How to Install and Uninstall code-saturne-doc Package on Ubuntu 20.10 (Groovy Gorilla)

Last updated: December 23,2024

1. Install "code-saturne-doc" package

This guide covers the steps necessary to install code-saturne-doc on Ubuntu 20.10 (Groovy Gorilla)

$ sudo apt update $ sudo apt install code-saturne-doc

2. Uninstall "code-saturne-doc" package

In this section, we are going to explain the necessary steps to uninstall code-saturne-doc on Ubuntu 20.10 (Groovy Gorilla):

$ sudo apt remove code-saturne-doc $ sudo apt autoclean && sudo apt autoremove

3. Information about the code-saturne-doc package on Ubuntu 20.10 (Groovy Gorilla)

Package: code-saturne-doc
Architecture: all
Version: 6.0.2-2build1
Priority: optional
Section: universe/doc
Source: code-saturne
Origin: Ubuntu
Maintainer: Ubuntu Developers
Original-Maintainer: Debian Science Team
Bugs: https://bugs.launchpad.net/ubuntu/+filebug
Installed-Size: 222483
Filename: pool/universe/c/code-saturne/code-saturne-doc_6.0.2-2build1_all.deb
Size: 144596196
MD5sum: 7fd936aad5b27828369bc717c6459ea7
SHA1: 917646970bf7d456a230410b213eb75e53c18e79
SHA256: 7691f51e4e48286fc91d7beb9a56bee4eb9f1a99c7bbc2bea746bcc45f04ab38
SHA512: bbb9ba5b90d9861760f3df886744478784df0f6ad3c2b8ed854090b38af2c06f2bc8048619812c593e49d1c8df059e0c21aeb9edbaed78e0d25f3f5cb203cb91
Homepage: http://www.code-saturne.org/
Description-en: General purpose Computational Fluid Dynamics (CFD) software - Documentation
The basic capabilities of Code_Saturne enable the handling of either
incompressible or expandable flows with or without heat transfer and
turbulence. Dedicated modules are available for specific physics such
as radiative heat transfer, combustion (gas, coal, heavy fuel oil, ...),
magneto-hydrodynamics, compressible flows, two-phase flows
(Euler-Lagrange approach with two-way coupling), extensions to
specific applications (e.g. Mercure_Saturne for atmospheric
environment).
.
It runs in parallel with MPI on distributed memory machines.
Developed since 1997 at EDF R&D, it is based on a co-located Finite
Volume approach that accepts meshes with any type of cell
(tetrahedral, hexahedral, prismatic, pyramidal, polyhedral...) and any
type of grid structure (unstructured, block structured, hybrid,
conforming or with hanging nodes, ...).
.
This package contains the documentation.
Description-md5: c4958adf62437b0de0c7d54b02ed1120