A Lagrangian inertial centroidal Voronoi particle method for dynamic load balancing in particle-based simulations
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Publication:6100275
DOI10.1016/j.cpc.2019.01.011arXiv1802.04539MaRDI QIDQ6100275
Nikolaus A. Adams, Xiangyu Y. Hu, Zhe Ji, Lin Fu
Publication date: 12 May 2023
Published in: Computer Physics Communications (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1802.04539
particle simulationSPHdynamic load balancecentroidal Voronoi particleinertial centroidal Voronoi particle
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A block-based adaptive particle refinement SPH method for fluid-structure interaction problems ⋮ A semi-meshless Lagrangian finite-volume framework based on Voronoi diagram for general elastoplastic Reissner-Mindlin shell ⋮ A feature-aware SPH for isotropic unstructured mesh generation ⋮ A consistent parallel isotropic unstructured mesh generation method based on multi-phase SPH ⋮ Multi-level adaptive particle refinement method with large refinement scale ratio and new free-surface detection algorithm for complex fluid-structure interaction problems
Cites Work
- Smoothed particle hydrodynamics and magnetohydrodynamics
- Reformulation of smoothed particle hydrodynamics with Riemann solver
- Dynamic load balancing in computational mechanics
- A physics-motivated centroidal Voronoi particle domain decomposition method
- A novel partitioning method for block-structured adaptive meshes
- New challenges in dynamic load balancing
- A new multi-resolution parallel framework for SPH
- Least squares quantization in PCM
- Convergence of the Lloyd Algorithm for Computing Centroidal Voronoi Tessellations
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