Finite Element tools in Julia
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Updated
Jun 19, 2024 - Julia
Finite Element tools in Julia
Universal modeling and simulation of fluid mechanics upon machine learning. From the Boltzmann equation, heading towards multiscale and multiphysics flows.
Innovative, efficient, and computational-graph-based finite element simulator for inverse modeling
Automatic Differentiation for Solid Mechanics
Gridap drivers for geoscience applications
Nodes and modes for high order finite element methods
Finite Element Module for Julia that focusses on gradient-robust discretisations and multiphysics problems
Solver for 1D nonlinear partial differential equations in Julia based on the collocation method of Skeel and Berzins and providing an API similar to MATLAB's pdepe
Extensible library for finite element programming
Numerical integration methods for structural dynamics problems
数値計算100本ノック
Adaptive P/ODE numerics with Grassmann element TensorField assembly
Finite-element toolbox in Julia
Julia finite element implementation of a phase-field model for fracture.
RapidFEM.jl is a Finite Element library written in Julia, aiming to provide an interface for rapid prototyping of different mathematical models without compromises on speed.
Hybrid discretisation methods in Julia (VEM, HDG, HHO, etc) 🚧 🚧 🚧 Work in progress 🚧 🚧🚧
Variational approximation by Gridap package to resolve T.I.S.E. in Julia
Códigos traducidos de PYTHON y MATLAB al lenguaje de programación JULIA (ver: https://github.com/diegoandresalvarez/elementosfinitos)
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