Comparison of matrix multiplication by line and by column in different programming languages.
-
Updated
May 22, 2013 - 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.
Comparison of matrix multiplication by line and by column in different programming languages.
Automatically exported from code.google.com/p/pyccsm
Fortran 95 postprocessing tool to convert raw, standard WRF regional climate model output (http://www2.mmm.ucar.edu/wrf/users/) to a CORDEX (http://cordex.org) experiment protocol compliant data set ("CMORization") (http://cordex.org/experiment-guidelines/experiment-protocol-rcms/) for exchange via ESGF data nodes (https://www.earthsystemcog.org…
Par4All is an automatic parallelizing and optimizing compiler (workbench) for C and Fortran sequential programs
This is a Diffusion Monte Carlo code written in Fortran 90. The code performs a DMC simulation of a homogeneous system in an arbitrary dimensionality.
A minimal example how to use gcov with fortran
Introduction to modern Fortran by uncommented examples
Collection of test programs for various parallelization paradigms
Bandstructure calculations using the empirical pseudopotential method.
A python script that reads in a fortran 77 (.f or .F) fixed form file and converts it to a free form Fortran 90 file (.f90 or .F90).
Python binding to Fortran QuadProg routines
A repackaging of DFFTPACK providing C/C++ header files and ready to be built using CMake.
Monte Carlo Radiation Transport code for biological tissues.
Created by John W. Backus
Released April 1957