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GitHub topics: numerical-pdes

vavrines/Kinetic.jl

Universal modeling and simulation of fluid mechanics upon machine learning. From the Boltzmann equation, heading towards multiscale and multiphysics flows.

Language: Julia - Size: 7.01 MB - Last synced at: about 23 hours ago - Pushed at: about 1 month ago - Stars: 134 - Forks: 17

kailaix/ADCME.jl

Automatic Differentiation Library for Computational and Mathematical Engineering

Language: Julia - Size: 144 MB - Last synced at: about 1 month ago - Pushed at: over 1 year ago - Stars: 298 - Forks: 61

kailaix/AdFem.jl

Innovative, efficient, and computational-graph-based finite element simulator for inverse modeling

Language: Julia - Size: 244 MB - Last synced at: about 23 hours ago - Pushed at: almost 4 years ago - Stars: 83 - Forks: 17

cdalvaro/computational-physics

🚧 Project for solving differential equations numerically, applied to physics

Language: C++ - Size: 947 KB - Last synced at: 14 days ago - Pushed at: over 4 years ago - Stars: 3 - Forks: 0

iwhoppock/viscous_burgers

Two solutions, written in MATLAB, for solving the viscous Burger's equation. They are both spectral methods: the first is a Fourier Galerkin method, and the second is Collocation on the Tchebyshev-Gauß-Lobatto points.

Language: Matlab - Size: 1.8 MB - Last synced at: 7 months ago - Pushed at: almost 8 years ago - Stars: 12 - Forks: 8

Rsmeets99/M_scheme_biofilm_PDE

Code corresponding to paper "Robust time-discretisation and linearisation schemes for singular and degenerate evolution systems modelling biofilm growth" implemented in python using FEniCSx. It covers the biofilm model and the porous medium equation.

Language: Python - Size: 12.5 MB - Last synced at: 11 days ago - Pushed at: 11 months ago - Stars: 0 - Forks: 0

iwhoppock/heat_equation

A solution, written in C, to the heat equation using Crank-Nicholson and finite differences.

Language: C - Size: 777 KB - Last synced at: 7 months ago - Pushed at: almost 8 years ago - Stars: 0 - Forks: 0

iwhoppock/inviscid_burgers

Solution to Burger's Equation (inviscid), written in C, using Adams-Bashforth Methods. These methods include the one, two, and three step algorithms.

Language: C - Size: 1.45 MB - Last synced at: 7 months ago - Pushed at: almost 8 years ago - Stars: 0 - Forks: 0

iwhoppock/korteweg-de_vries

A solution, written in C, to Korteweg de Vries using the fourth order Runge-Kutta method and finite differences.

Language: C - Size: 2.23 MB - Last synced at: 7 months ago - Pushed at: over 6 years ago - Stars: 1 - Forks: 0

Related Keywords
numerical-pdes 9 pde 5 heat-equation 2 burgers-equation 2 finite-differences 2 machine-learning 2 automatic-differentiation 2 finite-element-methods 2 differential-equations 2 solitons 1 heat-equation-solution 1 spectral-methods 1 tchebyshev 1 viscous-burgers 1 runge-kutta 1 biofilm-growth 1 fenicsx 1 m-scheme 1 porous-media 1 python 1 crank-nicolsen 1 diffusion 1 diffusion-equation 1 korteweg-de-vries 1 pdes 1 adams-bashforth-methods 1 burger-equation 1 burgers 1 finite-difference 1 kdv-equation 1 inverse-scattering 1 inviscid-burgers 1 partial-differential-equations 1 boltzmann-equation 1 cfd 1 deep-learning 1 finite-volume 1 fluid-dynamics 1 julia 1 kinetic-theory 1 plasma 1 rarefied-gas-dynamics 1 scientific-machine-learning 1 sciml 1 neural-networks 1 optimization 1 scientific-computing 1 tensorflow 1 adjoint-method 1 deep-neural-networks 1 cpp 1 objective-cpp 1 opengl 1 physics-simulation 1 chebyyshev 1 collocations 1 diffusion-coefficient 1 fourier-galerkin 1