--- manual/s_examples/barotropic_gyre/baro.tex 2002/05/16 15:54:37 1.9 +++ manual/s_examples/barotropic_gyre/baro.tex 2008/01/15 21:47:26 1.17 @@ -1,4 +1,4 @@ -% $Header: /home/ubuntu/mnt/e9_copy/manual/s_examples/barotropic_gyre/baro.tex,v 1.9 2002/05/16 15:54:37 adcroft Exp $ +% $Header: /home/ubuntu/mnt/e9_copy/manual/s_examples/barotropic_gyre/baro.tex,v 1.17 2008/01/15 21:47:26 cnh Exp $ % $Name: $ \bodytext{bgcolor="#FFFFFFFF"} @@ -13,26 +13,20 @@ %{\large May 2001} %\end{center} -This is the first in a series of tutorials describing -example MITgcm numerical experiments. The example experiments -include both straightforward examples of idealized geophysical -fluid simulations and more involved cases encompassing -large scale modeling and -automatic differentiation. Both hydrostatic and non-hydrostatic -experiments are presented, as well as experiments employing -Cartesian, spherical-polar and cube-sphere coordinate systems. -These ``case study'' documents include information describing -the experimental configuration and detailed information on how to -configure the MITgcm code and input files for each experiment. - -\section{Barotropic Ocean Gyre In Cartesian Coordinates} +\section[Barotropic Gyre MITgcm Example]{Barotropic Ocean Gyre In Cartesian Coordinates} +%%% \label{www:tutorials} \label{sect:eg-baro} -\label{www:tutorials} - +\begin{rawhtml} + +\end{rawhtml} +\begin{center} +(in directory: {\it verification/tutorial\_barotropic\_gyre/}) +\end{center} This example experiment demonstrates using the MITgcm to simulate -a Barotropic, wind-forced, ocean gyre circulation. The experiment -is a numerical rendition of the gyre circulation problem similar +a Barotropic, wind-forced, ocean gyre circulation. The files for this +experiment can be found in the verification directory tutorial\_barotropic\_gyre. +The experiment is a numerical rendition of the gyre circulation problem similar to the problems described analytically by Stommel in 1966 \cite{Stommel66} and numerically in Holland et. al \cite{Holland75}. @@ -68,12 +62,17 @@ Figure \ref{FIG:eg-baro-simulation_config} summarizes the configuration simulated. +%% === eh3 === \begin{figure} -\begin{center} - \resizebox{7.5in}{5.5in}{ - \includegraphics*[0.2in,0.7in][10.5in,10.5in] - {part3/case_studies/barotropic_gyre/simulation_config.eps} } -\end{center} +%% \begin{center} +%% \resizebox{7.5in}{5.5in}{ +%% \includegraphics*[0.2in,0.7in][10.5in,10.5in] +%% {part3/case_studies/barotropic_gyre/simulation_config.eps} } +%% \end{center} +\centerline{ + \scalefig{.95} + \epsfbox{part3/case_studies/barotropic_gyre/simulation_config.eps} +} \caption{Schematic of simulation domain and wind-stress forcing function for barotropic gyre numerical experiment. The domain is enclosed bu solid walls at $x=$~0,1200km and at $y=$~0,1200km.} @@ -183,7 +182,8 @@ \label{SEC:eg-baro-code_config} The model configuration for this experiment resides under the -directory {\it verification/exp0/}. The experiment files +directory {\it verification/tutorial\_barotropic\_gyre/}. +The experiment files \begin{itemize} \item {\it input/data} \item {\it input/data.pkg}