Regular meshes are frequently used for modeling physical phenomena on both serial and parallel computers. One advantage of regular meshes is that efficient discretization schemes can be implemented in a straight forward manner. However, geometrically-complex objects, such as aircraft, cannot be easily described using a single regular mesh. Multiple interacting regular meshes are frequently used to describe complex geometries. Each mesh models a subregion of the physical domain. The meshes, or subdomains, can be processed in parallel, with periodic updates carried out to move information between the coupled meshes. In many cases, there are a relatively small number (one to a few dozen) subdomains, so that each subdomain may also be partition...
We present a highly parallel graph mapping technique that enables one to solve unstructured grid pro...
While parallel computers offer significant computational performance, it is generally necessary to e...
A new parallel numerical scheme for solving incompressible steady-state flows is presented. The algo...
Introduction We attempt to model parallel computations that are composed of one or more irregularly...
Phase I is complete for the development of a Computational Fluid Dynamics parallel code with automat...
Scientific and engineering applications often involve structured meshes. These meshes may be nested ...
New mapping algorithms for domain oriented data-parallel computations, where the workload is distrib...
Problem topology is the key to efficient parallelization support for partially regular applications....
In order to predict the dynamic response of a flexible structure in a fluid flow, the equations of m...
Scientific and engineering applications often involve structured meshes. These meshes may be nested ...
The growing need for numerical simulations results in larger and more complex computing centers and ...
The development of multiprocessor simulations from a serial set of ordinary differential equations d...
Analysis of modern aerospace vehicles requires the computation of flowfields about complex three dim...
In this article we discuss a strategy for speeding up the solution of the Navier—Stokes equations on...
AbstractThis paper addresses two key parallelization challenges the unstructured mesh-based ocean mo...
We present a highly parallel graph mapping technique that enables one to solve unstructured grid pro...
While parallel computers offer significant computational performance, it is generally necessary to e...
A new parallel numerical scheme for solving incompressible steady-state flows is presented. The algo...
Introduction We attempt to model parallel computations that are composed of one or more irregularly...
Phase I is complete for the development of a Computational Fluid Dynamics parallel code with automat...
Scientific and engineering applications often involve structured meshes. These meshes may be nested ...
New mapping algorithms for domain oriented data-parallel computations, where the workload is distrib...
Problem topology is the key to efficient parallelization support for partially regular applications....
In order to predict the dynamic response of a flexible structure in a fluid flow, the equations of m...
Scientific and engineering applications often involve structured meshes. These meshes may be nested ...
The growing need for numerical simulations results in larger and more complex computing centers and ...
The development of multiprocessor simulations from a serial set of ordinary differential equations d...
Analysis of modern aerospace vehicles requires the computation of flowfields about complex three dim...
In this article we discuss a strategy for speeding up the solution of the Navier—Stokes equations on...
AbstractThis paper addresses two key parallelization challenges the unstructured mesh-based ocean mo...
We present a highly parallel graph mapping technique that enables one to solve unstructured grid pro...
While parallel computers offer significant computational performance, it is generally necessary to e...
A new parallel numerical scheme for solving incompressible steady-state flows is presented. The algo...