How to Install and Uninstall openspecfun.x86_64 Package on Fedora 35
Last updated: November 24,2024
1. Install "openspecfun.x86_64" package
Please follow the step by step instructions below to install openspecfun.x86_64 on Fedora 35
$
sudo dnf update
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$
sudo dnf install
openspecfun.x86_64
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2. Uninstall "openspecfun.x86_64" package
This guide let you learn how to uninstall openspecfun.x86_64 on Fedora 35:
$
sudo dnf remove
openspecfun.x86_64
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$
sudo dnf autoremove
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3. Information about the openspecfun.x86_64 package on Fedora 35
Last metadata expiration check: 4:29:29 ago on Wed Sep 7 08:25:01 2022.
Available Packages
Name : openspecfun
Version : 0.5.3
Release : 14.fc35
Architecture : x86_64
Size : 89 k
Source : openspecfun-0.5.3-14.fc35.src.rpm
Repository : fedora
Summary : Library providing a collection of special mathematical functions
URL : https://github.com/JuliaLang/openspecfun
License : MIT and Public Domain
Description : Currently provides AMOS and Faddeeva. AMOS (from Netlib) is a
: portable package for Bessel Functions of a Complex Argument and
: Nonnegative Order; it contains subroutines for computing Bessel
: functions and Airy functions. Faddeeva allows computing the
: various error functions of arbitrary complex arguments (Faddeeva
: function, error function, complementary error function, scaled
: complementary error function, imaginary error function, and Dawson function);
: given these, one can also easily compute Voigt functions, Fresnel integrals,
: and similar related functions as well.
Available Packages
Name : openspecfun
Version : 0.5.3
Release : 14.fc35
Architecture : x86_64
Size : 89 k
Source : openspecfun-0.5.3-14.fc35.src.rpm
Repository : fedora
Summary : Library providing a collection of special mathematical functions
URL : https://github.com/JuliaLang/openspecfun
License : MIT and Public Domain
Description : Currently provides AMOS and Faddeeva. AMOS (from Netlib) is a
: portable package for Bessel Functions of a Complex Argument and
: Nonnegative Order; it contains subroutines for computing Bessel
: functions and Airy functions. Faddeeva allows computing the
: various error functions of arbitrary complex arguments (Faddeeva
: function, error function, complementary error function, scaled
: complementary error function, imaginary error function, and Dawson function);
: given these, one can also easily compute Voigt functions, Fresnel integrals,
: and similar related functions as well.