AbstractAn extreme form of pipelining of the Piecewise-Parabolic Method (PPM) gas dynamics code has been used to dramatically increase its performance on the new generation of multicore CPUs. Exploiting this technique, together with a full integration of the several data post-processing and visualization utilities associated with this code has enabled numerical experiments in computational fluid dynamics to be performed interactively on a new, dedicated system in our lab, with immediate, user controlled visualization of the resulting flows on the PowerWall display. The code restructuring required to achieve the necessary CPU performance boost, as well as the parallel computing methods and systems used to enable interactive flow simulation a...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...
We describe a system for interactive visualization and tracking of a 3-D unsteady computational flui...
Distributed-memory parallel computers dominate today's parallel computing arena. These machines, suc...
AbstractAn extreme form of pipelining of the Piecewise-Parabolic Method (PPM) gas dynamics code has ...
AbstractThe past decade has produced numerous CPU architectural innovations. These have included mul...
Computational fluid dynamics (CFD) is the main field of computational mechanics that has historicall...
The current computing environment that most researchers are using for the calculation of 3D unsteady...
In situ visualization on high-performance computing systems allows us to analyze simulation results ...
Graphics processor units (GPU) that are traditionally designed for graphics rendering have emerged a...
Very little use is made of multiple processors available on current supercomputers (computers with a...
An explicit computational fluid dynamics (CFD) computer code with parallel processing capability has...
Personal computers of the past were limited to running computational fluid dynamics codes in serial ...
The simulation of fluid flow on rectangular grids using a discretized version of the Navier Stokes E...
We introduce algorithmic advancements designed to expedite simulations in OpenFOAM using GPUs. These...
This paper presents a number of optimisations for improving the performance of unstructured computat...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...
We describe a system for interactive visualization and tracking of a 3-D unsteady computational flui...
Distributed-memory parallel computers dominate today's parallel computing arena. These machines, suc...
AbstractAn extreme form of pipelining of the Piecewise-Parabolic Method (PPM) gas dynamics code has ...
AbstractThe past decade has produced numerous CPU architectural innovations. These have included mul...
Computational fluid dynamics (CFD) is the main field of computational mechanics that has historicall...
The current computing environment that most researchers are using for the calculation of 3D unsteady...
In situ visualization on high-performance computing systems allows us to analyze simulation results ...
Graphics processor units (GPU) that are traditionally designed for graphics rendering have emerged a...
Very little use is made of multiple processors available on current supercomputers (computers with a...
An explicit computational fluid dynamics (CFD) computer code with parallel processing capability has...
Personal computers of the past were limited to running computational fluid dynamics codes in serial ...
The simulation of fluid flow on rectangular grids using a discretized version of the Navier Stokes E...
We introduce algorithmic advancements designed to expedite simulations in OpenFOAM using GPUs. These...
This paper presents a number of optimisations for improving the performance of unstructured computat...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...
We describe a system for interactive visualization and tracking of a 3-D unsteady computational flui...
Distributed-memory parallel computers dominate today's parallel computing arena. These machines, suc...