There are 77 repositories under computational-physics topic.
List of Computer Science courses with video lectures.
Fluid simulation engine for computer graphics applications
OpenMC Monte Carlo Code
Geant4 toolkit for the simulation of the passage of particles through matter - NIM A 506 (2003) 250-303
Powerful, efficient particle trajectory analysis in scientific Python.
BOUT++: Plasma fluid finite-difference simulation code in curvilinear coordinate systems
Curated list of some open source codes employing lattice Boltzmann methods
[ICLR'24] EquiformerV2: Improved Equivariant Transformer for Scaling to Higher-Degree Representations
A Python module implementing some standard algorithms used in nonlinear time series analysis
Neural network based solvers for partial differential equations and inverse problems :milky_way:. Implementation of physics-informed neural networks in pytorch.
Using Physics-Informed Deep Learning (PIDL) techniques (W-PINNs-DE & W-PINNs) to solve forward and inverse hydrodynamic shock-tube problems and plane stress linear elasticity boundary value problems
Python library for reading, writing, and converting computational chemistry file formats and generating input files.
state of the art C++ pseudo-random number generator library for sequential and parallel Monte Carlo simulations
computational physics class taught at UNLV (Phys300)
Differentiable Quantum Chemistry (only Differentiable Density Functional Theory and Hartree Fock at the moment)
Voxel-based fluid simulation engine for computer games
Curated list of some open-source codes for turbulent flow simulations, including turbulent multiphase, turbulent reacting flows, turbulent convection and turbulent atmospheric physics.
Code and resources for the EPSRC BioSimSpace project.
Assortment of code for model systems in computational physics
A Python package to efficiently simulate non-Markovian open quantum systems with process tensors.
An interoperable Python framework for biomolecular simulation.
Public Archive: Beautiful and Elegant Quantum Mechanics Visualization.
A python script that solves the one dimensional time-independent Schrodinger equation for bound states. The script uses a Numerov method to solve the differential equation and displays the desired energy levels and a figure with an approximate wave function for each of these energy levels.
Celeritas is a new Monte Carlo transport code designed to accelerate scientific discovery in high energy physics by improving detector simulation throughput and energy efficiency using GPUs.
A solar system simulator with Verlet, using OpenGL for displaying.
Some python workbooks with various topics from Computational Physics
Books with Fortran code, other than textbooks
A 2D Lattice Boltzmann program
A program implementing the Hartree–Fock (also post-HF: MP2, CCSD(T), CIS and TDHF/RPA)/self-consistent field method (also DIIS) with Gaussian orbitals
Lecture notes and code for the course PHYS6350 Computational Physics at the University of Houston