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.
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Updated
Jun 3, 2024 - Julia
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.
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.
Finite element toolbox for Julia
Grid-based approximation of partial differential equations in Julia
Finite Element tools in Julia
Parallel distributed-memory version of Gridap
Adaptive P/ODE numerics with Grassmann element TensorField assembly
Plot your Ferrite.jl data
Efficient computations with symmetric and non-symmetric tensors with support for automatic differentiation.
Distributed assembly layer for Ferrite.jl.
Diffusion MRI Simulation Toolbox in Julia
Programs modeled after "Numerical Methods for Engineers" by D.V. Griffiths and I.M. Smith
"Programming the Finite Element Method" by I M Smith, D V Griffiths and L Margetts
Discrete Differential Forms in arbitrary dimensions
Solvers for finite element discretizations of PDEs in the SciML scientific machine learning ecosystem
Finite-Element, Discrete Variable Representation package for Julia
Semi-Lagrangian Multiscale Reconstruction Method for Advection-Diffusion Problems with Rough Data
A Julia interface to the TOAST++ finite element library