Automic VaultAutomic Vault

brew

Installer open-mpi avec Homebrew, apt, MacPorts

Consultez les chemins d'installation, exécutables, métadonnées et notes de sécurité de open-mpi pour les workflows d'agents IA.

installation

Commandes d'installation supplémentaires

macOS

Homebrewvérifié · 100%
brew install open-mpi

local Homebrew formula metadata

MacPortsvérifié · 94%
sudo port install pcc

MacPorts ports tree · lang/pcc/Portfile · Source: api.github.com

Linux

Debian aptvérifié · 92%
sudo apt install pcc

Debian stable package indexes · pcc · Source: deb.debian.org

aperçu

Résumé du paquet

High performance message passing library

Commandes et alias

  • mpiCC
  • mpic++
  • mpicc
  • mpicxx
  • mpiexec
  • mpif77
  • mpif90
  • mpifort
  • mpirun
  • ompi_info
  • opal_wrapper
  • oshrun
  • pcc
  • prte
  • prte-term
  • prte_info
  • prted
  • prterun
  • prun

historique

Historique du projet et usages

Open MPI is a production-grade, open-source implementation of the Message Passing Interface specification used for parallel and distributed computing. It matters because MPI remains one of the basic portability layers for HPC applications, and Open MPI packages the compiler wrappers, launchers, runtime services, and transport components that make MPI jobs practical on clusters and workstations.

Historique du projet

The project was formed as a consolidation of earlier MPI implementations rather than as a small single-codebase fork. The Open MPI documentation names LAM/MPI, LA-MPI, and FT-MPI as the three prior implementations merged into Open MPI, with the University of Stuttgart team joining through FT-MPI work in late 2004; the project FAQ also describes PACX-MPI contributions as part of the initial technology base.

That origin shaped the project's design goals: a clean new implementation, peer review, vendor and researcher participation, and a component architecture that lets network, scheduler, and platform support evolve without forcing every downstream user to fork the whole MPI stack.

Historique d'adoption

Open MPI grew into one of the standard MPI choices for Linux, macOS, BSD, and HPC software stacks because it provided a permissively licensed implementation with active involvement from academic labs, vendors, and users. The project's own FAQ emphasizes third-party components and commercial or closed-source plugin compatibility as intentional collaboration mechanisms.

Package managers expose Open MPI not only as a library but as a toolchain surface: Homebrew installs compiler wrappers such as mpicc and mpicxx alongside launch commands such as mpirun and mpiexec. That packaging model reflects how developers encounter MPI in practice: by compiling code through wrappers that inject the right headers, libraries, and runtime settings.

Modes d'utilisation

Developers use Open MPI to build MPI programs with wrapper compilers, launch multi-process jobs, inspect runtime configuration with ompi_info, and integrate jobs with cluster networking and process managers. Operators care about the runtime's transport and component selection because MPI performance depends heavily on the fabric, scheduler, host layout, and collective-communication choices.

On a laptop or CI machine Open MPI is often used to test parallel code paths at small process counts. On clusters it becomes part of the site software stack, where application teams expect stable mpirun/mpiexec behavior and admins tune the runtime for the interconnect and batch system.

Pourquoi les passionnés de paquets s'y intéressent

Open MPI is package-nerd interesting because a formula is not just shipping a library: it ships a parallel-programming ABI, compiler wrappers, launchers, runtime daemons, Fortran/C/C++ surfaces, and configuration files. Small packaging changes can affect build reproducibility, linked MPI ABI compatibility, and runtime behavior across many scientific applications.

Its history also explains why it has many moving parts. The project's component model and merger lineage were a deliberate answer to duplicated MPI implementation work, so packagers inherit a system designed to absorb many platforms and hardware transports behind one familiar MPI interface.

Chronologie

  • 1994: MPI-1.0 was published by the MPI Forum, establishing the standard API family that Open MPI implements.
  • Late 2004: the University of Stuttgart team became effectively part of the Open MPI effort through FT-MPI work, according to Open MPI's history page.
  • After version 1.0: the project expanded beyond the founding implementation teams to broader contributor participation, according to the Open MPI FAQ.
  • 2026-06-13: the Open MPI FAQ page used for this enrichment was last modified by the project.

Related projects

  • LAM/MPI, LA-MPI, FT-MPI, and PACX-MPI are the important historical parents of Open MPI.
  • The MPI Forum is the standards body whose MPI specifications define the programming model Open MPI implements.

posture de sécurité

Niveau de risque : vert

library-like package without higher-risk signals.

Classificateur de risque

risque vert · confiance faible · appliance

Pourquoi

  • library-like package without higher-risk signals

Signaux

  • metadata:library-like

Comportement d'installation

  • Aucun hook post-install Homebrew n’est enregistré dans les métadonnées de formule.
  • Les métadonnées de bottle Homebrew sont disponibles pour 6 plateformes.
  • S’installe avec 5 dépendances d’exécution.

Revue recommandée

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.

local files

Configuration and credential file locations

These source-backed paths show where this package keeps local settings or durable credentials. Automic Vault can use them as review targets for secret scanning, migration, and command approval.

Configuration files

Config paths the tool may read or write during local use.

Unix
~/.openmpi/mca-params.conf$prefix/etc/openmpi-mca-params.conf

exécutables

Exécutables installés

CommandeTypeExpositionNote
mpiCCcliexécutable global
mpic++cliexécutable global
mpicccliexécutable global
mpicxxcliexécutable global
mpiexeccliexécutable global
mpif77cliexécutable global
mpif90cliexécutable global
mpifortcliexécutable global
mpiruncliexécutable global
ompi_infocliexécutable global
opal_wrappercliexécutable global
oshruncliexécutable global
pcccliexécutable global
prtecliexécutable global
prte-termcliexécutable global
prte_infocliexécutable global
prtedcliexécutable global
prteruncliexécutable global
pruncliexécutable global

fraîcheur

Version et 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.

page générée2026-07-10
version du gestionnaire5.0.9
gestionnaire mis à jour2026-07-03
données localesOK
amontnot checked
dernière version détectéenon détecté

https://www.open-mpi.org/

métadonnées d'installation

Métadonnées du paquet

Clé du paquetbrew:open-mpi
Version5.0.9
Gestionnaire de paquetsHomebrew
Page du gestionnaire de paquetshttps://formulae.brew.sh/formula/open-mpi
Page d'accueilhttps://www.open-mpi.org/
Dépôthttps://github.com/open-mpi/ompi
Docs amonthttps://docs.open-mpi.org/
LicenceBSD-3-Clause-Open-MPI AND mpich2
Archive sourcehttps://download.open-mpi.org/release/open-mpi/v5.0/openmpi-5.0.9.tar.bz2
Dernière mise à jour2026-07-03T04:00:01Z
Pulseupdated
Dépendancesgcc, hwloc, libevent, pmix, prrte
Bouteilledisponible (sur arm64_linux, arm64_sequoia, arm64_sonoma, arm64_tahoe, sonoma, x86_64_linux)
post-install Homebrewnon défini
Serviceaucun déclaré

faits du registre

Détails de la base source

Source DatabaseHomebrew formula API
Taphomebrew/core
Full Nameopen-mpi
Aliases
  • openmpi
Version Scheme0
Revision0
Head VersionHEAD
Conflicts With
  • mpich
Bottle Stable Root URLhttps://ghcr.io/v2/homebrew/core
Deprecatedno
Disabledno
Keg Onlyno
URL Keys
  • head
  • stable

correspondances dans les bases sources

Autres enregistrements de gestionnaires de paquets

Les correspondances proviennent d’index externes de gestionnaires de paquets et restent séparées des liens de paquets Automic Vault locaux.

MacPorts94%

pcc

sudo port install pcc
  • installed executable or alias match
  • Correspondance par : Pcc
MacPorts ports tree · api.github.com · MacPorts ports tree: lang/pcc/Portfile from https://api.github.com/repos/macports/macports-ports/git/trees/master?recursive=1
Debian apt92%

pcc 1.2.0~DEVEL+20220331-1

Portable C Compiler

http://pcc.ludd.ltu.se/

sudo apt install pcc
  • Section: devel
  • Architecture: amd64
  • 2 Dépendances
  • 1 fournit
  • installed executable or alias match
  • Correspondance par : Pcc
Debian stable package indexes · deb.debian.org · Debian stable package indexes: pcc from https://deb.debian.org/debian/dists/stable/main/binary-amd64/Packages.xz
Ubuntu apt92%

pcc 1.2.0~DEVEL+20220331-1

Portable C Compiler

http://pcc.ludd.ltu.se/

sudo apt install pcc
  • Section: universe/devel
  • Architecture: amd64
  • 2 Dépendances
  • 1 fournit
  • installed executable or alias match
  • Correspondance par : Pcc
Ubuntu 24.04 LTS package indexes · archive.ubuntu.com · Ubuntu 24.04 LTS package indexes: pcc from https://archive.ubuntu.com/ubuntu/dists/noble/universe/binary-amd64/Packages.gz

piste source

Généré depuis les données du dépôt

Cette page est servie par av-web depuis l'artéfact SQLite privé des paquets généré par scripts/generate-pkg-sqlite.py.

Sources utilisées

  • Geiger risk classifier
  • Nucleus package database
  • av.db category and tag curation
  • cross-ecosystem install command graph
  • curated configuration and credential file locations
  • curated package history
  • external package-manager database matches
  • package relationship graph
  • package version freshness
  • package-page enrichment