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</div> |
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<p> |
<p> |
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The MITgcm (MIT General Circulation Model) is a numerical model for studying the |
The MITgcm (MIT General Circulation Model) is a numerical model for studying |
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ocean and atmosphere. It is capable of simulating these fluids at a wide range of |
the ocean and atmosphere. It is capable of simulating these fluids at a wide |
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scales and can resolve many different processes. It has a non-hydrostatic capability |
range of scales and can resolve many different processes. It has a |
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(Marshall et al., JGR 1997a & b) and uses the finite volume method to accurately |
non-hydrostatic capability (Marshall et al., JGR 1997a & b) and uses the |
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represent the bottom boundary position (Adcroft et al., MWR 1998). <br /> |
finite volume method to accurately represent the bottom boundary position |
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(Adcroft et al., MWR 1998). <br /> |
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</p> |
</p> |
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<p> |
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<b>For further information, <a href="http://paoc.mit.edu/cmi/">please see |
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MIT's Climate Modeling Initiative (CMI)</a> which introduces the MITgcm model, |
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its applications, and the development team.</b> |
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</p> |
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<h2><a href="sealion">Release1_patch8 of MITgcm</a> is <em>ready</em>! |
<h2><a href="sealion">Release1_patch8 of MITgcm</a> is <em>ready</em>! |
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(12-Nov-2002)</h2> |
(12-Nov-2002)</h2> |
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</div> |
</div> |
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--> |
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<div class="c1"> |
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<table align="center" border="2" width="95%" summary=""> |
<table align="center" border="2" width="95%" summary=""> |