s_examples/text/top_section.tex

% $Header: /u/gcmpack/manual/s_examples/text/top_section.tex,v 1.1 2010/08/27 18:21:43 jmc Exp $
% $Name:  $

%\chapter[Getting Started with MITgcm]{Getting started with MITgcm}
%\label{chap:getting_started}

%\begin{rawhtml}
%<!-- CMIREDIR:getting_started_with_mitgcm: -->
%\end{rawhtml}

%This chapter is divided into two main parts. The first part, which is
%covered in sections \ref{sec:whereToFindInfo} through
%\ref{sec:testing}, contains information about how to run experiments
%using MITgcm. The second part, covered in sections
%\ref{sec:eg-baro} through \ref{sec:eg-offline}, contains a set of
%step-by-step tutorials for running specific pre-configured atmospheric
%and oceanic experiments.

\newpage
\input{s_examples/text/model_examples}

\newpage
\input{s_examples/barotropic_gyre/baro.tex}

\newpage
\input{s_examples/baroclinic_gyre/fourlayer.tex}

\newpage
\input{s_examples/advection_in_gyre/adv_gyre.tex}

\newpage
\input{s_examples/global_oce_latlon/climatalogical_ogcm.tex}

\newpage
\input{s_examples/global_oce_in_p/ogcm_in_pressure.tex}

\newpage
\input{s_examples/held_suarez_cs/held_suarez_cs.tex}

\newpage
\input{s_examples/deep_convection/convection.tex}

\newpage
\input{s_examples/plume_on_slope/plume_on_slope.tex}

\newpage
\input{s_examples/global_oce_biogeo/biogeochem.tex}

\newpage
\input{s_examples/global_oce_optim/global_oce_estimation.tex}

\newpage
\input{s_examples/tracer_adjsens/doc_ad_examples.tex}

\newpage
\input{s_examples/cfc_offline/offline_tutorial.tex}

\newpage
\input{s_examples/rotating_tank/tank.tex}

1	jmc	1.2	% $Header: /u/gcmpack/manual/s_examples/text/top_section.tex,v 1.1 2010/08/27 18:21:43 jmc Exp $
2	jmc	1.1	% $Name: $
3
4			%\chapter[Getting Started with MITgcm]{Getting started with MITgcm}
5			%\label{chap:getting_started}
6
7			%\begin{rawhtml}
8			%<!-- CMIREDIR:getting_started_with_mitgcm: -->
9			%\end{rawhtml}
10
11			%This chapter is divided into two main parts. The first part, which is
12	jmc	1.2	%covered in sections \ref{sec:whereToFindInfo} through
13			%\ref{sec:testing}, contains information about how to run experiments
14	jmc	1.1	%using MITgcm. The second part, covered in sections
15	jmc	1.2	%\ref{sec:eg-baro} through \ref{sec:eg-offline}, contains a set of
16	jmc	1.1	%step-by-step tutorials for running specific pre-configured atmospheric
17			%and oceanic experiments.
18
19			\newpage
20			\input{s_examples/text/model_examples}
21
22			\newpage
23			\input{s_examples/barotropic_gyre/baro.tex}
24
25			\newpage
26			\input{s_examples/baroclinic_gyre/fourlayer.tex}
27
28			\newpage
29			\input{s_examples/advection_in_gyre/adv_gyre.tex}
30
31			\newpage
32			\input{s_examples/global_oce_latlon/climatalogical_ogcm.tex}
33
34			\newpage
35			\input{s_examples/global_oce_in_p/ogcm_in_pressure.tex}
36
37			\newpage
38			\input{s_examples/held_suarez_cs/held_suarez_cs.tex}
39
40			\newpage
41			\input{s_examples/deep_convection/convection.tex}
42
43			\newpage
44			\input{s_examples/plume_on_slope/plume_on_slope.tex}
45
46			\newpage
47			\input{s_examples/global_oce_biogeo/biogeochem.tex}
48
49			\newpage
50			\input{s_examples/global_oce_optim/global_oce_estimation.tex}
51
52			\newpage
53			\input{s_examples/tracer_adjsens/doc_ad_examples.tex}
54
55			\newpage
56			\input{s_examples/cfc_offline/offline_tutorial.tex}
57
58			\newpage
59			\input{s_examples/rotating_tank/tank.tex}
60