source: trunk/DOC/documentation/rcm1d.tex @ 3404

Last change on this file since 3404 was 927, checked in by slebonnois, 12 years ago

SL: mise a jour de quelques docs + correction bug dans newstart (Venus)

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1\documentclass[a4paper,10pt]{article}
2%\usepackage{graphicx}
3\usepackage{natbib}  % si appel à bibtex
4%\usepackage[francais]{babel}
5%\usepackage[latin1]{inputenc}  % accents directs (é...), avec babel
6%\usepackage{rotating}
7
8\setlength{\hoffset}{-1.in}
9\setlength{\oddsidemargin}{3.cm}
10\setlength{\textwidth}{15.cm}
11\setlength{\marginparsep}{0.mm}
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14\setlength{\voffset}{-1.in}
15\setlength{\topmargin}{0.mm}
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22\setlength{\parskip}{1 em}
23\newcommand{\ten}[1]{$\times 10^{#1}$~} 
24\renewcommand{\baselinestretch}{1.}
25
26\begin{document}
27\pagestyle{plain}
28
29\begin{center}
30{\bf \LARGE 
31Documentation for LMDZ, Planets version
32
33\vspace{1cm}
34\Large
35Running with only one column: \\
36rcm1d in Venus and Titan physics
37}
38
39\vspace{1cm}
40S\'ebastien Lebonnois
41
42\vspace{1cm}
43Latest version: \today
44\end{center}
45
46
47\section{The \textsf{rcm1d} tool}
48
49The file \textsf{rcm1d.F} is located in the \textsf{phy$<$planet$>$} directory.
50For the moment, the tool described here is available for Venus and Titan, though a similar tool exists for Mars and the Generic model.
51
52The goal of this tool is to initialize the model the same way \textsf{gcm.F} does on 3D, but only on a single column, so that the physics may be tested without any dynamics.
53
54It can be compiled (sequential only) with a command like (e.g. for 50 layers):
55
56\textsf{makelmdz -p venus -d 50 rcm1d}
57
58It requires the files \textsf{rcm1d.def}, \textsf{physiq.def}
59and a file describing the vertical layers (\textsf{z2sig.def}).
60The 3D \textsf{run.def} is also needed though only to access \textsf{physiq.def} (the other parameters specific to \textsf{run.def} are not read.
61
62{\bf Beware:}
63The file \textsf{traceur.def} may or may not be present.
64For the moment, tracers are initialized to 0.
65If you plan to use them, there will be need for modifications (in \textsf{rcm1d.F}).
66
67
68Using these files and an initial temperature vertical profile defined in the \textsf{profile.F} routine (with options available through \textsf{rcm1d.def}), the model is initialized and a first \textsf{startphy.nc} file is written, to be read again at the first call of \textsf{physiq}.
69
70\section{Specific \textsf{rcm1d.def} file}
71 
72This file is read by \textsf{rcm1d} during initialization.
73It is very simple and reads values at the beginning of each lines (different from \textsf{gcm.def}).
74It can be found in the \textsf{deftank} directory.
75Each line has a comment explaining what the parameter is.
76The number of timestep per day (third line) is the number of calls to the physics per day, since no dynamics is involved here.
77
78It also includes parameters for the \textsf{profile.F} definition.
79
80\section{Outputs}
81
82It writes the same \textsf{hist*.nc} as the regular GCM.
83It also writes a \textsf{profile.new} file containing the vertical profiles of altitude, temperature and stability at the end of the run, and the usual \textsf{restartphy.nc} though it will not be used for a restart, since \textsf{rcm1d} starts with the same initial state everytime it is launched.
84
85\end{document}
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