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waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively parallel framework for multi physics applications.
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HyTeG (Hybrid Tetrahedral Grids) is a C++ framework for large scale high performance finite element simulations based on (but not limited to) matrix-free geometric multigrid.
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Speed up stencil computations on numpy arrays.
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Run fluid simulations based on the lattice Boltzmann method.
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Speed up stencil computations on numpy arrays.
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Speed up stencil computations on numpy arrays.
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Analysis of the LBM with increased stencil-neighborhood in 2D using pystencils. The comparison is done using the analytical solution for the taylor-green-flow and the kida-vortex-flow.
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Template for student theses written at LSS, based on the memoir document class.
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waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively parallel framework for multi physics applications.
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waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively parallel framework for multi physics applications.
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Information about the waLBerla User Meeting 2019
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waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively parallel framework for multi physics applications.
-
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Run fluid simulations based on the lattice Boltzmann method.
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waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively parallel framework for multi physics applications.
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Generate pystencils kernels for waLBerla
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waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively parallel framework for multi physics applications.
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waLBerla (widely applicable Lattice Boltzmann from Erlangen) is a massively parallel framework for multi physics applications.
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