CalculiX examples by Prof. Martin Kraska from Brandenburg University of Applied Sciences. Excellent starting point to master parametric modelling with CGX and CCX.

Using Physics-Informed Deep Learning (PIDL) techniques (W-PINNs-DE & W-PINNs) to solve forward and inverse hydrodynamic shock-tube problems and plane stress linear elasticity boundary value problems

LETO is a new hybrid Lagrangian-Eulerian method for topology optimization. It transfers density information from movable Lagrangian carriers to a fixed set of Eulerian quadratures and solves force equilibrium with MPM. With carrier particles as design variables, LETO reparameterizes the Eulerian solution space in a Lagrangian view.

A Matlab program which solves a static nonlinear FEM problem with linear shape functions, for an ideal elastic-plastic material

Finite element modeling for linear elasticity problem in 3D by using FEniCS software

Simple implementation of finite element method

Code TMA4900 Industrial Mathematics, Master’s Thesis

(partial, unofficial) JAX-implementation for "Physics-informed Neural Networks for shell structures".

Calculate linear elasticity for some crystals

Code for building a reduced-order model for the linear elasticity equation on a square in 2D for my specialization Project at NTNU.

Wolfram language coding examples

falcon-MATLAB is a finite element analysis program from the falcon numerical analyses suite.

Inverse Elasticity Physic-informed Neural Network (IE-PINN)

An implementation of the numerical algorithm for the bound constraints optimal control problems in linear elasticity

Implements the basic functionalities of LinearElasticity.jl

Multi-GPU calculations using CUDA technology on the example of a planar problem of linear elasticity theory

The perfect topology optimizer

Tools for computing the mechanical properties of crystal structures.

PhD thesis codebase from ~2018 that implements distributed 3D FEM, random field models, uncertainty quantification.