Design considerations were evaluated for general purpose finite element systems to maximize performance when installed on distributed computer hardware/software systems. It is shown how the features of current minicomputers complement those of a modular implementation of the finite element method for increasing the control, speed, and visibility (interactive graphics) in solving structural problems at reduced cost. The approach used is to implement a finite element system in a distributed computer environment to solve structural problems and to explore alternatives in distributing finite element computations
Network computing and multiprocessor computers are two discernible trends in parallel processing. Th...
A methodology is described for developing a parallel system using a top down approach taking into ac...
Processor technology is still dramatically advancing and promises enormous improvements in processin...
The development of a microcomputer system is described. A series of finite element analysis programs...
The finite element machine is a prototype computer designed to support parallel solutions to structu...
The Finite Element Machine is an experimental parallel computer developed at Langley Research Center...
Some of the considerations that went into the design of the Finite Element Machine, a research async...
The analysis of aerospace structures by the finite element method consumes considerable computer tim...
[[abstract]]The finite element method is widely used to model physical systems in various engineerin...
The design and development of an advanced computer architecture that supports the parallel implement...
This paper demonstrates that scalability and competitive efficiency can be achieved for unstructured...
This paper highlights the advances in computer graphics and the computational power of the processo...
Generally, parallel scientific applications are executed on a fixed number of processors determined ...
The paper considers three main software technologies for implementing parallelism: MPI, .NET and Jav...
The adaptation of a finite element program with explicit time integration to a massively parallel SI...
Network computing and multiprocessor computers are two discernible trends in parallel processing. Th...
A methodology is described for developing a parallel system using a top down approach taking into ac...
Processor technology is still dramatically advancing and promises enormous improvements in processin...
The development of a microcomputer system is described. A series of finite element analysis programs...
The finite element machine is a prototype computer designed to support parallel solutions to structu...
The Finite Element Machine is an experimental parallel computer developed at Langley Research Center...
Some of the considerations that went into the design of the Finite Element Machine, a research async...
The analysis of aerospace structures by the finite element method consumes considerable computer tim...
[[abstract]]The finite element method is widely used to model physical systems in various engineerin...
The design and development of an advanced computer architecture that supports the parallel implement...
This paper demonstrates that scalability and competitive efficiency can be achieved for unstructured...
This paper highlights the advances in computer graphics and the computational power of the processo...
Generally, parallel scientific applications are executed on a fixed number of processors determined ...
The paper considers three main software technologies for implementing parallelism: MPI, .NET and Jav...
The adaptation of a finite element program with explicit time integration to a massively parallel SI...
Network computing and multiprocessor computers are two discernible trends in parallel processing. Th...
A methodology is described for developing a parallel system using a top down approach taking into ac...
Processor technology is still dramatically advancing and promises enormous improvements in processin...