source: trunk/LMDZ.MARS/doc/intro.tex @ 3026

Last change on this file since 3026 was 1954, checked in by emillour, 7 years ago

Mars GCM:

  • Make a "doc" subdirectory to store the documentation source files with the code.

EM

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[1954]1\chapter{Introduction}
2
3\selectlanguage{english}
4This document is a user manual for the General Circulation Model
5of the Martian atmosphere developed by the Laboratoire de M\'et\'eorologie
6Dynamique of the CNRS in Paris in collaboration with the Atmospheric and
7Oceanic Planetary Physics sub-department in Oxford.
8It corresponds to the version of the model available since November 2002,
9that includes the new dynamic code lmdz3.3
10and the input and output data in NetCDF format.
11The physical part has been available since June 2001,
12including the NLTE radiative transfer code valid at up to 120~km,
13tracer transport, the water cycle with water vapour and ice,
14the "double mode" dust transport model, and with optional photochemistry
15and extension in the thermosphere up to 250km.
16
17A more general, scientific description of the model without
18tracers can be found in {\it Forget et al.} [1999].\\
19
20
21Chapter~\ref{sc:apercu} of this document, to be read before any of the others,
22describes the main features of the model.
23The model is divided into two relatively independent parts:
24(1) The hydrodynamic code, that is shared by all atmospheres (Earth,
25Mars, etc.) that integrates the fluid mechanics equations in time
26and on the globe, and (2) a set of Martian physical parameterizations,
27including, for example, the radiative transfer calculation in the atmosphere
28and the turbulence mix in the upper layer.
29
30It is followed by a list of references for anyone requiring a detailed
31description of the physics and the numerical formulation of the
32parameterizations of the Martian physical part (Chapter~\ref{sc:phymars}).
33
34For your {\bf first contact with the model}, chapter
35\ref{loc:contact1} guides the user through a practice simulation
36(choosing the initial states and parameters and  visualizing the output files).
37
38The document then describes the programming code for the model,
39including a user computer manual for compiling and running the model
40(Chapter~\ref{sc:info}).
41
42Chapter~\ref{sc:io} describes the input/output data of the model.
43The input files are the files needed to initialize the model
44(state of the atmosphere at the initial time $t0$ as well as a dataset of
45boundary conditions)
46and the output files are "time series",i.e.
47records of the atmospheric flow evolution as simulated by the model,
48the ``diagfi files", the ``stats files'',
49the daily averages etc.
50Some means to edit or visualize these files
51(editor ``ncdump" and the graphics software ``grads") are also described. \\ 
52
53
54Chapter~\ref{sc:water} explains how to run a simulation including the
55water cycle.
56Chapter~\ref{sc:photochem} illustrates how to run the model
57with the photochemical module.
58%Chapter~\ref{sc:photochem} and chapter~\ref{sc:thermosphere} detail
59%respectively the optional photochemical module and the extension model
60%to the thermosphere.
61
62Finally, chapter~\ref{sc:testphys1d} will help you to use a
631-dimensional version of the model,
64which may be a simplier tool for some analysis work.
65
66
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69
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