Johannes Sebastian Mueller-Roemer scite author profile

Figure 1: Three frames from a simulation of smoke flowing past a sphere on a 256 × 512 × 256 grid. AbstractWe present a novel multigrid scheme based on a cut-cell formulation on regular staggered grids which generates compatible systems of linear equations on all levels of the multigrid hierarchy. This geometrically motivated formulation is derived from a finite volume approach and exhibits an improved rate of convergence compared to previous methods. Existing fluid solvers with voxelized domains can directly benefit from this approach by only modifying the representation of the non-fluid domain. The necessary building blocks are fully parallelizable and can therefore benefit from multi-and many-core architectures.

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Deformation simulation using cubic finite elements and efficient p-multigrid methods

Weber

Mueller-Roemer

Altenhofen

et al. 2015

Computers & Graphics

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Ternary Sparse Matrix Representation for Volumetric Mesh Subdivision and Processing on GPUs

Mueller-Roemer

Altenhofen

Sourander

2017

Computer Graphics Forum

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In this paper, we present a novel volumetric mesh representation suited for parallel computing on modern GPU architectures. The data structure is based on a compact, ternary sparse matrix storage of boundary operators. Boundary operators correspond to the first‐order top‐down relations of k‐faces to their (k − 1)‐face facets. The compact, ternary matrix storage format is based on compressed sparse row matrices with signed indices and allows for efficient parallel computation of indirect and bottom‐up relations. This representation is then used in the implementation of several parallel volumetric mesh algorithms including Laplacian smoothing and volumetric Catmull‐Clark subdivision. We compare these algorithms with their counterparts based on OpenVolumeMesh and achieve speedups from 3× to 531×, for sufficiently large meshes, while reducing memory consumption by up to 36%.

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