The new generation of powerful DSM and SMP cluster computers enables simulations of fluid dynamics at sufficient resolution to compute the complex nonlinear interactions of small-scale turbulent motions with a large-scale driving flow. With a new programming model of hierarchical shared memory multitasking, it is possible to exploit these new systems without disrupting the flow of small and medium-sized jobs that makes their existence possible
Physics-based simulation, Computational Fluid Dynamics (CFD) in particular, has substantially reshap...
This paper describes several results of parallel and distributed computing using a large scale produ...
One or the key objectives of the Applied Research Branch in the Numerical Aerodynamic Simulation (NA...
In 1993, members of our team collaborated with Silicon Graphics to perform the first full-scale demo...
CFD or Computational Fluid Dynamics is one of the scientific disciplines that has always posed new c...
The parallel execution of an aerodynamic simulation code on a non-dedicated, heterogeneous cluster ...
In this paper we discuss and demonstrate the feasibility of solving high-fidelity, nonlinear computa...
Computational fluid dynamics (CFD) is the main field of computational mechanics that has historicall...
Recent developments at the NASA AMES Research Center's NAS Division have demonstrated that the new g...
Exascale HPC systems are just about to become available. Such enormous simulation capabilities from ...
Computational Fluid Dynamics (CFD) applications are highly demanding for parallel computing. Many su...
Linux clusters can provide a viable and more cost effective alternative to conventional supercompute...
This article reports on a parallel implementation of a general 3D multi-block CFD code. The parallel...
Motivated by a lack of sufficient local and national computing facilities for computational fluid d...
Computational fluid dynamics (CFD) is the main field of computational mechanics that has historicall...
Physics-based simulation, Computational Fluid Dynamics (CFD) in particular, has substantially reshap...
This paper describes several results of parallel and distributed computing using a large scale produ...
One or the key objectives of the Applied Research Branch in the Numerical Aerodynamic Simulation (NA...
In 1993, members of our team collaborated with Silicon Graphics to perform the first full-scale demo...
CFD or Computational Fluid Dynamics is one of the scientific disciplines that has always posed new c...
The parallel execution of an aerodynamic simulation code on a non-dedicated, heterogeneous cluster ...
In this paper we discuss and demonstrate the feasibility of solving high-fidelity, nonlinear computa...
Computational fluid dynamics (CFD) is the main field of computational mechanics that has historicall...
Recent developments at the NASA AMES Research Center's NAS Division have demonstrated that the new g...
Exascale HPC systems are just about to become available. Such enormous simulation capabilities from ...
Computational Fluid Dynamics (CFD) applications are highly demanding for parallel computing. Many su...
Linux clusters can provide a viable and more cost effective alternative to conventional supercompute...
This article reports on a parallel implementation of a general 3D multi-block CFD code. The parallel...
Motivated by a lack of sufficient local and national computing facilities for computational fluid d...
Computational fluid dynamics (CFD) is the main field of computational mechanics that has historicall...
Physics-based simulation, Computational Fluid Dynamics (CFD) in particular, has substantially reshap...
This paper describes several results of parallel and distributed computing using a large scale produ...
One or the key objectives of the Applied Research Branch in the Numerical Aerodynamic Simulation (NA...