Official git repository of Elmer FEM software
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Updated
Aug 8, 2024 - Fortran
Official git repository of Elmer FEM software
Simulation and Parameter Estimation in Geophysics - A python package for simulation and gradient based parameter estimation in the context of geophysical applications.
Netgen/NGSolve is a high performance multiphysics finite element software. It is widely used to analyze models from solid mechanics, fluid dynamics and electromagnetics. Due to its flexible Python interface new physical equations and solution algorithms can be implemented easily.
🦐 Electromagnetic Simulation + Automatic Differentiation
Electromagnetic methods in geophysics - open educational resources.
🌌 A collaborative list of awesome software for exploring Physics concepts
Python code for T-matrix scattering calculations
Fast electromagnetic solver (FDTD) at scale.
A collection of forward and inverse Mie solving routines for Python 3, based on Bohren and Huffman's Mie Theory derivations
collection of notebook-apps for concepts in applied geophysics
open source MLFMA (multi level fast multipole algorithm) or open source MLFMM (multi level fast multipole method)
Range Software - Finite Element Analysis
Interactive applications for electromagnetics in geophysics
Pure Python implementation of the finite difference frequency domain (FDFD) method for electromagnetics
EM3DVP: a Visual Package for 3D Geo-Electromagnetic modeling and inversion
Efficient electromagnetic solver based on rigorous coupled-wave analysis for 3D and 2D multi-layered structures with in-plane periodicity, such as gratings, photonic-crystal slabs, metasurfaces, surface-emitting lasers, nano-antennas, and more.
SCATMECH: Polarized light scattering C++ class library
petgem is a parallel and high-order code for active-source (e.g. CSEM) and passive-source (e.g. MT) geophysics electromagnetic modeling in 3D arbitrary marine/land problems under anisotropic conductivities.
A suite of photonic inverse design challenge problems for topology optimization benchmarking
Pure Julia implementation of the finite difference frequency domain (FDFD) method for electromagnetics
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