Hydra
Adaptive particle-particle, particle-mesh plus smoothed particle hydrodynamics code.
Introduction to Monte Carlo algorithms
Programs by Werner Krauth for Monte Carlo applied to physics.
Ising Model
Fortran 90 program by Hans-Marc Erkinger for Monte Carlo simulation of the Ising model.
JETNET
Neural Network program for jet discrimination and other High Energy Physics triggering situations, by Leif Lonnblad, Carsten Peterson, Hong Pi, and Thorsteinn Rognvaldsson.
Karlsruhe Optimized and Precise Radiative transfer Algorithm (KOPRA)
Fortran 90 code for atmospheric radiative transfer modelling in the mid-infrared spectral range.
Kinetic Monte Carlo
Ordering and Vacancy Migration in 2-D Binary Alloy, by D. Johnson.
La-Grange.Net
Has programs from Gaspani for spectral analysis, GENSYS for general synthesis of light curves and line profiles for close binary systems, WINK for eclipsing binary curve prediction, and WUMA for generating line-broadening profiles.
Light Scattering
T-matrix and related codes, by Arturo Quirantes.
Linear Muffin-Tin Orbital (LMTO) programs
Electronic structure codes of Ole Anderson's group.
Mangle
Software to deal accurately and efficiently with complex angular masks of galaxy surveys.
Materials Algorithm Project (MAP)
Links to programs in material science, many in Fortran.
MM5 Community Model
The PSU/NCAR mesoscale model (known as MM5) is a limited-area, nonhydrostatic, terrain-following sigma-coordinate model designed to simulate or predict mesoscale atmospheric circulation. The model is supported by several pre- and post-processing programs, which are referred to collectively as the MM5 modeling system. The MM5 modeling system software is mostly written in Fortran.
Molecular dynamics programs in Fortran 90
By Furio Ercolessi.
NCEP Regional Spectral Model
Limited-area atmospheric model using spectral method for computation, written in Fortran 77.
Next-to-Leading-Order Quantum Chromodynamics (NLO QCD)
EVENT2 is a program for two- and three-jet events in e+e- annihilation. DISENT is a program for (1+1)- and (2+1)-jet events in deep inelastic scattering. GBOOK creates line graphs.
Nucleon-Nucleon Potential Models
Fortran 77, 90, and C codes.
Numerical Methods for Physics
Fortran, Matlab, and C++ codes from by the book by Alejandro L. Garcia.
Numerical Methods in Physics
Fortran 77 and 90 codes by Mladen Rogina, covering ODEs, PDEs, linear algrebra, and other topics.
OceanModel NetCDF Tools
Fortran tools to write standardized NetCDF output for a variety of ocean circulation models. The files contain required metadata to be compatible with DMACS standards. A C++ particle trajectory tool reads NetCDF files to make particle paths.
Octopus
Fortran 90 program for ab initio virtual experimentation on a range of systems. Electrons are described quantum-mechanically within the Density-Functional Theory (DFT), in its time-dependent form (TDDFT) when doing simulations in time. Nuclei are described classically as point particles. Electron-nucleus interaction is described within the pseudopotential approximation.
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