can now play in the modellin...