Parallelization of high performance computing applications has been a field of active research for quite some time now. Most projects that have parallelized industrial software packages have focused on the specific application and did not attempt to document and generalize their lessons learned. We report on results of a project that has parallelized a state of the art industrial computational fluid dynamics (CFD) packages and that explicitly aimed at establishing software engineering guidelines for future similar projects. Thanks to the consequent application of the software engineering guidelines defined for the project, the parallel CFD code has proven excellent efficiency and scalability on a large number of parallel hardware platforms....
The parallel execution of an aerodynamic simulation code on a non-dedicated, heterogeneous cluster ...
This article reports on a parallel implementation of a general 3D multi-block CFD code. The parallel...
This work is aimed to exploit the computational capabilities of nowadays workstations by building al...
CFD or Computational Fluid Dynamics is one of the scientific disciplines that has always posed new c...
Methods for the parallelization of complex software systems in scientific computing have been develo...
. In this paper, we present an interdisciplinary research project whose central objective is to deve...
. Parallelizing TfC, a state-of-the-art industrial 3d CFD code for execution on both networks of wor...
this paper a parallelization strategy will be presented, which provides that abstraction level consi...
Computational fluid analysis requires huge amounts of computational resources. However, for the usua...
International audienceIn this paper, we present a global computer science approach to deal with para...
The present paper describes the development and the performance of parallel FEM software for solving...
Hydra is a full-scale industrial CFD application used for the design of turbomachinery at Rolls Royc...
One or the key objectives of the Applied Research Branch in the Numerical Aerodynamic Simulation (NA...
We discuss the hardware and software requirements that appear relevant for a set of industrial appli...
Hydra is a full-scale industrial CFD application used for the design of turbomachinery at Rolls Royc...
The parallel execution of an aerodynamic simulation code on a non-dedicated, heterogeneous cluster ...
This article reports on a parallel implementation of a general 3D multi-block CFD code. The parallel...
This work is aimed to exploit the computational capabilities of nowadays workstations by building al...
CFD or Computational Fluid Dynamics is one of the scientific disciplines that has always posed new c...
Methods for the parallelization of complex software systems in scientific computing have been develo...
. In this paper, we present an interdisciplinary research project whose central objective is to deve...
. Parallelizing TfC, a state-of-the-art industrial 3d CFD code for execution on both networks of wor...
this paper a parallelization strategy will be presented, which provides that abstraction level consi...
Computational fluid analysis requires huge amounts of computational resources. However, for the usua...
International audienceIn this paper, we present a global computer science approach to deal with para...
The present paper describes the development and the performance of parallel FEM software for solving...
Hydra is a full-scale industrial CFD application used for the design of turbomachinery at Rolls Royc...
One or the key objectives of the Applied Research Branch in the Numerical Aerodynamic Simulation (NA...
We discuss the hardware and software requirements that appear relevant for a set of industrial appli...
Hydra is a full-scale industrial CFD application used for the design of turbomachinery at Rolls Royc...
The parallel execution of an aerodynamic simulation code on a non-dedicated, heterogeneous cluster ...
This article reports on a parallel implementation of a general 3D multi-block CFD code. The parallel...
This work is aimed to exploit the computational capabilities of nowadays workstations by building al...