macOS
brew install fftwlocal Homebrew formula metadata
sudo port install fftwMacPorts ports tree · math/fftw/Portfile · Source: api.github.com
brew
Consultez les chemins d'installation, exécutables, métadonnées et notes de sécurité de fftw pour les workflows d'agents IA.
installation
brew install fftwlocal Homebrew formula metadata
sudo port install fftwMacPorts ports tree · math/fftw/Portfile · Source: api.github.com
sudo apk add fftwAlpine Linux edge package indexes · fftw · Source: dl-cdn.alpinelinux.org
sudo dnf install fftwFedora Rawhide package metadata · fftw · Source: dl.fedoraproject.org
nix profile install nixpkgs#fftwnixpkgs package indexes · pkgs/by-name/ff/fftw/package.nix · Source: api.github.com
sudo pacman -S fftwArch Linux sync databases · fftw · Source: geo.mirror.pkgbuild.com
sudo apt install fftw-devDebian stable package indexes · fftw-dev · Source: deb.debian.org
aperçu
C routines to compute the Discrete Fourier Transform
historique
FFTW, the Fastest Fourier Transform in the West, is a C library for discrete Fourier transforms of complex, real, multidimensional, and special symmetric data. It is one of the classic free-software numerical libraries because it combines a stable C API with runtime planning that adapts transform algorithms to the host machine.
FFTW was developed at MIT by Matteo Frigo and Steven G. Johnson. The official site frames its goal as a portable free FFT library that can compete with vendor-tuned codes while remaining usable across architectures without application changes.
The early public release line began with FFTW 1.0 in March 1997. The 1998 ICASSP paper described FFTW as an adaptive software architecture for FFTs, and the 1999 PLDI paper described the codelet generator behind its fast generated kernels.
FFTW 3.0 arrived in April 2003 with an API incompatible with FFTW 2.x, trading compatibility for performance and generality. The current manual documents the 3.x planner model: create a plan once, reuse it for repeated transforms, and optionally save planning knowledge as wisdom.
The FFTW3 design paper appeared in Proceedings of the IEEE in 2005 and remains the preferred general reference named by the project. Later 3.3 releases added modern CPU and parallel features, including AVX, ARM Neon, MPI, Fortran 2003 interfaces, AVX2, AVX512, VSX, SVE, LoongArch SIMD, and additional cycle counters.
FFTW is distributed by mainstream Unix package managers, including Homebrew, Debian/Ubuntu, Fedora, Arch, MacPorts, Nix, and Alpine according to the package facts in this batch. Its availability in both operating-system packages and source builds reflects its role as a common dependency for scientific, signal-processing, audio, imaging, and simulation software.
The project also maintains benchFFT results and positions FFTW against other public FFT implementations and vendor libraries. That benchmark culture helped make FFTW a default comparison point for package maintainers deciding whether a package should use a system FFT library or a bundled implementation.
Library users link against FFTW and create plans for one-dimensional, multidimensional, real, complex, DCT/DST, or Hartley transforms. The manual describes basic, advanced, and guru interfaces, with the basic interface intended for most users and guru interfaces for custom layouts and strides.
The Homebrew package also installs command-line utilities such as `fftw-wisdom`, `fftw-wisdom-to-conf`, and precision-specific wisdom helpers. These are package-visible tools around FFTW's planning cache rather than the main reason most software depends on the library.
FFTW matters to package nerds because it sits at the intersection of ABI policy, CPU feature selection, license policy, and performance tuning. Distribution maintainers must choose which SIMD variants to enable, whether to build thread and MPI variants, and how to expose the GPL library to downstream packages.
It is also a canonical example of a library whose best behavior depends on installation choices and local hardware. The upstream release notes even warn distribution maintainers that enabling every SIMD option can increase planning time for little general-purpose benefit.
posture de sécurité
narrow executable package without higher-risk signals.
risque vert · confiance faible · appliance
Avant une utilisation sans surveillance par un agent, vérifiez si l'outil lit des identifiants en clair, écrit un état distant, publie des artefacts ou lance des plugins.
exécutables
| Commande | Type | Exposition | Note |
|---|---|---|---|
fftw-wisdom | cli | exécutable global | |
fftw-wisdom-to-conf | cli | exécutable global | |
fftwf-wisdom | cli | exécutable global | |
fftwl-wisdom | cli | exécutable global |
fraîcheur
Ces signaux séparent l'âge de génération de la page, l'activité du gestionnaire de paquets et la comparaison avec les versions amont. Un retard de version n'est signalé que lorsqu'une URL de preuve et des versions comparables sont présentes.
métadonnées d'installation
| Clé du paquet | brew:fftw |
|---|---|
| Version | 3.3.11 |
| Gestionnaire de paquets | Homebrew |
| Page du gestionnaire de paquets | https://formulae.brew.sh/formula/fftw |
| Page d'accueil | https://fftw.org |
| Dépôt | https://github.com/FFTW/fftw3 |
| Docs amont | https://www.fftw.org/doc |
| Licence | GPL-2.0-or-later AND BSD-2-Clause |
| Archive source | https://fftw.org/fftw-3.3.11.tar.gz |
| Dernière mise à jour | 2026-04-22T13:49:43Z |
| Pulse | updated |
| Dépendances | libomp |
| Dépendances de compilation | open-mpi |
| Bouteille | disponible (sur arm64_linux, arm64_sequoia, arm64_sonoma, arm64_tahoe, sonoma, x86_64_linux) |
| post-install Homebrew | non défini |
| Service | aucun déclaré |
faits du registre
| Source Database | Homebrew formula API |
|---|---|
| Tap | homebrew/core |
| Full Name | fftw |
| Version Scheme | 0 |
| Revision | 0 |
| Bottle Stable Root URL | https://ghcr.io/v2/homebrew/core |
| Deprecated | no |
| Disabled | no |
| Keg Only | no |
| URL Keys |
|
correspondances dans les bases sources
Les correspondances proviennent d’index externes de gestionnaires de paquets et restent séparées des liens de paquets Automic Vault locaux.
fftw-dev 2.1.5-7+b1
library for computing Fast Fourier Transforms
sudo apt install fftw-devfftw-docs 2.1.5-7
documentation for fftw
sudo apt install fftw-docsfftw2 2.1.5-7+b1
library for computing Fast Fourier Transforms
sudo apt install fftw2sfftw-dev 2.1.5-7+b1
library for computing Fast Fourier Transforms
sudo apt install sfftw-devsfftw2 2.1.5-7+b1
library for computing Fast Fourier Transforms
sudo apt install sfftw2fftw
nix profile install nixpkgs#fftwfftw-dev 2.1.5-6build2
library for computing Fast Fourier Transforms
sudo apt install fftw-devfftw-docs 2.1.5-6build2
documentation for fftw
sudo apt install fftw-docsfftw2 2.1.5-6build2
library for computing Fast Fourier Transforms
sudo apt install fftw2sfftw-dev 2.1.5-6build2
library for computing Fast Fourier Transforms
sudo apt install sfftw-devsfftw2 2.1.5-6build2
library for computing Fast Fourier Transforms
sudo apt install sfftw2fftw 3.3.11-r0
Discrete Fourier transform (DFT) library
sudo apk add fftwfftw-dev 3.3.11-r0
Discrete Fourier transform (DFT) library (development files)
sudo apk add fftw-devfftw-doc 3.3.11-r0
Discrete Fourier transform (DFT) library (documentation)
sudo apk add fftw-docfftw-double-libs 3.3.11-r0
Discrete Fourier transform (DFT) library
sudo apk add fftw-double-libsfftw-long-double-libs 3.3.11-r0
Discrete Fourier transform (DFT) library
sudo apk add fftw-long-double-libspiste source
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View the package source record on GitHub.