Using C++ template metaprograms
C++ gems
Generic programming and the STL: using and extending the C++ Standard Template Library
Generic programming and the STL: using and extending the C++ Standard Template Library
The boost graph library: user guide and reference manual
The boost graph library: user guide and reference manual
GrAL - The Grid Algorithms Library
ICCS '02 Proceedings of the International Conference on Computational Science-Part III
C++ Template Metaprogramming: Concepts, Tools, and Techniques from Boost and Beyond (C++ in Depth Series)
ICCS'05 Proceedings of the 5th international conference on Computational Science - Volume Part II
Data structure properties for scientific computing: an algebraic topology library
Proceedings of the 8th workshop on Parallel/High-Performance Object-Oriented Scientific Computing
The forced evolution of implementations: using a Monte Carlo algorithm as example
Proceedings of the 8th workshop on Parallel/High-Performance Object-Oriented Scientific Computing
A generic and self-optimizing polynomial library
Proceedings of the 8th workshop on Parallel/High-Performance Object-Oriented Scientific Computing
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A generic scientific simulation environment is presented which imposes minimal restriction regarding topological, dimensional, and functional issues. Therewith complete discretization schemes based on finite volumes or finite elements can be expressed directly in C++. This work presents our multi-paradigm approach, our generic libraries, some applications based on these libraries, and performance aspects.