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-<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">
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-
-<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>&nbsp;
-  <a href="http://www.uclouvain.be"><img src="logo_ucl.jpg" height="68px"></a>&nbsp;
-  <a href="http://www.wallonie.be"><img src="logo_rw.jpg" height="68px"></a>&nbsp;
-  <a href="http://www.belspo.be"><img src="logo_belspo.jpg" height="68px"></a>&nbsp;
-  <a href="http://www.gdtech.eu"><img src="logo_gdtech.jpg" height="68px"></a>&nbsp;
-  <a href="http://www.audaxis.be"><img src="logo_audaxis.png" height="68px"></a>
-</center>
-
-</body>
-</html>

index.html

+onelab.html
\ No newline at end of file

onelab.html

+<!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>&nbsp;
+  <a href="http://www.uclouvain.be"><img src="logo_ucl.jpg" height="68px"></a>&nbsp;
+  <a href="http://www.wallonie.be"><img src="logo_rw.jpg" height="68px"></a>&nbsp;
+  <a href="http://www.belspo.be"><img src="logo_belspo.jpg" height="68px"></a>&nbsp;
+  <a href="http://www.gdtech.eu"><img src="logo_gdtech.jpg" height="68px"></a>&nbsp;
+  <a href="http://www.audaxis.be"><img src="logo_audaxis.png" height="68px"></a>
+</center>
+
+</body>
+</html>