The numerical simulation of complex physical phenomena is a challenging endeavor. Software packages developed for such purpose should combine high performance and extreme flexibility, in order to allow an easy integration of new algorithms, models and functionalities, without penalizing run-time efficiency. COOLFluiD is an object-oriented framework for multi-physics simulations using multiple numerical methods on unstructured grids, aiming at satisfying these needs. To this end, specific design patterns and advanced techniques, combining static and dynamic polymorphism, have been employed to attain modularity and efficiency. Some of the main design and implementation solutions adopted in COOLFluiD are presented in this paper, in particular ...
This contribution gives an overview of current research in applying object oriented programming to s...
Nowadays, the evaluation of the transport and thermodynamic properties in computational fluid dynami...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...
This paper discusses the parallel design of COOLFluiD (Computational Object Oriented Library for Flu...
Object-oriented platforms developed for the numerical solution of PDEs must combine flexibility and ...
This thesis presents the author's contribution <p>to the design and implementation of COOLFluiD,<p>a...
In this doctoral work, we adress various problems arising when dealing with multi-physical simulatio...
In this paper, an object-oriented framework for numerical analysis of multi-physics applications is ...
Existing software integration frameworks typically require large manual rewrites of existing codes, ...
Abstract Existing software integration frameworks typically require large manual rewrites of existin...
Modern computing systems are so energy-intensive to make efficient cooling vital for their operation...
This work describes the development of a framework for numerical simulation software, using the fini...
Better insight in complex physical processes requires integration of scientific visualization and nu...
Better insight in complex physical processes requires integration of scientific visualization and nu...
<p>The fundamental difficulty with scientific software is that the existing languages are either<br>...
This contribution gives an overview of current research in applying object oriented programming to s...
Nowadays, the evaluation of the transport and thermodynamic properties in computational fluid dynami...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...
This paper discusses the parallel design of COOLFluiD (Computational Object Oriented Library for Flu...
Object-oriented platforms developed for the numerical solution of PDEs must combine flexibility and ...
This thesis presents the author's contribution <p>to the design and implementation of COOLFluiD,<p>a...
In this doctoral work, we adress various problems arising when dealing with multi-physical simulatio...
In this paper, an object-oriented framework for numerical analysis of multi-physics applications is ...
Existing software integration frameworks typically require large manual rewrites of existing codes, ...
Abstract Existing software integration frameworks typically require large manual rewrites of existin...
Modern computing systems are so energy-intensive to make efficient cooling vital for their operation...
This work describes the development of a framework for numerical simulation software, using the fini...
Better insight in complex physical processes requires integration of scientific visualization and nu...
Better insight in complex physical processes requires integration of scientific visualization and nu...
<p>The fundamental difficulty with scientific software is that the existing languages are either<br>...
This contribution gives an overview of current research in applying object oriented programming to s...
Nowadays, the evaluation of the transport and thermodynamic properties in computational fluid dynami...
We present a software approach to hardware-oriented numerics which builds upon an augmented, previou...