This is a set of simple programs that can be used to explore the features of a parallel platform.
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Updated
Apr 15, 2024 - C
Fortran is a statically typed compiled programming language that is especially suited to numeric computation, and scientific computing.
While Fortran has been in use since its inception by John Backus at IBM in 1957, it still remains popular today, especially for computationally intensive
applications including numerical weather prediction, finite element analysis, computational fluid dynamics, computational physics, crystallography, and
computational chemistry. Despite its age, new language revisions include syntax and semantics for modern language ideas including pointers, recursion,
object orientated programming features, and parallel programming using Coarray Fortran.
This is a set of simple programs that can be used to explore the features of a parallel platform.
ogpf is Object based interface to GnuPlot from Fortran 2003, 2008 and later
RAM-SCB is a unique code that combines a kinetic model of ring current plasma with a three dimensional force-balanced model of the terrestrial magnetic field to simulate Earth's inner magnetosphere.
Material related to the PRACE MOOC on Fortran programming
ListLBM is a sparse lattice Boltzmann solver for multiphase flow in porous media
A dynamical core for solving geophysical fluid equations on the sphere with conservative finite difference methods
A modern Fortran abstraction layer for OpenCL
This repository contains some container data structure types for Fortran.
Petaca: A collection of foundational Fortran modules
A Fortran implementation of radial basis function (RBF)
Library of Polynomials for the Thermodynamic Properties of Steam according to IAPWS-IF97
Code Blocks color theme for Fortran language
The Berkeley Lab Flang team develops tests for the LLVM-Project Flang Fortran compiler. Because of the paramount importance of parallelism in high-performance computing, we are focusing on Fortran’s parallel features, commonly denoted "Coarray Fortran."
A Fortran implementation of KD-Tree searching
Fortran static analysis tool written in pure Python
Modern Fortran syntax highlighting for Sublime Text 3/4
Simulate general non-equilibrium superconductor/ferromagnet systems via the Usadel diffusion equation
Created by John W. Backus
Released April 1957