The difficulties encountered in implementing large scale CM codes on multiprocessor systems are now fairly well understood. Despite the claims of shared memory architecture manufacturers to provide effective parallelizing compilers, these have not proved to be adequate for large or complex programs. Significant programmer effort is usually required to achieve reasonable parallel efficiencies on significant numbers of processors. The paradigm of Single Program Multi Data (SPMD) domain decomposition with message passing, where each processor runs the same code on a subdomain of the problem, communicating through exchange of messages, has for some time been demonstrated to provide the required level of efficiency, scalability, and portability ...
Distributed-memory multiprocessing systems (DMS), such as Intel’s hypercubes, the Paragon, Thinking ...
Explicit finite-element methods are widely used for problems of non-linear structural mechanics. Bec...
This paper investigates two numerical implementations of continuum boundary conditions in parallel h...
Unstructured mesh codes for modelling continuum physics phenomena have evolved to provide the facili...
The motivation of this thesis was to develop strategies that would enable unstructured mesh based co...
Unstructured mesh based codes for the modelling of continuum physics phenomena have evolved to provi...
The physics of continuum domains, such as a fluid region or a solid body, is described by means of P...
Massively parallel computing holds the promise of extreme performance. Critical for achieving high p...
While solid mechanics codes are now proven tools both in the industry and research sectors, the incr...
Massively parallel computing, using a message passing interface (MPI), has been implemented into a t...
We describe a general strategy we have found effective for parallelizing solid mechanics simula- tio...
Massively parallel processors (MPPs) will soon enable realistic 3-D physical modeling of complex obj...
Virtual manufacturing and design assessment increasingly involve the simulation of interacting pheno...
Numerical simulations in the field of continuum mechanics require considerable computa-tional resour...
In this paper, a simulation framework that enables distributed numerical computing in multi-core sha...
Distributed-memory multiprocessing systems (DMS), such as Intel’s hypercubes, the Paragon, Thinking ...
Explicit finite-element methods are widely used for problems of non-linear structural mechanics. Bec...
This paper investigates two numerical implementations of continuum boundary conditions in parallel h...
Unstructured mesh codes for modelling continuum physics phenomena have evolved to provide the facili...
The motivation of this thesis was to develop strategies that would enable unstructured mesh based co...
Unstructured mesh based codes for the modelling of continuum physics phenomena have evolved to provi...
The physics of continuum domains, such as a fluid region or a solid body, is described by means of P...
Massively parallel computing holds the promise of extreme performance. Critical for achieving high p...
While solid mechanics codes are now proven tools both in the industry and research sectors, the incr...
Massively parallel computing, using a message passing interface (MPI), has been implemented into a t...
We describe a general strategy we have found effective for parallelizing solid mechanics simula- tio...
Massively parallel processors (MPPs) will soon enable realistic 3-D physical modeling of complex obj...
Virtual manufacturing and design assessment increasingly involve the simulation of interacting pheno...
Numerical simulations in the field of continuum mechanics require considerable computa-tional resour...
In this paper, a simulation framework that enables distributed numerical computing in multi-core sha...
Distributed-memory multiprocessing systems (DMS), such as Intel’s hypercubes, the Paragon, Thinking ...
Explicit finite-element methods are widely used for problems of non-linear structural mechanics. Bec...
This paper investigates two numerical implementations of continuum boundary conditions in parallel h...