MILAMIN: Matlab-based finite element method solver for large problems. MILAMIN is a finite element method implementation in native MATLAB that is capable of doing one million degrees of freedom per minute on a modern desktop computer. This includes pre-processing, solving, and post-processing. The MILAMIN strategies and package are applicable to a broad class of problems in Earth science.

References in zbMATH (referenced in 13 articles )

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  1. Coombs, William M.; Augarde, Charles E.; Brennan, Andrew J.; Brown, Michael J.; Charlton, Tim J.; Knappett, Jonathan A.; Ghaffari Motlagh, Yousef; Wang, Lei: On Lagrangian mechanics and the implicit material point method for large deformation elasto-plasticity (2020)
  2. O’Sullivan, S.; Bird, R. E.; Coombs, W. M.; Giani, Stefano: Rapid non-linear finite element analysis of continuous and discontinuous Galerkin methods in MATLAB (2019)
  3. Dzikowski, Michal; Jasinski, Lukasz; Dabrowski, Marcin: Depth-averaged lattice Boltzmann and finite element methods for single-phase flows in fractures with obstacles (2018)
  4. Jensen, Kristian Ejlebjerg: Topology optimization of Stokes flow on dynamic meshes using simple optimizers (2018)
  5. Walker, Shawn W.: FELICITY: a Matlab/C++ toolbox for developing finite element methods and simulation modeling (2018)
  6. Bird, R. E.; Coombs, W. M.; Giani, S.: Fast native-MATLAB stiffness assembly for SIPG linear elasticity (2017)
  7. Thøgersen, Kjetil; Dabrowski, Marcin: Mixing of the fluid phase in slowly sheared particle suspensions of cylinders (2017)
  8. Cuvelier, François; Japhet, Caroline; Scarella, Gilles: An efficient way to assemble finite element matrices in vector languages (2016)
  9. Ramírez-Gil, Francisco Javier; Nelli Silva, Emilío Carlos; Montealegre-Rubio, Wilfredo: Topology optimization design of 3D electrothermomechanical actuators by using GPU as a co-processor (2016)
  10. Schmalholz, Stefan M.; Schmid, Daniel W.: Folding in power-law viscous multi-layers (2012)
  11. Andreassen, Erik; Clausen, Anders; Schevenels, Mattias; Lazarov, Boyan S.; Sigmund, Ole: Efficient topology optimization in MATLAB using 88 lines of code (2011)
  12. Krotkiewski, Marcin; Ligaarden, Ingeborg S.; Lie, Knut-Andreas; Schmid, Daniel W.: On the importance of the Stokes-Brinkman equations for computing effective permeability in karst reservoirs (2011)
  13. Krotkiewski, M.; Dabrowski, Marcin: Parallel symmetric sparse matrix-vector product on scalar multi-core CPUs (2010)