The performance of a loosely and tightly-coupled workstation cluster is compared against a conventional vector supercomputer for the solution the Reynolds- averaged Navier-Stokes equations. The application geometries include a transonic airfoil, a tiltrotor wing/fuselage, and a wing/body/empennage/nacelle transport. Decomposition is of the manager-worker type, with solution of one grid zone per worker process coupled using the PVM message passing library. Task allocation is determined by grid size and processor speed, subject to available memory penalties. Each fluid zone is computed using an implicit diagonal scheme in an overset mesh framework, while relative body motion is accomplished using an additional worker process to re-establish g...
The current computing environment that most researchers are using for the calculation of 3D unsteady...
A new parallel numerical scheme for solving incompressible steady-state flows is presented. The algo...
This progress report describes research performed to achieve algorithmic improvements in the use of ...
This grant provided for the demonstration of coupled controls, body dynamics, and fluids computation...
Phase I is complete for the development of a Computational Fluid Dynamics parallel code with automat...
An explicit flow solver, applicable to the hierarchy of model equations ranging from Euler to full N...
Analysis of modern aerospace vehicles requires the computation of flowfields about complex three dim...
We study the computational, communication, and scalability characteristics of a Computational Fluid ...
This paper describes several results of parallel and distributed computing using a large scale produ...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76255/1/AIAA-1989-1940-323.pd
This report describes a concurrent Euler flow solver for flows around complex 3-D bodies. The solver...
The results of an experiment are reported, i.c., to adapt a Navier-Stokes code, originally developed...
Very little use is made of multiple processors available on current supercomputers (computers with a...
We study the computational, communication, and scalability characteristics of a Computational Fluid ...
Improving the numerical linear algebra routines for use in new Navier-Stokes codes, specifically Tim...
The current computing environment that most researchers are using for the calculation of 3D unsteady...
A new parallel numerical scheme for solving incompressible steady-state flows is presented. The algo...
This progress report describes research performed to achieve algorithmic improvements in the use of ...
This grant provided for the demonstration of coupled controls, body dynamics, and fluids computation...
Phase I is complete for the development of a Computational Fluid Dynamics parallel code with automat...
An explicit flow solver, applicable to the hierarchy of model equations ranging from Euler to full N...
Analysis of modern aerospace vehicles requires the computation of flowfields about complex three dim...
We study the computational, communication, and scalability characteristics of a Computational Fluid ...
This paper describes several results of parallel and distributed computing using a large scale produ...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/76255/1/AIAA-1989-1940-323.pd
This report describes a concurrent Euler flow solver for flows around complex 3-D bodies. The solver...
The results of an experiment are reported, i.c., to adapt a Navier-Stokes code, originally developed...
Very little use is made of multiple processors available on current supercomputers (computers with a...
We study the computational, communication, and scalability characteristics of a Computational Fluid ...
Improving the numerical linear algebra routines for use in new Navier-Stokes codes, specifically Tim...
The current computing environment that most researchers are using for the calculation of 3D unsteady...
A new parallel numerical scheme for solving incompressible steady-state flows is presented. The algo...
This progress report describes research performed to achieve algorithmic improvements in the use of ...