Parallel computation of unsteady flows requires significant computational resources. The utilization of a network of workstations seems an efficient solution to the problem where large problems can be treated at a reasonable cost. This approach requires the solution of several problems: 1) the partitioning and distribution of the problem over a network of workstation, 2) efficient communication tools, 3) managing the system efficiently for a given problem. Of course, there is the question of the efficiency of any given numerical algorithm to such a computing system. NPARC code was chosen as a sample for the application. For the explicit version of the NPARC code both two- and three-dimensional problems were studied. Again both steady and un...
The development of multiprocessor simulations from a serial set of ordinary differential equations d...
A versatile and efficient multi-block method is presented for the simulation of both steady and unst...
This paper discusses the implementation of a numerical algorithm for simulating incompressible fluid...
Version 3 of the NPARC Navier-Stokes code includes support for large-grain (block level) parallelism...
The parallel execution of an aerodynamic simulation code on a non-dedicated, heterogeneous cluster ...
A new parallel numerical scheme for solving incompressible steady-state flows is presented. The algo...
The purpose of this project has been to identify and test suitable technologies for implementation o...
Phase 1 is complete for the development of a computational fluid dynamics CFD) parallel code with au...
We study the computational, communication, and scalability characteristics of a Computational Fluid ...
An explicit flow solver, applicable to the hierarchy of model equations ranging from Euler to full N...
We study the computational, communication, and scalability characteristics of a computational fluid ...
The current computing environment that most researchers are using for the calculation of 3D unsteady...
The results of the implementation of a Navier-Stokes algorithm on three parallel/vector computers ar...
The NASA Lewis Research Center is actively involved in the development of expert system technology t...
Some existing parallel N-S codes, including both explicit and implicit algorithms, have been ported ...
The development of multiprocessor simulations from a serial set of ordinary differential equations d...
A versatile and efficient multi-block method is presented for the simulation of both steady and unst...
This paper discusses the implementation of a numerical algorithm for simulating incompressible fluid...
Version 3 of the NPARC Navier-Stokes code includes support for large-grain (block level) parallelism...
The parallel execution of an aerodynamic simulation code on a non-dedicated, heterogeneous cluster ...
A new parallel numerical scheme for solving incompressible steady-state flows is presented. The algo...
The purpose of this project has been to identify and test suitable technologies for implementation o...
Phase 1 is complete for the development of a computational fluid dynamics CFD) parallel code with au...
We study the computational, communication, and scalability characteristics of a Computational Fluid ...
An explicit flow solver, applicable to the hierarchy of model equations ranging from Euler to full N...
We study the computational, communication, and scalability characteristics of a computational fluid ...
The current computing environment that most researchers are using for the calculation of 3D unsteady...
The results of the implementation of a Navier-Stokes algorithm on three parallel/vector computers ar...
The NASA Lewis Research Center is actively involved in the development of expert system technology t...
Some existing parallel N-S codes, including both explicit and implicit algorithms, have been ported ...
The development of multiprocessor simulations from a serial set of ordinary differential equations d...
A versatile and efficient multi-block method is presented for the simulation of both steady and unst...
This paper discusses the implementation of a numerical algorithm for simulating incompressible fluid...