Explore projects

HyTeG (Hybrid Tetrahedral Grids) is a C++ framework for large scale high performance finite element simulations based on (but not limited to) matrixfree geometric multigrid.
Updated 
waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively parallel framework for multi physics applications.
Updated 
Collection of functions and scripts for continuous benchmarking
Updated 
Updated

Speed up stencil computations on numpy arrays.
Updated 
Speed up stencil computations on numpy arrays.
Updated 
Updated

waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively parallel framework for multi physics applications.
Updated 
Speed up stencil computations on numpy arrays.
Updated 
Run fluid simulations based on the lattice Boltzmann method.
Updated 
waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively parallel framework for multi physics applications.
Updated 
Run fluid simulations based on the lattice Boltzmann method.
Updated 
waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively parallel framework for multi physics applications.
Updated 
Updated

Run fluid simulations based on the lattice Boltzmann method.
Updated 
Speed up stencil computations on numpy arrays.
Updated 
waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively parallel framework for multi physics applications.
Updated 
A source file generator to bridge the semantic gap between code emitted by pystencils and your C/C++/CUDA/HIP project.
Topics: Code GenerationUpdated 
waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively parallel framework for multi physics applications.
Updated 
waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively parallel framework for multi physics applications.
Updated