How to Install and Uninstall openspecfun-devel Package on openSuSE Tumbleweed
Last updated: November 27,2024
1. Install "openspecfun-devel" package
Please follow the guidance below to install openspecfun-devel on openSuSE Tumbleweed
$
sudo zypper refresh
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$
sudo zypper install
openspecfun-devel
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2. Uninstall "openspecfun-devel" package
This tutorial shows how to uninstall openspecfun-devel on openSuSE Tumbleweed:
$
sudo zypper remove
openspecfun-devel
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3. Information about the openspecfun-devel package on openSuSE Tumbleweed
Information for package openspecfun-devel:
------------------------------------------
Repository : openSUSE-Tumbleweed-Oss
Name : openspecfun-devel
Version : 0.5.5-1.4
Arch : x86_64
Vendor : openSUSE
Installed Size : 5.2 KiB
Installed : No
Status : not installed
Source package : openspecfun-0.5.5-1.4.src
Upstream URL : https://github.com/JuliaMath/openspecfun
Summary : A collection of special mathematical functions
Description :
Openspecfun 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.
------------------------------------------
Repository : openSUSE-Tumbleweed-Oss
Name : openspecfun-devel
Version : 0.5.5-1.4
Arch : x86_64
Vendor : openSUSE
Installed Size : 5.2 KiB
Installed : No
Status : not installed
Source package : openspecfun-0.5.5-1.4.src
Upstream URL : https://github.com/JuliaMath/openspecfun
Summary : A collection of special mathematical functions
Description :
Openspecfun 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.