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Weather Research and Forecasting Model - http://wrf-model.org/
Fortran 95 code for real-time weather forecasts. |
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MM5 Community Model - http://box.mmm.ucar.edu/mm5/
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. |
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Goddard Institute of Space Studies - http://www.giss.nasa.gov/tools/
Code for climate modeling, radiation, and astrophysics. |
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http://www.abinit.org/ - http://www.abinit.org/
Finds the total energy, charge density, and electronic structure of systems made of electrons and nuclei, using pseudopotentials and a plane-wave basis. |
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Community Climate System Model (CCSM) - http://www.ccsm.ucar.edu/index.html
Fortran 90 code for climate modelling. |
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Vienna Ab-Initio Simulation Package (VASP) - http://cms.mpi.univie.ac.at/vasp/
Performs ab-initio quantum-mechanical molecular dynamics (MD) using pseudopotentials and a plane wave basis set. The approach implemented in VAMP/VASP is based on a finite-temperature local-density approximation (with the free energy as variational quantity) and an exact evaluation of the instantaneous electronic ground state at each MD-step using efficient matrix diagonalization schemes and an efficient Pulay mixing. |
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CERN Program Library - http://cernlib.web.cern.ch/cernlib/
Large collection of general purpose libraries and modules in Fortran and C developed at CERN, oriented towards the needs of a physics research laboratory: general mathematics, data analysis, and detector simulation. |
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Linear Muffin-Tin Orbital (LMTO) programs - http://www.fkf.mpg.de/andersen/
Electronic structure codes of Ole Anderson's group. |
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http://www.tddft.org/programs/octopus/ - http://www.tddft.org/programs/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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ASC Center for Astrophysical Thermonuclear Flashes - http://flash.uchicago.edu/website/home/
Simulator code for solving nuclear astrophysical problems related to exploding stars. This website contains information about the astrophysics, the code, and related basic physics and computer science efforts. |
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CP2K: Atomistic Simulations - http://cp2k.berlios.de/
Fortran 95 modules to do atomistic and molecular simulations of solid state, liquid, molecular and biological systems. The methods included range from first principles ab initio density functional methods to parametrised, classical pair- and many-body potentials. |
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Neural F2 - http://sophia.ecm.ub.es/f2neural/
Code for a neural network parametrization of deep-inelastic proton, deuteron and non-singlet structure functions. |
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Parton Distribution Functions (High Energy Physics) - http://durpdg.dur.ac.uk/HEPDATA/PDF
Code for CTEQ, GRV, MRS, and ALEKHIN distributions. |
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http://www.tcm.phy.cam.ac.uk/castep/ - http://www.tcm.phy.cam.ac.uk/castep/
Fortran 90 code using density functional theory to provide a good atomic-level description of all manner of materials and molecules. Castep can give information about total energies, forces and stresses on an atomic system, as well as calculating optimum geometries, band structures, and optical spectra. It can also perform molecular dynamics simulations. |
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Astronomical Image Processing System (AIPS) - http://www.aoc.nrao.edu/aips/
Software package for calibration, data analysis, image display, plotting, and a variety of ancillary tasks on astronomical data. |
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Plane-Wave Self-Consistent Field (PWscf) - http://www.pwscf.org/
Programs for electronic structure calculations within Density-Functional Theory and Density-Functional Perturbation Theory, using a Plane-Wave basis set and pseudopotentials. PWscf is released under the GNU General Public License. |
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Single Crystal and Powder Diffraction - http://www.ccp14.ac.uk/mirror/mirror.htm
Many Fortran codes -- search for "fortran" on site. |
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http://www.atm.ch.cam.ac.uk/acmsu/asad/index.html - http://www.atm.ch.cam.ac.uk/acmsu/asad/index.html
Package for creating and integrating chemistry schemes in atmospheric models without the need to write any Fortran code to solve the chemical rate equations. Developed by Dr. Glenn Carver and Dr. Paul Brown (assisted by Dr. Oliver Wild) of the Centre for Atmospheric Science, Cambridge University, UK. |
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NCEP Regional Spectral Model - http://www.emc.ncep.noaa.gov/mmb/RSM/
Limited-area atmospheric model using spectral method for computation, written in Fortran 77. |
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Trace gas, aerosol, cloud and climate modelers code - http://www.ess.uci.edu/~zender/
By Charlie Zender, professor of Earth System Science. |
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Visualization: Understanding Science - http://exodus.physics.ucla.edu/vizexhibit/Mainpage.html
Exhibit on visualization of concepts from high school physics. The scientific data is generated on a UNIX workstation by a Fortran 90 program (provided at the site) and then exported to an Apple Macintosh. |
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General Utility Lattice Program (GULP) - http://www.ivec.org/GULP/
Performs a variety of types of simulation on 3D periodic solids, gas phase clusters and isolated defects in a bulk material. In particular GULP is designed to handle both molecular solids and ionic materials through the use of the shell model. One difference between GULP and other similar programs is that symmetry is used for solids to accelerate the calculations and to simplify the input. Freely available to academics only. |
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Atmosphere Model Code - http://aom.giss.nasa.gov/code4x3.html
Written in Fortran 90. |
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Astrophysics codes - http://zuserver2.star.ucl.ac.uk/~rhdt/download/
BRUCE and KYLIE are Fortran 77 codes by Rich Townsend which calculate synthetic spectra for stars undergoing non-radial pulsation (NRP). TLUSTY and SYNSPEC are Fortran 77 codes by Ivan Hubeny and Thierry Lanz for calculating synthetic plane-parallel stellar atmospheres and associated spectra, respectively. |
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Tight-Binding Molecular Dynamics - http://cst-www.nrl.navy.mil/bind/dodtb/index.html
Developed under the auspices of the Department of Defense High Performance Computing Modernization Program. |
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Surface Meteorology Data Center (COARE-MET) - http://www.coaps.fsu.edu/COARE/
Codes to calculate bulk fluxes for the Coupled Ocean Atmosphere Response Experiment. |
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PHYSUNITS - http://rain.aos.wisc.edu/%7Egpetty/physunits.html
Fortran 90 code to check Physical Units and Dimensions, by Grant W. Petty, professor of Atmospheric and Oceanic Sciences. |
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http://www-ttp.physik.uni-karlsruhe.de/whizard/ - http://www-ttp.physik.uni-karlsruhe.de/whizard/
Generic Monte-Carlo generator written in Fortran 95 by Wolfgang Kilian for multi-particle processes at high-energy colliders. |
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EXCITING FP-LAPW Code - http://exciting.sourceforge.net/
Full-potential linearised augmented-planewave (FP-LAPW) Fortran 90 code. Written mainly at Karl-Franzens-Universität Graz as a milestone of the EXCITING EU Research and Training Network, the code is designed to be as developer friendly as possible so that new developments in the field of density functional theory (DFT) can be added quickly and reliably. The code is freely available under the GNU General Public License. |
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Flexible Image Transport System (FITS) Library Package - http://www.chara.gsu.edu/~gudehus/fits_library_package.html
Performs various useful functions associated with FITS image files. |
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Astronomy Codes from Cococubed - http://www.cococubed.com/code_pages/codes.shtml
By J.D. Maldonado and F.X. Timmes. |
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Materials Algorithm Project (MAP) - http://www.msm.cam.ac.uk/map/map.html
Links to programs in material science, many in Fortran. |
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Solar Activity & Heliospheric Dynamics - http://www.lcp.nrl.navy.mil/hpcc-ess/
FCTMHD3D solves magnetohydrodynamics problems in three spatial dimensions, using positivity- and monotonicity-preserving FCT techniques in a finite-volume representation. CRUNCH3D-T3D and CRUNCH3D-T3E are high-performance codes for solving the viscoresistive equations of dissipative MHD, using high-fidelity Fourier collocation techniques. LCPFCT2 and MHDFCT2 solve the generalized continuity and hydromagnetic equations of hydrodynamics and MHD in two spatial dimensions, using FCT techniques. |
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http://w3.pppl.gov/degas2/ - http://w3.pppl.gov/degas2/
Monte Carlo code for studying neutral transport in plasmas, with emphasis on fusion applications. |
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Bergen Ocean Model (BOM) - http://math.uib.no/BOM/
Fortran 90 code incorporating modern numerical techniques into ocean modeling. Code and documentation can be obtained from the site. |
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SPHEREPACK 3.1: A Model Development Facility - http://www.cisl.ucar.edu/css/software/spherepack/
Collection of Fortran programs to facilitate computer modeling of geophysical processes. The package contains programs for computing certain common differential operators, including divergence, vorticity, gradients, and the Laplacian of both scalar and vector functions. |
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Nucleon-Nucleon Potential Models - http://nn-online.org/code/nn/
Fortran 77, 90, and C codes. |
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TfMin: Minimum time orbit transfer - http://apo.enseeiht.fr/tfmin/
A Fortran and MATLAB package designed for the numerical solution of continuous 3D minimum time orbit transfer around the Earth. |
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Karlsruhe Optimized and Precise Radiative transfer Algorithm (KOPRA) - http://www-imk.fzk.de/asf/ame/publications/kopra_docu/
Fortran 90 code for atmospheric radiative transfer modelling in the mid-infrared spectral range. |
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Car-Parrinello Molecular Dynamics (CPMD) - http://www.cpmd.org/cpmd.html
Plane wave/pseudopotential implementation of Density Functional Theory, particularly designed for ab-initio molecular dynamics. Its first version was developed by Jurg Hutter at IBM Zurich Research Laboratory starting from the original Car-Parrinello codes. Free for non-profit organizations. |
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Horizon Technologies - http://www.htess.com/software.htm
Code for properties of fluids, materials, and superconductors. |
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Double-Diffusive Convection Code Using a Pseudo-Spectral Method - http://www.lcv.umd.edu/Files/Download/ddcon2d.html
Fortran 77 code illustrating the use of spectral methods to solve a nontrivial hydrodynamics problem. |
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Atmospherics physics code - http://www.ssec.wisc.edu/~paulv/
Code for a Radiative Transfer Model (RTM), RTM Coefficient Assembly, Infrared Sea Surface Emissivity (IRSSE), EmisCoeff utility, Emissivity utility, Planck functions, Profile utility, SensorInfo utility, SpcCoeff utility, and SRF utility. |
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Quantum Monte Carlo - http://www.physics.rutgers.edu/~udo/qmc.html
Uses the Hirsch-Fye algorithm, implements methods in the paper "Dynamical Mean-Field Theory of Strongly Correlated Fermion Systems". |
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Radiative Corrections Helpdesk - http://www.jlab.org/RC/
Programs to compute radiative corrections in inclusive, semiexclusive and exclusive electron scattering. |
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Parameterized Ionospheric Model (PIM) - http://www.cpi.com/products/pim/pim.html
Fast global ionospheric and plasmaspheric model based on a combination of the parameterized output of several regional theoretical ionosphere models and an empirical plasmaspheric model. |
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http://sourceforge.net/projects/typhon - http://sourceforge.net/projects/typhon
Computational Fluid Dynamics solver aimed to solve multi-physics problems with unstructured finite volume methods will be able to use dynamical refinement and MPI-based parallel processing (Fortran-90-based, uses BLAS, LAPACK, CGNS libraries). |
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http://www.sr.bham.ac.uk/asterix-docs/Programmer/Source/classified.html - http://www.sr.bham.ac.uk/asterix-docs/Programmer/Source/classified.html
Astronomy codes. |
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CÆSAR Code Package - http://www.lanl.gov/Caesar/
Computational physics development environment written in Fortran 90. It provides an environment where the physics of real systems can be modeled, by discretizing a set of partial differential equations on a mesh and solving the resultant algebraic system. |
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http://www.hep.uiuc.edu/home/catutza/root_to_jetnet/jetnet34.f - http://www.hep.uiuc.edu/home/catutza/root_to_jetnet/jetnet34.f
Neural Network program for jet discrimination and other High Energy Physics triggering situations, by Leif Lonnblad, Carsten Peterson, Hong Pi, and Thorsteinn Rognvaldsson. |
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OceanModel NetCDF Tools - http://sourceforge.net/projects/oceanmodelfiles
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. |
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Delta Code - http://sourceforge.net/projects/deltasolver
Nonlinear aeroelastic solver written in Fortran 90. At the moment only vortex lattice aerodynamics are available, but the hope is for a higher fidelity aerodynamic model to be developed for use in the current code. |
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Computational Quantum Dynamics - http://www.iitaka.org/programs/quantum/
Fortran 77 programs by Toshiaki Iitaka. |
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http://sourceforge.net/projects/freesrs - http://sourceforge.net/projects/freesrs
Library of Fortran and Python code to calculate the shock response spectrum. |
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Versatile Advection Code (VAC) - http://www.phys.uu.nl/~toth/
A general software package in Perl and Fortran 90 for hydro- and magnetohydrodynamics. Developed as part of the Massively Parallel Programming, Computational Magneto-Fluid Dynamics project. |
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La-Grange.Net - http://www.la-grange.net/astro/vr.html
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. |
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Hypoinverse2000 - ftp://clover.wr.usgs.gov/pub/ehz/klein/hyp2000/
Determines earthquake locations and magnitudes from seismic network data like first-arrival P and S arrival times, amplitudes and coda durations. |
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Computer Simulation of Liquids - ftp://ftp.dl.ac.uk/ccp5/ALLEN_TILDESLEY
Fortran code from the book by M.P. Allen and D. Tildesley. |
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Treecodes - http://chaos.swarthmore.edu/research/Parallel/
Fortran 90 code by Daniel Reinganum program to evolve a self-gravitating N-body system, using a hierarchical O(N log N) algorithm to compute gravitational forces. |
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http://www2.cs.uh.edu/~johnsson/heap.html - http://www2.cs.uh.edu/~johnsson/heap.html
Fortran 90 and High Performance Fortran code implementing nonadaptive and adaptive O(N) hierarchical N-body methods in 3-D for gravitational and electrostatic fields. |
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Soft Matter Simulations - http://www.lce.hut.fi/research/polymer/softsimu2002/software.shtml
Codes from research presented at a conference on the subject. |
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World Ocean Circulation Experiment - http://www.coaps.fsu.edu/woce/html/wcdtools.htm
Code to read NetCDF, convert the minute timestamp from ship data provided by WOCE-MET back into a standard year/month/day/hour/minute time, convert a standard year/month/day/hour/minute time into the minute timestamp from ship data provided by WOCE-MET, and compute meteorological true winds. |
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Particle Physics - http://www.physics.orst.edu/~rubin/codes/
LPOTT: Pion-Nucleus Scattering; PiN: Chiral Color Dielectric Quark Model for pi-Nucleon Interactions; and LPOTp: Polarized Proton Scattering from Polarized Nuclei, in Parallel, by Rubin Landau |
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Gastropod IR RT operator - http://sourceforge.net/projects/gastro
Fortran 90 library of forward and gradient routines for fast radiative transfer calculations for high spectral resolution infrared satellite sounders. |