Add to ORKGMany modern scientific applications rely on highly parallel calculations, which scale to 10's of thousands processors. However, most applications do not concentrate on parallelizing input/output operations. In particular, sequential I/O has been identified as a bottleneck for the highly scalable MFDn (Many Fermion Dynamics for nuclear structure) code performing ab initio nuclear structure calculations. In this paper, we develop interfaces and parallel I/O procedures to use a well-known parallel I/O library in MFDn. As a result, we gain efficient input/output of large datasets along with their portability and ease of use in the downstream processing
The calculation of the electronic bands in solids can in principle easily be parallelised: the calcu...
Scientific applications are increasingly being implemented on massively parallel supercomputers. Man...
We outline a plan to develop portable parallel I/O facilities for scientific applications on paralle...
Many modern scientific applications rely on highly computation intensive calculations. However, most...
Many modern scientific applications rely on highly computation intensive calculations. However, most...
The solution of Grand Challenge Problems will require computations that are too large to fit in the ...
AbstractWe discuss the scaling behavior of a state-of-the-art Configuration Interaction code for nuc...
Recent developments in I/O systems on scalable parallel computers have sparked renewed interest in o...
One of the emerging computational approaches in nuclear physics is the full configuration interactio...
Numerical simulations conducted on current high-performance computing (HPC) systems face an ever gro...
Optimization techniques are finding their inroads into the field of nuclear physics calculations whe...
This two half-days course will be about parallel I/O with a special focus on portable data formats. ...
High performance scientific applications are frequently multiphysics codes composed from single-phys...
This paper describes some applications of GPU acceleration in ab initio nu-clear structure calculati...
This study has focused on an application for Quantum Hall Transport simulations and more specificall...
The calculation of the electronic bands in solids can in principle easily be parallelised: the calcu...
Scientific applications are increasingly being implemented on massively parallel supercomputers. Man...
We outline a plan to develop portable parallel I/O facilities for scientific applications on paralle...
Many modern scientific applications rely on highly computation intensive calculations. However, most...
Many modern scientific applications rely on highly computation intensive calculations. However, most...
The solution of Grand Challenge Problems will require computations that are too large to fit in the ...
AbstractWe discuss the scaling behavior of a state-of-the-art Configuration Interaction code for nuc...
Recent developments in I/O systems on scalable parallel computers have sparked renewed interest in o...
One of the emerging computational approaches in nuclear physics is the full configuration interactio...
Numerical simulations conducted on current high-performance computing (HPC) systems face an ever gro...
Optimization techniques are finding their inroads into the field of nuclear physics calculations whe...
This two half-days course will be about parallel I/O with a special focus on portable data formats. ...
High performance scientific applications are frequently multiphysics codes composed from single-phys...
This paper describes some applications of GPU acceleration in ab initio nu-clear structure calculati...
This study has focused on an application for Quantum Hall Transport simulations and more specificall...
The calculation of the electronic bands in solids can in principle easily be parallelised: the calcu...
Scientific applications are increasingly being implemented on massively parallel supercomputers. Man...
We outline a plan to develop portable parallel I/O facilities for scientific applications on paralle...