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revision 1.10 by edhill, Wed Dec 10 17:52:20 2003 UTC revision 1.14 by cnh, Fri Mar 26 15:18:27 2004 UTC
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25      <p>The <b>MITgcm</b> (<b>MIT</b> <b>G</b>eneral <b>C</b>irculation      <p>The <b>MITgcm</b> (<b>MIT</b> <b>G</b>eneral <b>C</b>irculation
26        <b>M</b>odel) is a numerical model for        <b>M</b>odel) is a numerical model designed for study of the
27        studying the ocean and atmosphere. It is capable of simulating these        atmosphere, ocean, and climate. Its non-hydrostatic formulation
28        fluids at a wide range of scales and can resolve many different        enables it to simulate fluid phenomena over a wide range of
29        processes. It has a non-hydrostatic capability (Marshall et al., JGR 1997a        scales; its adjoint capability enables it to be applied to
30        &amp; b) and uses the finite volume method to accurately represent the        parameter and state estimation problems. By employing fluid
31        bottom boundary position (Adcroft et al., MWR 1998).<br /><br /></p>        isomorphisms, one hydrodynamical kernel can be used to simulate
32          flow in both the atmosphere and ocean.</p>
33    
34        <p>You are welcome to <a href="http://mitgcm.org/source_code.html">
35          download</a> and use MITgcm.</p>
36    
37        <p>Papers charting the development of MITgcm <a
38          href="http://paoc.mit.edu/cmi/publications.htm">can be found here.
39          </a></p>
40    
41      <div class="c1"><span class="c3"><b>News</b></span></div>      <hr align="center" size="1" width="75%" />
42    
43        <div class="c1"><br /><span class="c3"><b>News</b></span></div>
44    
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55          </blockquote>          </blockquote>
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58    
59        <p><b>March 26, 2004. 01:38AM&nbsp;:</b><br /></p>
60    
61            <blockquote>
62              Congratulations to Alistair and Sonya on the birth this
63              morning of a 7lb 3oz, 19.5 inches long baby girl, Ariane Jade.
64              <br /><br />
65            </blockquote>
66    
67        <p><b>January 22, 2004&nbsp;:</b><br /></p>
68    
69            <blockquote>
70              A spectacular movie by Chris Henze of NASA AMES beautifully captures an
71              eddy permitting expanded cube sphere MITgcm simulation being carried out,
72              as part of the <a href=http://www.ecco-group.org>ECCO</a> project, by
73              Dimitris Menemenlis and others at JPL with help from core MITgcm team members
74              and staff from NASA AMES. The animation
75              shows the speed of ocean currents at 15m depth from the simulation, it can be
76              downloaded <a href=news/cube_6.mpg>here</a> (its 47MB
77              but worth waiting for!). A second animation with different perspectives and
78              rotation can be downloaded <a href=news/cube_7.mpg>here</a>.
79              As described <a href=news/agu_2004/menemenlis_et_al.pdf>here</a> Dimitris Menemenlis
80              will be presenting aspects of this calculation at AGU in Portland.
81              A list of some other AGU 2004 presentation abstracts related to MITgcm can be
82              found <a href=news/agu_2004>here</a>.
83            </blockquote>
84    
85      <p><b>December 9th 2003&nbsp;:</b><br /></p>      <p><b>December 9th 2003&nbsp;:</b><br /></p>
86    
87          <blockquote>          <blockquote>

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