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  • gmsh.html 16.42 KiB
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    <h1 class="short">Gmsh</h1>
    
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    <h1>A three-dimensional finite element mesh generator
      with built-in pre- and post-processing facilities</h1>
    
    <h4>Christophe Geuzaine and Jean-Franois Remacle</h4>
    
    <div id="toc">
      <a href="#Download">Download</a>
      | <a href="#Documentation">Documentation</a>
      | <a href="#Licensing">Licensing</a>
      | <a href="#Screenshots">Screenshots</a>
      | <a href="#Links">Links</a>
      | <a href="#References">References</a>
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    <p>
    Gmsh is a free 3D finite element grid generator with a build-in CAD engine and
    post-processor. Its design goal is to provide a fast, light and user-friendly
    meshing tool with parametric input and advanced visualization capabilities.
    Gmsh is built around four modules: geometry, mesh, solver and
    post-processing. The specification of any input to these modules is done either
    interactively using the graphical user interface or in ASCII text files using
    Gmsh's own scripting language.
    </p>
    
    <p>
    See the screencasts for a <a href="screencasts/">quick tour of Gmsh's graphical
    user interface</a>, or the reference manual for a more thorough
    <a href="doc/texinfo/gmsh.html#Overview">overview of Gmsh's capabilities</a> and
    some <a href="doc/texinfo/gmsh.html#Frequently-asked-questions">frequently asked
    questions</a>.
    </p>
    
    <h2><a name="Download"></a>Download</h2>
    
    <p>
    Gmsh is distributed under the terms of the <a href="doc/LICENSE.txt">GNU General
    Public License (GPL)</a>:
    </p>
    <ul>
      <li>
        <p class="highlight">
          Current stable release (version 2.16.0, January 2 2017):
          Windows
          <a href="bin/Windows/gmsh-2.16.0-Windows32.zip">32 bit</a> /
          <a href="bin/Windows/gmsh-2.16.0-Windows64.zip">64 bit</a>,
          Linux
          <a href="bin/Linux/gmsh-2.16.0-Linux32.tgz">32 bit</a> /
          <a href="bin/Linux/gmsh-2.16.0-Linux64.tgz">64 bit</a>,
          <a href="bin/MacOSX/gmsh-2.16.0-MacOSX.dmg">Mac OS X</a>
          and
          <a href="src/gmsh-2.16.0-source.tgz">source code</a>
        </p>
        <p>
          <em>A <a href="doc/texinfo/gmsh.html#Tutorial"><strong>tutorial</strong></a>
            introducing all key features and concepts is included in all the
            versions in the <code>tutorial</code> directory. <br>Make sure to read
            these examples before sending questions or bug reports!</em>
      <li>Development version:
        <ul><li>automated nightly snapshots
            (<a href="http://onelab.info/CDash/index.php?project=Gmsh">dashboard</a>):
            Windows 
            <a href="bin/Windows/gmsh-git-Windows32.zip">32 bit</a> /
            <a href="bin/Windows/gmsh-git-Windows64.zip">64 bit</a>,
            Linux
            <a href="bin/Linux/gmsh-git-Linux32.tgz">32 bit</a> /
            <a href="bin/Linux/gmsh-git-Linux64.tgz">64 bit</a>,
            <a href="bin/MacOSX/gmsh-git-MacOSX.dmg">Mac OS X</a> and
            <a href="src/gmsh-git-source.tgz">source code</a>
          <li>Git access: '<code>git pull
              <a href="http://gitlab.onelab.info/gmsh/gmsh.git">http://gitlab.onelab.info/gmsh/gmsh.git</a></code>'
        </ul>
      <li>All versions: <a href="bin/">binaries</a>
        and <a href="src/">sources</a>
    </ul>
    
    <p>
    If you use Gmsh please cite the following reference in your work (books,
    articles, reports, etc.): <a href="doc/preprints/gmsh_paper_preprint.pdf">C. Geuzaine and
    J.-F. Remacle. <em>Gmsh: a three-dimensional finite element mesh generator with
    built-in pre- and post-processing facilities</em>. International Journal for
    Numerical Methods in Engineering 79(11), pp. 1309-1331, 2009</a>. You can also
    cite additional references for <a href="#References">specific features and
    algorithms</a>.
    </p>
    
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    <h2><a name="Documentation"></a>Documentation</h2>
    
    <ul>
      <li><a href="doc/texinfo/gmsh.html">Reference manual</a> 
          (also available in
          <a href="doc/texinfo/gmsh.pdf">PDF</a> or in
          <a href="doc/texinfo/gmsh.txt">plain text</a>)
      <li><a href="screencasts/">Screencasts</a> showing how to use
        the graphical user interface
      <li><a href="http://gitlab.onelab.info/gmsh/gmsh">Gitlab site</a> with a
        <a href="http://gitlab.onelab.info/gmsh/gmsh/commits/master">time line</a>
        of changes and the <a href="http://gitlab.onelab.info/gmsh/gmsh/issues">bug
        tracking</a> database
      <li><a href="doc/VERSIONS.txt">Version history</a>
      <li>Mailing lists:
        <ul>
          <li><a href="http://onelab.info/mailman/listinfo/gmsh/">gmsh</a>
            (archived <a href="http://onelab.info/pipermail/gmsh/">here</a>) is the public
            mailing list for Gmsh discussions, and is the best place to
            ask questions (and get answers!)
          <li><a href="http://onelab.info/mailman/listinfo/gmsh-announce/">gmsh-announce</a> (archived
            <a href="http://onelab.info/pipermail/gmsh-announce/">here</a>) is a moderated
            ("read-only") list for announcements about new releases and
            other Gmsh news
        </ul>
    </ul>
    
    <p>
    Please use the public mailing list <a HREF="mailto:gmsh@onelab.info">gmsh@onelab.info</a>
    to send questions or ask for help. If you think you have found a bug in the
    program, you can file a report directly
    <a href="http://gitlab.onelab.info/gmsh/gmsh/issues">here</a>.
    </p>
    
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    </form>
    
    <h2><a name="Licensing"></a>Licensing</h2>
    
    <p>
    Gmsh is copyright (C) 1997-2017 by
    <a href="http://www.montefiore.ulg.ac.be/~geuzaine">C. Geuzaine</a> and
    <a href="http://perso.uclouvain.be/jean-francois.remacle/">J.-F. Remacle</a>
    (see the <a href="doc/CREDITS.txt">CREDITS</a> file for more information) and
    is distributed under the terms of
    the <a href="doc/LICENSE.txt">GNU General Public License
    (GPL)</a> (version 2 or later, with an exception to allow for easier
    linking with external libraries).
    </p>
    <p>
    In short, this means that everyone is free to use Gmsh and to redistribute it on
    a free basis. Gmsh is not in the public domain; it is copyrighted and there are
    restrictions on its distribution (see the license and the
    related <a href="http://www.gnu.org/copyleft/gpl-faq.html">frequently asked
    questions</a>).  For example, you cannot integrate this version of Gmsh (in full
    or in parts) in any <em>closed-source</em> software you plan to distribute
    (commercially or not). If you want to integrate parts of Gmsh into a
    closed-source software, or want to sell a modified closed-source version of
    Gmsh, you will need to obtain a different license. Please <a href="http://geuz.org">contact us
    directly</a> for more information.
    </p>
    
    <h2><a name="Screenshots"></a>Screenshots</h2>
    
    <p>
      <a href="http://gmsh.info/gallery/screenshot.png">
        <img class="screenshot" src="http://gmsh.info/gallery/thumbnail.png"
             alt="screenshot">
      </a>
      <a href="http://gmsh.info/gallery/screenshot2.png">
        <img class="screenshot" src="http://gmsh.info/gallery/thumbnail2.png"
             alt="screenshot">
      </a>
    </p>
    
    <p>
      See the <a href="http://onelab.info">ONELAB</a> web site for more screenshots.
    </p>
    
    <h2><a name="Links"></a>Links</h2>
    
    <ul>
      <li>Gmsh imports STEP, IGES and BREP files thanks
        to <a href="http://www.opencascade.org">OpenCascade</a>.
      <li>Gmsh interfaces the following additional external mesh
        generators: <a href="http://www.hpfem.jku.at/netgen/">Netgen</a> from
        Joachim Sch&ouml;berl
        and <a href="http://tetgen.berlios.de/index.html">TetGen</a> from Hang
        Si.
      <li>Gmsh's high quality vector PostScript, PDF and SVG output is
        produced by <a href="/gl2ps/">GL2PS</a>.
      <li>Gmsh's cross-platform graphical user interface is based
        on <a href="http://www.fltk.org/">FLTK</a>
        and <a href="http://www.opengl.org/">OpenGL</a>.
      <li>Gmsh implements a <a href="http://onelab.info">ONELAB</a> server to drive
        external solvers, as for example the open source finite
        solver <a href="http://getdp.info">GetDP</a>. 
      <li>Gmsh and GetDP are bundled in the
        <a href="http://onelab.info/wiki/Mobile">Onelab/Mobile</a> app for
        <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>
        devices.
      <li>We organized the <a href="http://tetrahedron.montefiore.ulg.ac.be">fifth
          Tetrahedron</a> workshop in Li&egrave;ge on July 4-5 2016.
    </ul>
    
    <h2><a name="References"></a>References</h2>
    
    <div class="small">
      Gmsh
      <ul class="small">
        <li>C. Geuzaine and
          J.-F. Remacle. <em><a href="doc/preprints/gmsh_paper_preprint.pdf">Gmsh: a
          three-dimensional finite element mesh generator with built-in pre- and
          post-processing facilities</a></em>. International Journal for Numerical
          Methods in Engineering 79(11), pp. 1309-1331, 2009.
        </li>
      </ul>
      Cross-patch and STL meshing (Compounds)
      <ul class="small">
        <li>J.-F. Remacle, C. Geuzaine, G. Compre and
          E. Marchandise. <em><a href="doc/preprints/gmsh_stl_preprint.pdf">High-quality
          surface remeshing using harmonic maps</a></em>.  International Journal for
          Numerical Methods in Engineering 83(4), pp. 403-425, 2010.
        <li>E. Marchandise, C. Carton de Wiart, W. G. Vos, C. Geuzaine and
          J.-F. Remacle.  <em><a href="doc/preprints/gmsh_stl2_preprint.pdf">High
          quality surface remeshing using harmonic maps. Part II: surfaces with high
          genus and of large aspect ratio</a></em>.  International Journal for Numerical
          Methods in Engineering 86(11), pp. 1303-1321, 2011.
        <li>E. Marchandise, J.-F. Remacle and
          C. Geuzaine. <em><a href="doc/preprints/gmsh_stl3_preprint.pdf">Optimal
          parametrizations for surface remeshing</a></em>. Engineering with
          Computers, December 2012, pp. 1-20.
      </ul>
      Quad meshing (Blossom and DelQuad)
      <ul class="small">
        <li>
          J.-F. Remacle, J. Lambrechts, B. Seny, E. Marchandise, A. Johnen and
          C. Geuzaine. <em><a href="doc/preprints/gmsh_quad_preprint.pdf">Blossom-Quad:
          a non-uniform quadrilateral mesh generator using a minimum cost perfect
          matching algorithm</a></em>.  International Journal for Numerical Methods
          in Engineering 89, pp. 1102-1119, 2012.
        <li>J.-F. Remacle, F. Henrotte, T. Carrier-Baudouin, E. Bchet,
          E. Marchandise, C. Geuzaine and
          T. Mouton. <em><a href="doc/preprints/gmsh_quad2_preprint.pdf">A frontal
          Delaunay quad mesh generator using the L&infin; norm</a></em>.
          International Journal for Numerical Methods in Engineering, 94(5),
          pp. 494-512, 2013.
      </ul>
      High-order meshing
      <ul class="small">
        <li>A. Johnen, J.-F. Remacle and
          C. Geuzaine. <em><a href="doc/preprints/gmsh_curved_preprint.pdf">Geometric
              validity of curvilinear finite elements</a></em>. Journal of
          Computational Physics 233, pp. 359-372, 2013.
        <li>A. Johnen, J.-F. Remacle and
          C. Geuzaine. <em><a href="doc/preprints/gmsh_curved2_preprint.pdf">Geometric
              validity of high-Order triangular finite elements</a></em>. Engineering
          with Computers 30 (3), pp. 375-382, 2014.
        <li>T. Toulorge, C. Geuzaine, J.-F. Remacle,
          J. Lambrechts. <em><a href="doc/preprints/gmsh_untangling_preprint.pdf">Robust
              untangling of curvilinear meshes</a></em>. Journal of Computational
          Physics 254, pp. 8-26, 2013.
      </ul>
      High-order visualization
      <ul class="small">
        <li>J.-F. Remacle, N. Chevaugeon, E. Marchandise and
          C. Geuzaine. <em><a href="doc/preprints/gmsh_visu_preprint.pdf">Efficient
          visualization of high-order finite elements</a></em>. International Journal
          for Numerical Methods in Engineering 69(4), pp. 750-771, 2007.
      </ul>
      Homology solver
      <ul class="small">
        <li>M. Pellikka, S. Suuriniemi, L. Kettunen and
          C. Geuzaine. <em><a href="doc/preprints/gmsh_homology_preprint.pdf">Homology
          and cohomology computation in finite element modeling</a></em>. SIAM
          Journal on Scientific Computing 35(5), pp. 1195-1214, 2013.
      </ul>
    <!--
      Ocean meshing
      <ul class="small">
        <li>J. Lambrechts, R. Comblen, V. Legat, C. Geuzaine and
          J.-F. Remacle. <em><a href="doc/preprints/gmsh_ocean_preprint.pdf">Multiscale
           mesh generation on the sphere</a></em>. Ocean
          Dynamics, 58, pp. 461-473, 2008. 
      </ul>
      Biomedical meshing
      <ul class="small">
        <li>E. Marchandise, G. Compre, M. Willemet, G. Bricteux, C. Geuzaine and
          J-F Remacle. <em><a href="doc/preprints/gmsh_bio_preprint.pdf">Quality
          meshing based on STL triangulations for biomedical simulations</a></em>.
          International Journal for Numerical Methods in Biomedical Engineering
          26(7), pp. 876-889, 2010.
        <li>E. Marchandise, P. Crosetto, C. Geuzaine, J.-F. Remacle and
          E. Sauvage. <em><a href="doc/preprints/gmsh_bio2_preprint.pdf">Quality
          open source mesh generation for cardiovascular flow simulations</a></em>,
          in Modelling Physiological Flow, Springer Series on Modeling, Simulation
          and Applications (Editors: D. Ambrosi, A. Quarteroni,
          G. Rozza). Springer-Verlag, Berlin Heidelberg, 2011.
        <li>E. Marchandise, C. Geuzaine and
          J.-F. Remacle. <em><a href="doc/preprints/gmsh_bio3_preprint.pdf">Cardiovascular
          and lung mesh generation based on centerlines</a></em>. International
          Journal for Numerical Methods in Biomedical Engineering, submitted,
          2012.
      </ul>
    -->
    </div>
    
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