How to Install and Uninstall ga-openmpi.x86_64 Package on Fedora 38
Last updated: November 30,2024
1. Install "ga-openmpi.x86_64" package
Please follow the step by step instructions below to install ga-openmpi.x86_64 on Fedora 38
$
sudo dnf update
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$
sudo dnf install
ga-openmpi.x86_64
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2. Uninstall "ga-openmpi.x86_64" package
Learn how to uninstall ga-openmpi.x86_64 on Fedora 38:
$
sudo dnf remove
ga-openmpi.x86_64
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$
sudo dnf autoremove
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3. Information about the ga-openmpi.x86_64 package on Fedora 38
Last metadata expiration check: 5:12:11 ago on Sat Mar 16 16:59:57 2024.
Available Packages
Name : ga-openmpi
Version : 5.7.2
Release : 13.fc38
Architecture : x86_64
Size : 445 k
Source : ga-5.7.2-13.fc38.src.rpm
Repository : fedora
Summary : Global Arrays Toolkit for OpenMPI
URL : http://github.com/GlobalArrays/ga
License : BSD
Description :
: The Global Arrays (GA) toolkit provides an efficient and portable
: "shared-memory" programming interface for distributed-memory
: computers. Each process in a MIMD parallel program can asynchronously
: access logical blocks of physically distributed dense multi-
: dimensional arrays, without need for explicit cooperation by other
: processes. Unlike other shared-memory environments, the GA model
: exposes to the programmer the non-uniform memory access (NUMA)
: characteristics of the high performance computers and acknowledges
: that access to a remote portion of the shared data is slower than to
: the local portion. The locality information for the shared data is
: available, and a direct access to the local portions of shared data
: is provided.
: - Libraries against OpenMPI.
Available Packages
Name : ga-openmpi
Version : 5.7.2
Release : 13.fc38
Architecture : x86_64
Size : 445 k
Source : ga-5.7.2-13.fc38.src.rpm
Repository : fedora
Summary : Global Arrays Toolkit for OpenMPI
URL : http://github.com/GlobalArrays/ga
License : BSD
Description :
: The Global Arrays (GA) toolkit provides an efficient and portable
: "shared-memory" programming interface for distributed-memory
: computers. Each process in a MIMD parallel program can asynchronously
: access logical blocks of physically distributed dense multi-
: dimensional arrays, without need for explicit cooperation by other
: processes. Unlike other shared-memory environments, the GA model
: exposes to the programmer the non-uniform memory access (NUMA)
: characteristics of the high performance computers and acknowledges
: that access to a remote portion of the shared data is slower than to
: the local portion. The locality information for the shared data is
: available, and a direct access to the local portions of shared data
: is provided.
: - Libraries against OpenMPI.