A coupling library and ecosystem for partitioned multi-physics and multi-scale simulations, including surface and volume coupling.

computational adjoint-based shape optimization and optimal control software for python

Workhorse for a research project that encompasses finite element analysis, machine learning, and multiscale analysis. Additionally, a set of tools is provided.

A Tensorial Mixed Finite Element Solver for the Linear R13 Equations Using the FEniCS Computing Platform (Mirror from https://git.rwth-aachen.de/lamBOO/fenicsR13).

A numerical comparison of FEM (FEniCS) and SPH (SmoothedParticles.jl) in a standard benchmark experiment - a flow around a cylinder.

Complex constitutive models beyond the FEniCS UFL.

Devilishly fun finite element fluid simulation 😈

Snappy finite element simulation of the convection and reaction of CO₂ 🐊

pyMOR - Model Order Reduction with Python

FEMlium – interactive visualization of finite element simulations on geographic maps with folium

Codes for finite element method

PASSC framework extended to unsteady convection-diffusion-reaction problems. Combines SUPG-stabilized FEM with YZβ shock-capturing and PINN-based post-processing correction near terminal time. Residual blocks with random Fourier features. Implemented in FEniCS and PyTorch (Python).

High performance computational platform in Python for the spectral Galerkin method

A reimplementation of the Springer book: https://github.com/hplgit/fenics-tutorial/, covering new topics as well as transitioning from dolfin to dolfinx

This FEniCS script implements a mixed finite element method to simulate the time-dependent Navier-Stokes equations on a unit square mesh with boundary conditions for a lid-driven cavity flow.

Mini App for FEniCSx performance testing

preCICE-adapter for the open source computing platform FEniCS

FEATool Multiphysics - "Physics Simulation Made Easy" (Fully Integrated FEA, FEniCS, OpenFOAM, SU2 Solver GUI & Engineering CAE Simulation Platform)

Comprehensive computational framework for REBCO HTS coils and plasma physics applications. Features validated 7.07T superconducting magnet designs, Lentz soliton simulation with interferometric detection, high-beta plasma confinement analysis, and multi-physics FEA integration. Open-source Python implementation with interactive Jupyter notebooks.

A scalable domain decomposition-based architecture for propagating uncertainty through 2D and 3D PDE models.