Collection of Jupyter notebooks illustrating various techniques in computational acoustics
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Updated
Oct 23, 2018 - Jupyter Notebook
Collection of Jupyter notebooks illustrating various techniques in computational acoustics
Julia package for solving singular integral equations
Simple frequency domain full-waveform inversion (FWI) regularized by Sobolev space norm
Computes effective mode in a 2D wave guide
Finite element analysis of steady state 2D heat transfer problems. Heat transfer occurs when there is a temperature difference within a body or within a body and its surrounding medium. Conduction and convection problems are solved using this software
Wave propagation framework for Python 3. Documentation and examples: https://wave-propagation.readthedocs.io/
Source code for Deep Multigrid method https://arxiv.org/pdf/1711.03825.pdf
FDFD solver for Helmholtz equation in 2D written in julia
Computes effective mode in a 1D wave guide
Computes eigen frequencies in a 2D micro-cavity
collection of thermodynamic models, using ThermoState.jl
Abstract Definitions and Functions to establish a thermodynamic library in julia
Computes eigen frequencies in a 3D micro-cavity
Neural Operators with Applications to the Helmholtz Equation
Finite element method for solving the electromagnetic Helmholtz equation. Based on scikit-fem and scipy.
Computes eigen frequencies in a 1D micro-cavity
Some basic self-learning code in optical computation.
Official repository for the "Multiple wavefield solutions in physics-informed neural networks using latent representation" paper.
Finite element analysis of 2D heat transfer problems. This is a new version to previous solver
This library implements solving and resonance finding for the Helmholtz transmission problem using Boundary Element Methods.
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