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revision 1.3 by adcroft, Thu Oct 11 17:17:59 2001 UTC revision 1.7 by cnh, Fri Oct 12 19:55:04 2001 UTC
# Line 24  MITgcm Sealion Release Home Page Line 24  MITgcm Sealion Release Home Page
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27    <br>   <br>
28     <br>
29  <blockquote>  <blockquote>
30  <blockquote>  
31  <div align="Justify"><font FACE="HELVETICA" SIZE="3">  <p>Welcome to the webpage of release 1 of MITgcm.</p>
32  The M.I.T. General Circulation Model (MITgcm) Release 1 contains code for  <p>MITgcm </p>
33  simulating a wide variety of ocean and atmosphere problems. The model is  <ul>
34  compatible with platforms ranging from desktop and commodity    <li>can be used to study both atmospheric and oceanic circulation</li>
35  cluster x86 systems to high-end multi-processor supercomputers. Minimum requirements    <li>has a non-hydrostatic capability</li>
36  are a Fortran compiler (the free g77 compiler is sufficient) and a UNIX like    <li>has tangent linear and adjoint code maintained alongside the forward
37  operating system (such as Linux, Solaris, IRIX).  model</li>
38  <br>  </ul>
39  <br>  <p>Here you can:</p>
40  A broad span of example problem  <ul>
41  configurations are included in the release. These examples range from planetary scale    <li><a href=../download_software/index.html>download the code</a></li>
42  circulation simulations of the ocean and atmosphere to high-resolution, small-scale    <li><a href=../online_documents/index.html>access on-line documentation</a></li>
43  process studies encompassing non-hydrostatic dynamics. In addition to conventional    <li>follow <a href=../getting_started/index.html>tutorial examples</a> of the use of MITgcm in the study of
44  prognostic operation, differentiated forms (both tangent-linear and adjoint)  atmospheric
45  of the MITgcm code can be generated automatically using either the TAMC or TAF      and oceanic flows<br>
46  automatic differentiation tools. These derivative forms can be used for dynamical    </li>
47  sensitivity studies and can also be used, together with appropriate optimisation and  </ul>
48  control infrastructure, for mathematically rigorous state-estimation and  
 data-assimilation. A seamless interface to the ECCO group optimisation  
 environment is available.  
 </div>  
 </blockquote>  
 </blockquote>  
 <br>  
   <br><center>  
    <h1>MITgcm Release 1 Features:</h1>  
   </center>  
   <br> <center>  
    <h3>  
    <A href="../online_documents/">  
     Oceanic and Atmospheric Simulations  
    </A>  
    </h3>  
   </center>  
   <br> <center>  
    <h3>  
    <A href="../online_documents/">  
     Automatic Differentiation and Adjoint Sensitivity</h3>  
    </A>  
   </center>  
   <br> <center>  
    <A href="../online_documents/">  
    <h3>Open Boundaries, Regional and Process Studies</h3>  
    </A>  
   </center>  
   <br> <center>  
    <A href="../online_documents/">  
     <h3>Packaged Source Repository</h3>  
    </A>  
   </center>  
   <br> <center>  
    <A href="../online_documents/">  
     <h3>Algorithm and Code Documentation</h3>  
    </A>  
   </center>  
49   </td>   </td>
50   </tr>   </tr>
   
51  </table>  </table>
52    
53  </body>  </body>
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