Cellular automata machines: a new environment for modeling
Cellular automata machines: a new environment for modeling
Cellular automata: promise and prospects in computational science
Future Generation Computer Systems - Special issue on cellular automata: promise in computational science
Load Balancing by Redundant Decomposition and Mapping
HPCN Europe 1996 Proceedings of the International Conference and Exhibition on High-Performance Computing and Networking
Computational Aspects of Multi-Species Lattice-Gas Automata
HPCN Europe '99 Proceedings of the 7th International Conference on High-Performance Computing and Networking
Theory of Self-Reproducing Automata
Theory of Self-Reproducing Automata
Compute Bound and I/O Bound Cellular Automata Simulations on FPGA Logic
ACM Transactions on Reconfigurable Technology and Systems (TRETS)
Cellular Automata Simulations on a FPGA cluster
International Journal of High Performance Computing Applications
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We discuss the cellular automata approach and its extensions, the lattice Boltzmann and multiparticle methods. The potential of these techniques is demonstrated in the case of modeling complex systems. In particular, we consider simple applications taken from various scientific domains. We discuss our distributed particle simulation of flow, based on a parallel lattice Boltzmann Method. Efficient parallel execution is possible, provided that (dynamic) load balancing techniques are applied. Next, we present a number of case studies of flow in complex geometry, i.e. flow in porous media and in static mixer reactors.