F

fortran

Seyong/Don Sinclair's NRQCD Code. Non-relativistic QCD propagator and correlator code for bottomonium.

Standalone aMC development repository, submodule'd to MESSy & caaba-mecca repositories (mirror)

MCODAC is a Fortran library for the numerical evaluation of fiber composite damage. The library contains analysis methods specifically tailored to fiber composites, from micromechanical homogenization approaches to macroscopic fatigue models of orthotropic multilayer composites.

Landau-Wang algorithm implementation for the study of the 2D q-state Potts model.

A small working example of implementing deferred overrides for an abstract type in Fortran.

Wiring up fprettify into emacs for easy Fortran formatting.

Some library code by Arjen Markus, Michael Baudin, and Arjan van Dijk, copied from SourceForge.

A recovered copy of a Fortran dependency analyzer for older Fortran programs creating GNU Make.

Displam is a legacy Fortran tool for the calculation of the phase velocity of Lamb waves in plate composite structures.

Beos is a legacy Fortran tool used to calculate the static and dynamic buckling behavior of flat/curved fiber composite structures.

Boxbeam is a legacy Fortran tool translated to python. It calculates effective beam properties of composite cross sections comprised of rod-like elements.

This Beta Repo contains unsupported, preliminary code that builds off the official USGS repository: https://code.usgs.gov/modflow/mf-owhm

All files and commits in this repository are preliminary and have no warranty or support.

Current Beta Downloads:

Beta mf-owhm.exe

Full Beta Download

The readme.md and most of the markdown documents are unmodified from the original respository. Only source code modified and the compiled binaries reflect that code.

The version number should be included in the commit name, something like v2.3.X-bY where X is the current USGS patch number from their official page and Y is the current beta version that builds off of the patch.

For source development, commits are stable in the develop branch, but the beta branch is rebased/squashed to remove the old executable each time a new one is made (no permanent storage of unsupported releases).

This project contains a simulation script based on LMGC90, a finite element and discrete element solver developed by LMGC (Montpellier, France). It is designed to model the solidification behavior of volcanic-like materials using cohesive zone models.

Implementation of the Jacobi, Householder and Lanczos-Davidson symmetric matrix diagonalization methods.

The project provides two LCAO-based Fortran codes for evaluating the electronic energies of the H2+ ion using either 1s STOs or their STO–NG Gaussian expansions. Together, they allow exploration of basis-set effects, potential energy surfaces, and electron density along the internuclear axis.

A Fortran program that performs a Monte Carlo simulation to study the interaction and equilibrium behavior of two water molecules using atomistic potentials and periodic boundary conditions.