How to Install and Uninstall librheolef-dev Package on Ubuntu 21.04 (Hirsute Hippo)
Last updated: December 23,2024
1. Install "librheolef-dev" package
This is a short guide on how to install librheolef-dev on Ubuntu 21.04 (Hirsute Hippo)
$
sudo apt update
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$
sudo apt install
librheolef-dev
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2. Uninstall "librheolef-dev" package
This guide covers the steps necessary to uninstall librheolef-dev on Ubuntu 21.04 (Hirsute Hippo):
$
sudo apt remove
librheolef-dev
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$
sudo apt autoclean && sudo apt autoremove
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3. Information about the librheolef-dev package on Ubuntu 21.04 (Hirsute Hippo)
Package: librheolef-dev
Architecture: amd64
Version: 7.1-3
Priority: optional
Section: universe/libdevel
Source: rheolef
Origin: Ubuntu
Maintainer: Ubuntu Developers
Original-Maintainer: Debian Science Maintainers
Bugs: https://bugs.launchpad.net/ubuntu/+filebug
Installed-Size: 2192
Depends: librheolef1 (= 7.1-3), g++, make, libboost-dev, libboost-mpi-dev, libboost-iostreams-dev, libcgal-dev, libeigen3-dev, libsuitesparse-dev, liblapack-dev, libscotch-dev, libptscotch-dev, libmumps-scotch-dev, libmumps-ptscotch-dev
Recommends: rheolef-doc (= 7.1-3)
Breaks: rheolef (<< 6.4)
Replaces: rheolef (<< 6.4)
Filename: pool/universe/r/rheolef/librheolef-dev_7.1-3_amd64.deb
Size: 339056
MD5sum: 021d6cdf0e0d23736f27dd35f2faa522
SHA1: 7b0f3ccacb6b501275555c25d3c9c775a51d6914
SHA256: 97859c3dd07a22d0679136344442764d153b54f906068945bbbbdffb5f816039
SHA512: 35e3dd24a11c8f7b7f23690138f68d0755b45f91328486a3c2ee375671d042c34cfa5c46608ec1fcf89b544da1506cee70c7837aa4d363750790d81f60a69f98
Homepage: http://ljk.imag.fr/membres/Pierre.Saramito/rheolef
Description-en: efficient Finite Element environment - development files
Rheolef is a computer environment that serves as a convenient laboratory for
computations in applied mathematics involving finite element-like methods.
It provides a set of commands and C++ algorithms and containers.
.
Most basically, containers cover the classic graph data structure for sparse
matrix formats and finite element meshes. At a higher level of abstraction,
they can handle approximate finite element spaces, discrete fields.
Flexible and powerful expressions are used to specify bilinear forms.
.
Current applications include:
* massively distributed memory finite element environment, based on MPI;
* elasticity, Stokes and Navier-Stokes problems in 2D and 3D;
* complex fluids applications: viscoplasticity, viscoelasticity, wall slip;
* nonlinear problems with fixed-point, Newton and continuation methods;
* high order polynomials, mixed elements and discontinuous Galerkin methods;
* auto-adaptive mesh approaches;
* axisymmetric problems;
* multi-regions and variable coefficient problems.
.
This package provides the headers required for development.
Description-md5: b57cb7ed615e9036ae6ab40459f7f80f
Architecture: amd64
Version: 7.1-3
Priority: optional
Section: universe/libdevel
Source: rheolef
Origin: Ubuntu
Maintainer: Ubuntu Developers
Original-Maintainer: Debian Science Maintainers
Bugs: https://bugs.launchpad.net/ubuntu/+filebug
Installed-Size: 2192
Depends: librheolef1 (= 7.1-3), g++, make, libboost-dev, libboost-mpi-dev, libboost-iostreams-dev, libcgal-dev, libeigen3-dev, libsuitesparse-dev, liblapack-dev, libscotch-dev, libptscotch-dev, libmumps-scotch-dev, libmumps-ptscotch-dev
Recommends: rheolef-doc (= 7.1-3)
Breaks: rheolef (<< 6.4)
Replaces: rheolef (<< 6.4)
Filename: pool/universe/r/rheolef/librheolef-dev_7.1-3_amd64.deb
Size: 339056
MD5sum: 021d6cdf0e0d23736f27dd35f2faa522
SHA1: 7b0f3ccacb6b501275555c25d3c9c775a51d6914
SHA256: 97859c3dd07a22d0679136344442764d153b54f906068945bbbbdffb5f816039
SHA512: 35e3dd24a11c8f7b7f23690138f68d0755b45f91328486a3c2ee375671d042c34cfa5c46608ec1fcf89b544da1506cee70c7837aa4d363750790d81f60a69f98
Homepage: http://ljk.imag.fr/membres/Pierre.Saramito/rheolef
Description-en: efficient Finite Element environment - development files
Rheolef is a computer environment that serves as a convenient laboratory for
computations in applied mathematics involving finite element-like methods.
It provides a set of commands and C++ algorithms and containers.
.
Most basically, containers cover the classic graph data structure for sparse
matrix formats and finite element meshes. At a higher level of abstraction,
they can handle approximate finite element spaces, discrete fields.
Flexible and powerful expressions are used to specify bilinear forms.
.
Current applications include:
* massively distributed memory finite element environment, based on MPI;
* elasticity, Stokes and Navier-Stokes problems in 2D and 3D;
* complex fluids applications: viscoplasticity, viscoelasticity, wall slip;
* nonlinear problems with fixed-point, Newton and continuation methods;
* high order polynomials, mixed elements and discontinuous Galerkin methods;
* auto-adaptive mesh approaches;
* axisymmetric problems;
* multi-regions and variable coefficient problems.
.
This package provides the headers required for development.
Description-md5: b57cb7ed615e9036ae6ab40459f7f80f