There are 23 repositories under finite-element-methods topic.
FreeFEM source code
2D-Finite Element Analysis with Python
Differentiable Finite Element Method with JAX
Research prototyping framework for physics simulation written in C++
underworld2: A parallel, particle-in-cell, finite element code for Geodynamics.
A curated collection of Python examples for optimization-based solid simulation, emphasizing algorithmic convergence, penetration-free, and inversion-free conditions, designed for readability and understanding.
Finite Element tools in Julia
Collection of Jupyter notebooks illustrating various techniques in computational acoustics
Development of the Failure Criteria for Composites using ABAQUS Subroutines (UMAT/VUMAT)
FreeFEM user documentation
Universal modeling and simulation of fluid mechanics upon machine learning. From the Boltzmann equation, heading towards multiscale and multiphysics flows.
CALFEM for Python is the Python port of the CALFEM finite element toolkit. It also implements meshing function based on GMSH and triangle. Visualisation routines are implemented using visvis and matplotlib.
A reimplementation of the Springer book: https://github.com/hplgit/fenics-tutorial/, covering new topics as well as transitioning from dolfin to dolfinx
Adaptive computational fluid dynamics
The mdbook source of a free online book on the theory and algorithms of physics-based simulations. You are welcome to make contributions by submitting pull requests or directly contacting the authors.
CALFEM - a finite element toolbox for MATLAB
Discontinuous Galerkin finite element method (DGFEM) for Acoustic Wave Propagation
FastCorotatedFEM is a minimalistic implementation of the corotated FEM method which was proposed in paper "Fast Corotated FEM using Operator Splitting" by Kugelstadt et al.
A free online book on the theory and algorithms of physics-based simulations. To make a contribution, please submit pull requests on the mdbook-src repository (not this one), or directly contact the authors.
A curated set of C++ examples for optimization-based elastodynamic contact simulation using CUDA, emphasizing algorithmic convergence, penetration-free, and inversion-free conditions. Designed for readability and understanding, this tutorial helps beginners learn how to write simple GPU code for efficient solid simulations.
FEMTIC is a 3-D magnetotelluric inversion code. FEMTIC is made by object-oriented programming with C++. FEMTIC is applicable to land magnetotelluric survey data as well as ocean bottom magnetotelluric survey data.
An Open-Source FEM Magnetics Toolbox for Power Electronic Magnetic Components