We push the boundaries of electronic structure-based ab-initio molecular dynamics (AIMD) beyond 100 million atoms. This scale is otherwise barely reachable with classical force-field methods or novel neural network and machine learning potentials. We achieve this breakthrough by combining innovations in linear-scaling AIMD, efficient and approximate sparse linear algebra, low and mixed-precision floating-point computation on GPUs, and a compensation scheme for the errors introduced by numerical approximations. The core of our work is the non-orthogonalized local submatrix method (NOLSM), which scales very favorably to massively parallel computing systems and translates large sparse matrix operations into highly parallel, dense matrix operat...
Abstract: Many systems of great importance in material science, chemistry, solid-state physics, and ...
Significant improvements are presented for the molecular dynamics code ls1 mardyn — a linked cell-ba...
Abstract: Molecular mechanics simulations offer a computational approach to study the behavior of bi...
We push the boundaries of electronic structure-based ab-initio molecular dynamics (AIMD) beyond 100 ...
We push the boundaries of electronic structure-based \textit{ab-initio} molecular dynamics (AIMD) be...
We present the GPU version of DeePMD-kit, which, upon training a deep neural network model using ab ...
The recent progress of linear-scaling or O(N) methods in density functional theory (DFT) is remarkab...
The non-orthogonal local submatrix method applied to electronic-structure based molecular dynamics s...
Molecular dynamics (MD) simulations employing classical force fields constitute the cornerstone of c...
We present a new linear scaling ab initio total energy electronic structure calculation method based...
We show teraflop performance of the fully featured ab initio molecular dynamics code CPMD on an IBM ...
We present a new linearly scaling three-dimensional fragment (LS3DF) method for large scale ab initi...
We present a new linearly scaling three-dimensional fragment (LS3DF) method for large scale ab initi...
AbstractWe describe a complete set of algorithms for ab initio molecular simulations based on numeri...
We present an implementation of EAM and FS interatomic potentials, which are widely used in simulati...
Abstract: Many systems of great importance in material science, chemistry, solid-state physics, and ...
Significant improvements are presented for the molecular dynamics code ls1 mardyn — a linked cell-ba...
Abstract: Molecular mechanics simulations offer a computational approach to study the behavior of bi...
We push the boundaries of electronic structure-based ab-initio molecular dynamics (AIMD) beyond 100 ...
We push the boundaries of electronic structure-based \textit{ab-initio} molecular dynamics (AIMD) be...
We present the GPU version of DeePMD-kit, which, upon training a deep neural network model using ab ...
The recent progress of linear-scaling or O(N) methods in density functional theory (DFT) is remarkab...
The non-orthogonal local submatrix method applied to electronic-structure based molecular dynamics s...
Molecular dynamics (MD) simulations employing classical force fields constitute the cornerstone of c...
We present a new linear scaling ab initio total energy electronic structure calculation method based...
We show teraflop performance of the fully featured ab initio molecular dynamics code CPMD on an IBM ...
We present a new linearly scaling three-dimensional fragment (LS3DF) method for large scale ab initi...
We present a new linearly scaling three-dimensional fragment (LS3DF) method for large scale ab initi...
AbstractWe describe a complete set of algorithms for ab initio molecular simulations based on numeri...
We present an implementation of EAM and FS interatomic potentials, which are widely used in simulati...
Abstract: Many systems of great importance in material science, chemistry, solid-state physics, and ...
Significant improvements are presented for the molecular dynamics code ls1 mardyn — a linked cell-ba...
Abstract: Molecular mechanics simulations offer a computational approach to study the behavior of bi...