How to Install and Uninstall mpsolve-doc.noarch Package on Fedora 39
Last updated: November 24,2024
1. Install "mpsolve-doc.noarch" package
Please follow the guidance below to install mpsolve-doc.noarch on Fedora 39
$
sudo dnf update
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$
sudo dnf install
mpsolve-doc.noarch
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2. Uninstall "mpsolve-doc.noarch" package
Please follow the steps below to uninstall mpsolve-doc.noarch on Fedora 39:
$
sudo dnf remove
mpsolve-doc.noarch
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$
sudo dnf autoremove
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3. Information about the mpsolve-doc.noarch package on Fedora 39
Last metadata expiration check: 0:01:51 ago on Thu Mar 7 11:44:58 2024.
Available Packages
Name : mpsolve-doc
Version : 3.2.1
Release : 18.fc39
Architecture : noarch
Size : 675 k
Source : mpsolve-3.2.1-18.fc39.src.rpm
Repository : fedora
Summary : Developer documentation for mpsolve
URL : https://numpi.dm.unipi.it/software/mpsolve
License : GPL-3.0-or-later
Description : MPSolve stands for Multiprecision Polynomial SOLVEr. It aims to provide
: an easy to use universal blackbox for solving polynomials and secular
: equations.
:
: Its features include:
: - Arbitrary precision approximation.
: - Guaranteed inclusion radii for the results.
: - Exploiting of polynomial structures: it can take advantage of sparsity
: as well as coefficients in a particular domain (i.e. integers or
: rationals).
: - It can be specialized for specific classes of polynomials. As an
: example, the roots of the Mandelbrot polynomial of degree 2,097,151
: were computed in about 10 days on a dual Xeon server.
:
: This package contains developer documentation for mpsolve.
Available Packages
Name : mpsolve-doc
Version : 3.2.1
Release : 18.fc39
Architecture : noarch
Size : 675 k
Source : mpsolve-3.2.1-18.fc39.src.rpm
Repository : fedora
Summary : Developer documentation for mpsolve
URL : https://numpi.dm.unipi.it/software/mpsolve
License : GPL-3.0-or-later
Description : MPSolve stands for Multiprecision Polynomial SOLVEr. It aims to provide
: an easy to use universal blackbox for solving polynomials and secular
: equations.
:
: Its features include:
: - Arbitrary precision approximation.
: - Guaranteed inclusion radii for the results.
: - Exploiting of polynomial structures: it can take advantage of sparsity
: as well as coefficients in a particular domain (i.e. integers or
: rationals).
: - It can be specialized for specific classes of polynomials. As an
: example, the roots of the Mandelbrot polynomial of degree 2,097,151
: were computed in about 10 days on a dual Xeon server.
:
: This package contains developer documentation for mpsolve.
4. References on Fedora 39
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