There are 3 repositories under boundary-element-method topic.
The author's Implementation of "Surface-Only Dynamic Deformables using a Boundary Element Method."
Tutorials and exercises for learning to use Bempp-cl for problems in acoustics
A Python-based Boundary Element Library
Two-dimensional flow solver with GUI using vortex particle and boundary element methods
GPU-accelerated 3D vortex methods solver with easy GUI
A simple package for solving Boundary Integral Equations using the (collocation) Boundary Element Method.
"Octopus Realtime Encephalography Lab" is the (hard) real-time networked EEG-lab framework I have developed during my PhD Thesis at Brain Research Lab of Hacettepe University Faculty of Medicine Biophysics Lab. It is meant to be a holistic golden-standard solution for all tasks of cortical source localization/networking, brain-computer interfaces and neuro-feedback applications.
Simulate cells and particles
Benchmark of kernel matrix-vector products and inversions (regression, system resolution).
UGUCA: a spectral-boundary-integral method for modeling fracture and friction. To cite this Original Software Publication: https://www.sciencedirect.com/science/article/pii/S2352711021000959
Andromeda is a Boundary Element Method based code, which solves the Laplace and Stokes partial differential equations in 3D.
This is the three-dimensional acoustic wave scattering analysis program for arbitrary objects in a inviscid fluid . This is based on boundary element method, the own developed numerical solution is used. The radiation force acting on the object can be analyzed.
This is the three-dimensional electromagnetic field analysis program for arbitrary objects irradiated by arbitrary beams. This is the extension of "bem3_emf_b1" using iterative solution. This program can analyze multiple scattering between objects with less memory than "bem3_emf_b1".
This library implements solving and resonance finding for the Helmholtz transmission problem using Boundary Element Methods.
Implementation of the parabolic Galerkin Boundary Element Method with moving surfaces in C, my Master's thesis project (publication pending).
This is the two-dimensional electromagnetic field analysis program for arbitrary objects irradiated by a TM plane wave (transverse magnetic wave). This is based on the boundary element method, the own developed numerical solution is used.
This code supplements arXiv:2108.03055, where we describe an adaptive boundary element method for the heat equation.
1D nonsmooth modal analysis via BEM/HBM
Explore the internal principle and performance of boundary element method by solving a simple Dirichlet problem
A boundary element method (BEM) code for solving the extracellular-membrane-intracellular (EMI) model.
Numerical Methods
This is the two-dimensional electromagnetic field analysis program for one-dimensional periodic arrangement objects irradiated by a TE plane wave (transverse electric wave). This is based on the boundary element method, the own developed numerical solution is used.
This is the two-dimensional electromagnetic field analysis program for one-dimensional periodic arrangement objects irradiated by a TM plane wave (transverse magnetic wave). This is based on the boundary element method, the own developed numerical solution is used.
This is the three-dimensional acoustic wave scattering analysis program for arbitrary objects irradiated by arbitrary beams. This is the extension of "bem3_aw_b1" using iterative solution. This program can analyze multiple scattering between objects with less memory than "bem3_aw_b1".
This is the three-dimensional acoustic wave scattering analysis program for one-dimensional periodic arrangement objects irradiated by a plane wave. The radiation force acting on the object can be analyzed. This is based on boundary element method, the own developed numerical solution is used.
This is the three-dimensional acoustic wave scattering analysis program for two-dimensional periodic arrangement objects irradiated by a plane wave. The radiation force acting on the object can be analyzed. This is based on boundary element method, the own developed numerical solution is used.