Add to ORKGThe purpose of this study is to investigate the performance of the integral equation computations using numerical source field-panel method in a massively parallel processing (MPP) environment. A comparative study of computational performance of the MPP CM-5 computer and conventional Cray-YMP supercomputer for a three-dimensional flow problem is made. A serial FORTRAN code is converted into a parallel CM-FORTRAN code. Some performance results are obtained on CM-5 with 32, 62, 128 nodes along with those on Cray-YMP with a single processor. The comparison of the performance indicates that the parallel CM-FORTRAN code near or out-performs the equivalent serial FORTRAN code for some cases
AbstractA parallel implementation of the finite volume method for three-dimensional, time-dependent,...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77035/1/AIAA-1993-3179-911.pd
A finite element model is developed and used to simulate three-dimensional compressible fluid flow o...
The target of this work is to contribute to the enhancement of numerical methods for the simulation ...
Distributed-memory parallel computers dominate today's parallel computing arena. These machines, suc...
The development of multiprocessor simulations from a serial set of ordinary differential equations d...
An efficient unstructured 3D Euler solver is parallelized on a Thinking Machine Corporation Connecti...
The results of the implementation of a Navier-Stokes algorithm on three parallel/vector computers ar...
Experiments were conducted at NASA Ames Research Center to define multi-tasking software requirement...
This dissertation presents the results of the implementation of a number of numerical algorithms on ...
An explicit flow solver, applicable to the hierarchy of model equations ranging from Euler to full N...
We are surveying current projects in the area of parallel supercomputers. The machines considered he...
The results of an experiment are reported, i.c., to adapt a Navier-Stokes code, originally developed...
An explicit computational fluid dynamics (CFD) computer code with parallel processing capability has...
Phase I is complete for the development of a Computational Fluid Dynamics parallel code with automat...
AbstractA parallel implementation of the finite volume method for three-dimensional, time-dependent,...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77035/1/AIAA-1993-3179-911.pd
A finite element model is developed and used to simulate three-dimensional compressible fluid flow o...
The target of this work is to contribute to the enhancement of numerical methods for the simulation ...
Distributed-memory parallel computers dominate today's parallel computing arena. These machines, suc...
The development of multiprocessor simulations from a serial set of ordinary differential equations d...
An efficient unstructured 3D Euler solver is parallelized on a Thinking Machine Corporation Connecti...
The results of the implementation of a Navier-Stokes algorithm on three parallel/vector computers ar...
Experiments were conducted at NASA Ames Research Center to define multi-tasking software requirement...
This dissertation presents the results of the implementation of a number of numerical algorithms on ...
An explicit flow solver, applicable to the hierarchy of model equations ranging from Euler to full N...
We are surveying current projects in the area of parallel supercomputers. The machines considered he...
The results of an experiment are reported, i.c., to adapt a Navier-Stokes code, originally developed...
An explicit computational fluid dynamics (CFD) computer code with parallel processing capability has...
Phase I is complete for the development of a Computational Fluid Dynamics parallel code with automat...
AbstractA parallel implementation of the finite volume method for three-dimensional, time-dependent,...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77035/1/AIAA-1993-3179-911.pd
A finite element model is developed and used to simulate three-dimensional compressible fluid flow o...