Chombo

Chombo - Software for Adaptive Solutions of Partial Differential Equations. Chombo provides a set of tools for implementing finite difference methods for the solution of partial differential equations on block-structured adaptively refined rectangular grids. Both elliptic and time-dependent modules are included. Chombo supports calculations in complex geometries with both embedded boundaries and mapped grids, and Chombo also supports particle methods. Most parallel platforms are supported, and cross-platform self-describing file formats are included. The Chombo package is a product of the community of collaborators working with the Applied Numerical Algorithms Group (ANAG), part of the Computational Research Division at LBNL. Chombo is a Swahili word meaning ”tool” or ”container”.


References in zbMATH (referenced in 52 articles , 1 standard article )

Showing results 21 to 40 of 52.
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  1. Clough, Katy; Figueras, Pau; Finkel, Hal; Kunesch, Markus; Lim, Eugene A.; Tunyasuvunakool, Saran: GRChombo: numerical relativity with adaptive mesh refinement (2015)
  2. David Daverio, Mark Hindmarsh, Neil Bevis: Latfield2: A c++ library for classical lattice field theory (2015) arXiv
  3. Guzik, Stephen M.; Gao, Xinfeng; Owen, Landon D.; McCorquodale, Peter; Colella, Phillip: A freestream-preserving fourth-order finite-volume method in mapped coordinates with adaptive-mesh refinement (2015)
  4. Isaac, Tobin; Burstedde, Carsten; Wilcox, Lucas C.; Ghattas, Omar: Recursive algorithms for distributed forests of octrees (2015)
  5. McCorquodale, P.; Dorr, M. R.; Hittinger, J. A. F.; Colella, P.: High-order finite-volume methods for hyperbolic conservation laws on mapped multiblock grids (2015)
  6. Sætra, Martin L.; Brodtkorb, André R.; Lie, Knut-Andreas: Efficient GPU-implementation of adaptive mesh refinement for the shallow-water equations (2015)
  7. Santilli, Edward; Scotti, Alberto: The stratified ocean model with adaptive refinement (SOMAR) (2015)
  8. de la Cruz, Raúl; Araya-Polo, Mauricio: Algorithm 942: Semi-stencil (2014)
  9. Guzik, Stephen M.; Weisgraber, Todd H.; Colella, Phillip; Alder, Berni J.: Interpolation methods and the accuracy of lattice-Boltzmann mesh refinement (2014)
  10. Pletzer, Alexander; Jamroz, Ben; Crockett, Robert; Sides, Scott: Compact cell-centered discretization stencils at fine-coarse block structured grid interfaces (2014)
  11. Ogawa, Takanobu; Oran, Elaine S.; Gamezo, Vadim N.: Numerical study on flame acceleration and DDT in an inclined array of cylinders using an AMR technique (2013)
  12. Jiang, Chaowei; Cui, Shuxin; Feng, Xueshang: Solving the Euler and Navier-Stokes equations by the AMR-CESE method (2012)
  13. Jiang, R.-L.; Fang, C.; Chen, P.-F.: A new MHD code with adaptive mesh refinement and parallelization for astrophysics (2012)
  14. Keppens, R.; Meliani, Z.; Van Marle, A. J.; Delmont, P.; Vlasis, A.; van der Holst, B.: Parallel, grid-adaptive approaches for relativistic hydro- and magnetohydrodynamics (2012)
  15. Omelchenko, Y. A.; Karimabadi, H.: HYPERS: a unidimensional asynchronous framework for multiscale hybrid simulations (2012)
  16. Ziegler, Udo: Block-structured adaptive mesh refinement on curvilinear-orthogonal grids (2012)
  17. Burstedde, Carsten; Wilcox, Lucas C.; Ghattas, Omar: p4est: scalable algorithms for parallel adaptive mesh refinement on forests of octrees (2011)
  18. Colella, P.; Dorr, M. R.; Hittinger, J. A. F.; Martin, D. F.: High-order, finite-volume methods in mapped coordinates (2011)
  19. Dubey, Anshu; Antypas, Katie; Daley, Christopher: Parallel algorithms for moving Lagrangian data on block structured Eulerian meshes (2011) ioport
  20. Ray, J.; Armstrong, R.; Safta, C.; Debusschere, B. J.; Allan, B. A.; Najm, H. N.: Computational frameworks for advanced combustion simulations (2011)