Advanced manufacturing modeling and simulation
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Updated
Aug 2, 2024 - C++
The finite element method (FEM) is a numerical method for solving problems of engineering and mathematical physics. Typical problem areas of interest include structural analysis, heat transfer, fluid flow, mass transport, and electromagnetic potential.
Advanced manufacturing modeling and simulation
Extreme-scale Discontinuous Galerkin Environment (EDGE)
A parallel lattice Boltzmann-immersed boundary-finite element (LIFE) solver for fluid-structure interaction.
The fdaPDE core library is a C++ header-only library for Partial Differential Equation discretization, computational geometry, unconstrained nonlinear optimization, linear algebra and much more.
Seismo-VLAB: An Open-Source Finite Element Software for Meso-Scale Simulations
A finite element code
Adaptive multiresolution discontinuous Galerkin C++ package
PERIGEE is a finite element code for multiphysics analysis
Add-On to NGSolve for Trefftz methods
PolyMGen is a library for parallel quality mesh generation of many polytopes, such as polygons and polyhedrons
A multiscale fractured mesh generator for NeoPZ
C++ library for meshes and finite elements on manifolds
MAcroscopic Crystal PLAsticity Simulator
An implementation of a symbolic weak form interface for deal.II, using expression templates as well as automatic and symbolic differentiation.
Fast Finite Element Sampling for distance computations
An object-oriented, open-source finite-element library for the simulation of multi-physics problems. This repo has been superseded by https://github.com/oomph-lib/oomph-lib
MVox Mesh Voxelizer
Basic finite element method in a Graphite plugin (tutorial)
A collection of high-performance material constitutive models used in computational mechanics.
new_abaqus is a hobby project for creating an FE-solver reading an FE-mesh following the syntax of the commercial software abaqus.