Object-oriented platforms developed for the numerical solution of PDEs must combine flexibility and reusability, in order to ease the integration of new functionalities and algorithms. While designing similar frameworks, a built-in support for high performance should be provided and enforced transparently, especially in parallel simulations. The paper presents solutions developed to effectively tackle these and other more specific problems (data handling and storage, implementation of physical models and numerical methods) that have arisen in the development of COOLFluiD, an environment for PDE solvers. Particular attention is devoted to describe a data storage facility, highly suitable for both serial and parallel computing, and to discuss...
Better insight in complex physical processes requires integration of scientific visualization and nu...
We consider the problem of modeling very complex physical systems by a network of collaborating PDE ...
AbstractFinite-Differencing and other regular and direct approaches to solving partial differential ...
The numerical simulation of complex physical phenomena is a challenging endeavor. Software packages ...
This paper discusses the parallel design of COOLFluiD (Computational Object Oriented Library for Flu...
This thesis presents the author's contribution <p>to the design and implementation of COOLFluiD,<p>a...
An object-oriented design that provides flexibility in simulation codes is presented. This flexibili...
Many scientific processes can be modeled by a solution of partial differential equations. The increa...
Numerical simulations of partial differential equations problems are used in a variety of domains. ...
This paper describes the functionality and architecture of a Grid-enabled partial differential equat...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...
ABSTRACT Parallel numerical software based on the message-passing model is enormously compli-cated. ...
Problem solving environments represent the next generation of scientific computing software. This th...
Better insight in complex physical processes requires integration of scientific visualization and nu...
Processor technology is dramatically advancing and promises enormous improvements in processing data...
Better insight in complex physical processes requires integration of scientific visualization and nu...
We consider the problem of modeling very complex physical systems by a network of collaborating PDE ...
AbstractFinite-Differencing and other regular and direct approaches to solving partial differential ...
The numerical simulation of complex physical phenomena is a challenging endeavor. Software packages ...
This paper discusses the parallel design of COOLFluiD (Computational Object Oriented Library for Flu...
This thesis presents the author's contribution <p>to the design and implementation of COOLFluiD,<p>a...
An object-oriented design that provides flexibility in simulation codes is presented. This flexibili...
Many scientific processes can be modeled by a solution of partial differential equations. The increa...
Numerical simulations of partial differential equations problems are used in a variety of domains. ...
This paper describes the functionality and architecture of a Grid-enabled partial differential equat...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...
ABSTRACT Parallel numerical software based on the message-passing model is enormously compli-cated. ...
Problem solving environments represent the next generation of scientific computing software. This th...
Better insight in complex physical processes requires integration of scientific visualization and nu...
Processor technology is dramatically advancing and promises enormous improvements in processing data...
Better insight in complex physical processes requires integration of scientific visualization and nu...
We consider the problem of modeling very complex physical systems by a network of collaborating PDE ...
AbstractFinite-Differencing and other regular and direct approaches to solving partial differential ...