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Commits
3bd68a8c
Commit
3bd68a8c
authored
7 years ago
by
Christophe Geuzaine
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onelab.html
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<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN">
<html>
<head>
<title>
ONELAB: Open Numerical Engineering LABoratory
</title>
<meta
http-equiv=
"Content-Type"
content=
"text/html; charset=UTF-8"
>
<meta
name=
"keywords"
content=
"free, finite element, fem, interface, gmsh, getdp"
>
<meta
name=
"viewport"
content=
"width= device-width"
>
<meta
name=
"apple-itunes-app"
content=
"app-id=845930897"
>
<link
href=
"http://gmsh.info/gmsh.css"
rel=
"stylesheet"
type=
"text/css"
>
<link
href=
"/favicon.ico"
rel=
"shortcut icon"
type=
"image/x-icon"
>
</head>
<body>
<h1
class=
"short"
>
ONELAB
</h1>
<h1>
Open Numerical Engineering LABoratory
</h1>
<div><span
style=
"white-space:nowrap"
>
<!--
-->
<a
href=
"https://gitlab.onelab.info/doc/models/wikis/Inductor"
>
<!--
-->
<img
width=
"25%"
src=
"small_inductor.png"
></a>
<!--
-->
<a
href=
"https://gitlab.onelab.info/doc/models/wikis/Magnetometer"
>
<!--
-->
<img
width=
"25%"
src=
"small_magnetometer.png"
></a>
<!--
-->
<a
href=
"https://gitlab.onelab.info/doc/models/wikis/Electric-machines"
>
<!--
-->
<img
width=
"25%"
src=
"small_machines.png"
></a>
<!--
-->
<a
href=
"https://gitlab.onelab.info/doc/models/wikis/Magnetodynamics-with-cohomology-conditions"
>
<!--
-->
<img
width=
"25%"
src=
"small_indheat.png"
></a>
<!--
-->
</span><br><span
style=
"white-space:nowrap"
>
<!--
-->
<a
href=
"https://gitlab.onelab.info/doc/models/wikis/Waveguides"
>
<!--
-->
<img
width=
"25%"
src=
"small_waveguides.png"
></a>
<!--
-->
<a
href=
"https://gitlab.onelab.info/doc/models/wikis/Electromechanical-relay"
>
<!--
-->
<img
width=
"25%"
src=
"small_relay.png"
></a>
<!--
-->
<a
href=
"https://gitlab.onelab.info/doc/models/wikis/Bloch-modes-in-periodic-waveguides"
>
<!--
-->
<img
width=
"25%"
src=
"small_bloch.png"
></a>
<!--
-->
<a
href=
"http://gitlab.onelab.info/doc/models/wikis/Acoustic-scattering"
>
<!--
-->
<img
width=
"25%"
src=
"small_acoustic.png"
></a>
<!--
-->
</span></div>
<p>
ONELAB is an open-source, lightweight interface to finite element software. It
is completely free: the default ONELAB software bundle contains the mesh
generator
<a
href=
"http://gmsh.info"
>
Gmsh
</a>
and the finite element solver
<a
href=
"http://getdp.info"
>
GetDP
</a>
. Many other codes (free or not) can be
easily interfaced as well.
</p>
<h2>
Getting started
</h2>
<ol>
<li>
Download the ONELAB software bundle:
<ul>
<li>
Desktop version for
<a
href=
"http://onelab.info/files/onelab-Windows64.zip"
>
Windows
</a>
(
<a
href=
"http://onelab.info/files/onelab-Windows32.zip"
>
32 bit
</a>
),
<a
href=
"http://onelab.info/files/onelab-Linux64.zip"
>
Linux
</a>
(
<a
href=
"http://onelab.info/files/onelab-Linux32.zip"
>
32 bit
</a>
) and
<a
href=
"http://onelab.info/files/onelab-MacOSX.dmg"
>
MacOS
</a>
<li>
Mobile version for
<a
href=
"https://play.google.com/store/apps/details?id=org.geuz.onelab"
>
Android
</a>
and
<a
href=
"https://itunes.apple.com/us/app/onelab/id845930897"
>
iOS
</a>
<li><a
href=
"http://onelab.info/files/onelab-source.zip"
>
Source code
</a>
</ul>
<li>
Launch the app
<img
src=
"http://geuz.org/gmsh/gallery/icon.png"
height=
20px
>
<li>
Open a model:
<ul>
<li>
Desktop version: go to the
<code>
File/Open
</code>
menu and select a
GetDP
<code>
.pro
</code>
file,
e.g.
<code>
models/Magnetometer/magnetometer.pro
</code>
<li>
Mobile version: select one of the preloaded models
</ul>
<li>
Press
<code>
Run
</code>
<li>
... then explore
<a
href=
"http://gitlab.onelab.info/doc/models/wikis"
>
other models
</a>
, or
learn how to create your own with
<a
href=
"http://gitlab.onelab.info/doc/tutorials/wikis"
>
the tutorials
</a>
</ol>
<h2>
Additional information
</h2>
<p>
ONELAB can interface finite element and related software (
<em>
ONELAB
clients
</em>
) in two ways:
</p>
<ol>
<li>
By directly embedding the ONELAB C++ library or the ONELAB Python
module. This is what
<a
href=
"http://getdp.info"
>
GetDP
</a>
(a finite element
solver for electromagnetism, heat transfer, acoustics and generic
PDEs),
<a
href=
"http://gmsh.info"
>
Gmsh
</a>
(a mesh generator and
post-processor (Gmsh also plays the role of ONELAB server) and Onelab/Mobile
(GetDP and Gmsh
on
<a
href=
"https://itunes.apple.com/us/app/onelab/id845930897"
>
iPhone,
iPad
</a>
and
<a
href=
"https://play.google.com/store/apps/details?id=org.geuz.onelab"
>
Android
</a>
)
do. Any C++ and Python code can do the same.
<li>
By preprocessing the input files of any software. The different steps of a
simulation (meshing, solving, post-processing) are then controlled by a
python script.
<a
href=
"https://www.csc.fi/web/elmer"
>
Elmer
</a>
,
<a
href=
"https://www.openfoam.com/"
>
OpenFOAM
</a>
,
<a
href=
"https://www.code-aster.org/"
>
Code_Aster
</a>
,
<a
href=
"https://www.3ds.com/fr/produits-et-services/simulia/produits/abaqus"
>
Abaqus
</a>
or
<a
href=
"http://www.calculix.de"
>
CalculiX
</a>
can for example be readily
interfaced this way.
</ol>
<p>
The ONELAB interface allows to call such clients and have them share
parameters and modeling information. The implementation is based on a simple
client-server model, with a server-side database, an (optional) graphical
front-end, and local or remote clients communicating in-memory or through
TCP/IP sockets. Contrary to most available solver interfaces, the ONELAB
server has no
<em>
a priori
</em>
knowledge about any specifics (input file
format, syntax, ...) of the clients. This is made possible by having any
simulation preceded by an analysis phase, during which the clients are asked
to upload their parameter set to the server. The issues of completeness and
consistency of the parameter sets are completely dealt with on the client
side: the role of ONELAB is limited to data centralization, modification and
re-dispatching.
</p>
<p>
See the
<a
href=
"http://gitlab.onelab.info/doc/tutorials/wikis"
>
tutorials
</a>
for examples.
</p>
<h2>
Sponsors
</h2>
<p>
The ONELAB project was funded by the Walloon Region under
<a
href=
"http://recherche-technologie.wallonie.be/projets/index.html?IDD=17018"
>
WIST3
grant n° 1017086
</a>
and
<em>
Fonds de maturation
</em>
grant n° 1217742
(AWE), and was sponsored by
<a
href=
"http://www.gdtech.eu"
>
GDTech
</a>
and
<a
href=
"http://www.audaxis.com"
>
Audaxis
</a>
. Additional funding has
been provided by
<a
href=
"http://www.belspo.be"
>
the Belgian Science
Policy
</a>
under grant IAP P7/02.
</p>
<center
style=
"margin-top:4ex;margin-bottom:4ex"
>
<a
href=
"http://www.ulg.ac.be"
><img
src=
"logo_uliege.jpg"
height=
"68px"
></a>
<a
href=
"http://www.uclouvain.be"
><img
src=
"logo_ucl.jpg"
height=
"68px"
></a>
<a
href=
"http://www.wallonie.be"
><img
src=
"logo_rw.jpg"
height=
"68px"
></a>
<a
href=
"http://www.belspo.be"
><img
src=
"logo_belspo.jpg"
height=
"68px"
></a>
<a
href=
"http://www.gdtech.eu"
><img
src=
"logo_gdtech.jpg"
height=
"68px"
></a>
<a
href=
"http://www.audaxis.be"
><img
src=
"logo_audaxis.png"
height=
"68px"
></a>
</center>
</body>
</html>
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3bd68a8c
onelab.html
\ No newline at end of file
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onelab.html
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+
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−
0
View file @
3bd68a8c
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN">
<html>
<head>
<title>
ONELAB: Open Numerical Engineering LABoratory
</title>
<meta
http-equiv=
"Content-Type"
content=
"text/html; charset=UTF-8"
>
<meta
name=
"keywords"
content=
"free, finite element, fem, interface, gmsh, getdp"
>
<meta
name=
"viewport"
content=
"width= device-width"
>
<meta
name=
"apple-itunes-app"
content=
"app-id=845930897"
>
<link
href=
"/onelab.css"
rel=
"stylesheet"
type=
"text/css"
>
<link
href=
"/favicon.ico"
rel=
"shortcut icon"
type=
"image/x-icon"
>
</head>
<body>
<h1
class=
"short"
>
ONELAB
</h1>
<h1>
Open Numerical Engineering LABoratory
</h1>
<div><span
style=
"white-space:nowrap"
>
<!--
-->
<a
href=
"https://gitlab.onelab.info/doc/models/wikis/Inductor"
>
<!--
-->
<img
width=
"25%"
src=
"small_inductor.png"
></a>
<!--
-->
<a
href=
"https://gitlab.onelab.info/doc/models/wikis/Magnetometer"
>
<!--
-->
<img
width=
"25%"
src=
"small_magnetometer.png"
></a>
<!--
-->
<a
href=
"https://gitlab.onelab.info/doc/models/wikis/Electric-machines"
>
<!--
-->
<img
width=
"25%"
src=
"small_machines.png"
></a>
<!--
-->
<a
href=
"https://gitlab.onelab.info/doc/models/wikis/Magnetodynamics-with-cohomology-conditions"
>
<!--
-->
<img
width=
"25%"
src=
"small_indheat.png"
></a>
<!--
-->
</span><br><span
style=
"white-space:nowrap"
>
<!--
-->
<a
href=
"https://gitlab.onelab.info/doc/models/wikis/Waveguides"
>
<!--
-->
<img
width=
"25%"
src=
"small_waveguides.png"
></a>
<!--
-->
<a
href=
"https://gitlab.onelab.info/doc/models/wikis/Electromechanical-relay"
>
<!--
-->
<img
width=
"25%"
src=
"small_relay.png"
></a>
<!--
-->
<a
href=
"https://gitlab.onelab.info/doc/models/wikis/Bloch-modes-in-periodic-waveguides"
>
<!--
-->
<img
width=
"25%"
src=
"small_bloch.png"
></a>
<!--
-->
<a
href=
"http://gitlab.onelab.info/doc/models/wikis/Acoustic-scattering"
>
<!--
-->
<img
width=
"25%"
src=
"small_acoustic.png"
></a>
<!--
-->
</span></div>
<p>
ONELAB is an open-source, lightweight interface to finite element software. It
is completely free: the default ONELAB software bundle contains the mesh
generator
<a
href=
"http://gmsh.info"
>
Gmsh
</a>
and the finite element solver
<a
href=
"http://getdp.info"
>
GetDP
</a>
. Many other codes (free or not) can be
easily interfaced as well.
</p>
<h2>
Getting started
</h2>
<ol>
<li>
Download the ONELAB software bundle:
<ul>
<li>
Desktop version for
<a
href=
"http://onelab.info/files/onelab-Windows64.zip"
>
Windows
</a>
(
<a
href=
"http://onelab.info/files/onelab-Windows32.zip"
>
32 bit
</a>
),
<a
href=
"http://onelab.info/files/onelab-Linux64.zip"
>
Linux
</a>
(
<a
href=
"http://onelab.info/files/onelab-Linux32.zip"
>
32 bit
</a>
) and
<a
href=
"http://onelab.info/files/onelab-MacOSX.dmg"
>
MacOS
</a>
<li>
Mobile version for
<a
href=
"https://play.google.com/store/apps/details?id=org.geuz.onelab"
>
Android
</a>
and
<a
href=
"https://itunes.apple.com/us/app/onelab/id845930897"
>
iOS
</a>
<li><a
href=
"http://onelab.info/files/onelab-source.zip"
>
Source code
</a>
</ul>
<li>
Launch the app
<img
src=
"http://geuz.org/gmsh/gallery/icon.png"
height=
20px
>
<li>
Open a model:
<ul>
<li>
Desktop version: go to the
<code>
File/Open
</code>
menu and select a
GetDP
<code>
.pro
</code>
file,
e.g.
<code>
models/Magnetometer/magnetometer.pro
</code>
<li>
Mobile version: select one of the preloaded models
</ul>
<li>
Press
<code>
Run
</code>
<li>
... then explore
<a
href=
"http://gitlab.onelab.info/doc/models/wikis"
>
other models
</a>
, or
learn how to create your own with
<a
href=
"http://gitlab.onelab.info/doc/tutorials/wikis"
>
the tutorials
</a>
</ol>
<h2>
Additional information
</h2>
<p>
ONELAB can interface finite element and related software (
<em>
ONELAB
clients
</em>
) in two ways:
</p>
<ol>
<li>
By directly embedding the ONELAB C++ library or the ONELAB Python
module. This is what
<a
href=
"http://getdp.info"
>
GetDP
</a>
(a finite element
solver for electromagnetism, heat transfer, acoustics and generic
PDEs),
<a
href=
"http://gmsh.info"
>
Gmsh
</a>
(a mesh generator and
post-processor (Gmsh also plays the role of ONELAB server) and Onelab/Mobile
(GetDP and Gmsh
on
<a
href=
"https://itunes.apple.com/us/app/onelab/id845930897"
>
iPhone,
iPad
</a>
and
<a
href=
"https://play.google.com/store/apps/details?id=org.geuz.onelab"
>
Android
</a>
)
do. Any C++ and Python code can do the same.
<li>
By preprocessing the input files of any software. The different steps of a
simulation (meshing, solving, post-processing) are then controlled by a
python script.
<a
href=
"https://www.csc.fi/web/elmer"
>
Elmer
</a>
,
<a
href=
"https://www.openfoam.com/"
>
OpenFOAM
</a>
,
<a
href=
"https://www.code-aster.org/"
>
Code_Aster
</a>
,
<a
href=
"https://www.3ds.com/fr/produits-et-services/simulia/produits/abaqus"
>
Abaqus
</a>
or
<a
href=
"http://www.calculix.de"
>
CalculiX
</a>
can for example be readily
interfaced this way.
</ol>
<p>
The ONELAB interface allows to call such clients and have them share
parameters and modeling information. The implementation is based on a simple
client-server model, with a server-side database, an (optional) graphical
front-end, and local or remote clients communicating in-memory or through
TCP/IP sockets. Contrary to most available solver interfaces, the ONELAB
server has no
<em>
a priori
</em>
knowledge about any specifics (input file
format, syntax, ...) of the clients. This is made possible by having any
simulation preceded by an analysis phase, during which the clients are asked
to upload their parameter set to the server. The issues of completeness and
consistency of the parameter sets are completely dealt with on the client
side: the role of ONELAB is limited to data centralization, modification and
re-dispatching.
</p>
<p>
See the
<a
href=
"http://gitlab.onelab.info/doc/tutorials/wikis"
>
tutorials
</a>
for examples.
</p>
<h2>
Sponsors
</h2>
<p>
The ONELAB project was funded by the Walloon Region under
<a
href=
"http://recherche-technologie.wallonie.be/projets/index.html?IDD=17018"
>
WIST3
grant n° 1017086
</a>
and
<em>
Fonds de maturation
</em>
grant n° 1217742
(AWE), and was sponsored by
<a
href=
"http://www.gdtech.eu"
>
GDTech
</a>
and
<a
href=
"http://www.audaxis.com"
>
Audaxis
</a>
. Additional funding has
been provided by
<a
href=
"http://www.belspo.be"
>
the Belgian Science
Policy
</a>
under grant IAP P7/02.
</p>
<center
style=
"margin-top:4ex;margin-bottom:4ex"
>
<a
href=
"http://www.ulg.ac.be"
><img
src=
"logo_uliege.jpg"
height=
"68px"
></a>
<a
href=
"http://www.uclouvain.be"
><img
src=
"logo_ucl.jpg"
height=
"68px"
></a>
<a
href=
"http://www.wallonie.be"
><img
src=
"logo_rw.jpg"
height=
"68px"
></a>
<a
href=
"http://www.belspo.be"
><img
src=
"logo_belspo.jpg"
height=
"68px"
></a>
<a
href=
"http://www.gdtech.eu"
><img
src=
"logo_gdtech.jpg"
height=
"68px"
></a>
<a
href=
"http://www.audaxis.be"
><img
src=
"logo_audaxis.png"
height=
"68px"
></a>
</center>
</body>
</html>
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