A small Fortran synthesizer to explore sound synthesis, sound effects, electronic music, algorithmic music, etc. Humbly follow the steps of Stockhausen, Kraftwerk and the Daft Punk!
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Updated
May 14, 2024 - Fortran
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.
A small Fortran synthesizer to explore sound synthesis, sound effects, electronic music, algorithmic music, etc. Humbly follow the steps of Stockhausen, Kraftwerk and the Daft Punk!
code_saturne public mirror
Thermodynamic Equations of State, Fortran library with both automatic and anallytical derivation capabilities
Fortran interface for DLA-Future
Domain-specific compiler and code transformation system for Finite Difference/Volume/Element Earth-system models in Fortran
Machine Learning Algorithms in Fortran
Official main repository for LFortran
UMAT for ABAQUS using 3D Hashin Based Orthotropic Damage Model
This code deals with incompressible fluids and implements the collocated grid MAC method using a uniform cartesian grid. It discretizes space using second-order central differencing and time using a first-order explicit Euler method. For pressure calculation, it implements the Red-Black SOR method.
High-performance Flux Transport
Abaqus/Standard user element subroutine (UEL) for hyperelastic materials in total Lagrangian framework using standard displacement formulation.
Abaqus/Standard user element subroutine (UEL) for small strain isotropic linear elastostatics using standard displacement formulation.
Phantom Smoothed Particle Hydrodynamics and Magnetohydrodynamics code
past, present, and probably future work on advent of code puzzles and prompts
Exascale multiphase flow simulation
Created by John W. Backus
Released April 1957