This two-part paper presents the results of a benchmarked analytical-numerical investigation into the operational characteristics of a unified parallel processing strategy for implicit fluid mechanics formulations. This hierarchical poly tree (HPT) strategy is based on multilevel substructural decomposition. The Tree morphology is chosen to minimize memory, communications and computational effort. The methodology is general enough to apply to existing finite difference (FD), finite element (FEM), finite volume (FV) or spectral element (SE) based computer programs without an extensive rewrite of code. In addition to finding large reductions in memory, communications, and computational effort associated with a parallel computing environment, ...
A new parallel numerical scheme for solving incompressible steady-state flows is presented. The algo...
Distributed-memory parallel computers dominate today's parallel computing arena. These machines, suc...
Phase 1 is complete for the development of a computational fluid dynamics CFD) parallel code with au...
This paper demonstrates how a multilevel substructuring technique, called the Hierarchical Poly Tree...
The divide-and-conquer paradigm of iterative domain decomposition, or substructuring, has become a p...
Based on the concept of hierarchical parallelism, this research effort resulted in highly efficient ...
Implicit finite difference schemes are often the preferred numerical schemes in computational fluid ...
In this article we discuss a strategy for speeding up the solution of the Navier—Stokes equations on...
The focus of the subject DOE sponsored research concerns parallel methods, algorithms, and software ...
The White Paper content is focused on: a) construction and analysis of novel scalable algorithms to ...
A finite element method for computational the Connection Machine systems CM-2 and CM-200. An implici...
This paper discusses the implementation of a numerical algorithm for simulating incompressible fluid...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Aerospace Engineering.Para...
AbstractIntegration of the subsurface flow equation by finite elements (FE) in space and finite diff...
A methodology is described for developing a parallel system using a top down approach taking into ac...
A new parallel numerical scheme for solving incompressible steady-state flows is presented. The algo...
Distributed-memory parallel computers dominate today's parallel computing arena. These machines, suc...
Phase 1 is complete for the development of a computational fluid dynamics CFD) parallel code with au...
This paper demonstrates how a multilevel substructuring technique, called the Hierarchical Poly Tree...
The divide-and-conquer paradigm of iterative domain decomposition, or substructuring, has become a p...
Based on the concept of hierarchical parallelism, this research effort resulted in highly efficient ...
Implicit finite difference schemes are often the preferred numerical schemes in computational fluid ...
In this article we discuss a strategy for speeding up the solution of the Navier—Stokes equations on...
The focus of the subject DOE sponsored research concerns parallel methods, algorithms, and software ...
The White Paper content is focused on: a) construction and analysis of novel scalable algorithms to ...
A finite element method for computational the Connection Machine systems CM-2 and CM-200. An implici...
This paper discusses the implementation of a numerical algorithm for simulating incompressible fluid...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Aerospace Engineering.Para...
AbstractIntegration of the subsurface flow equation by finite elements (FE) in space and finite diff...
A methodology is described for developing a parallel system using a top down approach taking into ac...
A new parallel numerical scheme for solving incompressible steady-state flows is presented. The algo...
Distributed-memory parallel computers dominate today's parallel computing arena. These machines, suc...
Phase 1 is complete for the development of a computational fluid dynamics CFD) parallel code with au...