--- manual/s_getstarted/text/getting_started.tex 2006/06/28 16:48:19 1.37 +++ manual/s_getstarted/text/getting_started.tex 2010/05/28 21:04:18 1.43 @@ -1,19 +1,17 @@ -% $Header: /home/ubuntu/mnt/e9_copy/manual/s_getstarted/text/getting_started.tex,v 1.37 2006/06/28 16:48:19 molod Exp $ +% $Header: /home/ubuntu/mnt/e9_copy/manual/s_getstarted/text/getting_started.tex,v 1.43 2010/05/28 21:04:18 jmc Exp $ % $Name: $ %\section{Getting started} -In this section, we describe how to use the model. In the first -section, we provide enough information to help you get started with -the model. We believe the best way to familiarize yourself with the +We believe the best way to familiarize yourself with the model is to run the case study examples provided with the base version. Information on how to obtain, compile, and run the code is -found there as well as a brief description of the model structure -directory and the case study examples. The latter and the code -structure are described more fully in chapters -\ref{chap:discretization} and \ref{chap:sarch}, respectively. Here, in -this section, we provide information on how to customize the code when -you are ready to try implementing the configuration you have in mind. +found here as well as a brief description of the model structure +directory and the case study examples. Information is also provided +here on how to customize the code when you are ready to try implementing +the configuration you have in mind. The code and algorithm +are described more fully in chapters \ref{chap:discretization} and +\ref{chap:sarch}. \section{Where to find information} \label{sect:whereToFindInfo} @@ -104,9 +102,9 @@ code and CVS. It also contains a web interface to our CVS archive so that one may easily view the state of files, revisions, and other development milestones: -\begin{rawhtml} \end{rawhtml} +\begin{rawhtml} \end{rawhtml} \begin{verbatim} -http://mitgcm.org/source_code.html +http://mitgcm.org/viewvc/MITgcm/MITgcm/ \end{verbatim} \begin{rawhtml} \end{rawhtml} @@ -141,7 +139,7 @@ the files in \texttt{CVS}! You can also use CVS to download code updates. More extensive information on using CVS for maintaining MITgcm code can be found -\begin{rawhtml} \end{rawhtml} +\begin{rawhtml} \end{rawhtml} here \begin{rawhtml} \end{rawhtml} . @@ -225,7 +223,7 @@ If you do not have CVS on your system, you can download the model as a tar file from the web site at: -\begin{rawhtml} \end{rawhtml} +\begin{rawhtml} \end{rawhtml} \begin{verbatim} http://mitgcm.org/download/ \end{verbatim} @@ -521,10 +519,24 @@ in the \texttt{tools} directory) to generate a Makefile. \texttt{genmake2} is a shell script written to work with all ``sh''--compatible shells including bash v1, bash v2, and Bourne. -Internally, \texttt{genmake2} determines the locations of needed -files, the compiler, compiler options, libraries, and Unix tools. It -relies upon a number of ``optfiles'' located in the -\texttt{tools/build\_options} directory. +%Internally, \texttt{genmake2} determines the locations of needed +%files, the compiler, compiler options, libraries, and Unix tools. It +%relies upon a number of ``optfiles'' located in the +%\texttt{tools/build\_options} directory. +\texttt{genmake2} parses information from the following sources: +\begin{description} +\item[-] a {\em gemake\_local} file if one is found in the current + directory +\item[-] command-line options +\item[-] an "options file" as specified by the command-line option + \texttt{--optfile=/PATH/FILENAME} +\item[-] a {\em packages.conf} file (if one is found) with the + specific list of packages to compile. The search path for + file {\em packages.conf} is, first, the current directory and + then each of the "MODS" directories in the given order (see below). +\end{description} + +\subsubsection{Optfiles in \texttt{tools/build\_options} directory:} The purpose of the optfiles is to provide all the compilation options for particular ``platforms'' (where ``platform'' roughly means the @@ -597,6 +609,8 @@ \begin{rawhtml} \end{rawhtml} mailing list. +\subsubsection{Command-line options:} + In addition to the optfiles, \texttt{genmake2} supports a number of helpful command-line options. A complete list of these options can be obtained from: @@ -619,21 +633,31 @@ the user's path. When these three items have been identified, genmake2 will try to find an optfile that has a matching name. -\item[\texttt{--pdefault='PKG1 PKG2 PKG3 ...'}] specifies the default - set of packages to be used. The normal order of precedence for - packages is as follows: - \begin{enumerate} - \item If available, the command line (\texttt{--pdefault}) settings - over-rule any others. - - \item Next, \texttt{genmake2} will look for a file named - ``\texttt{packages.conf}'' in the local directory or in any of the - directories specified with the \texttt{--mods} option. - - \item Finally, if neither of the above are available, - \texttt{genmake2} will use the \texttt{/pkg/pkg\_default} file. - \end{enumerate} +\item[\texttt{--mods='DIR1 DIR2 DIR3 ...'}] specifies a list of + directories containing ``modifications''. These directories contain + files with names that may (or may not) exist in the main MITgcm + source tree but will be overridden by any identically-named sources + within the ``MODS'' directories. + + The order of precedence for this "name-hiding" is as follows: + \begin{itemize} + \item ``MODS'' directories (in the order given) + \item Packages either explicitly specified or provided by default + (in the order given) + \item Packages included due to package dependencies (in the order + that that package dependencies are parsed) + \item The "standard dirs" (which may have been specified by the + ``-standarddirs'' option) + \end{itemize} +\item[\texttt{--pgroups=/PATH/FILENAME}] specifies the file + where package groups are defined. If not set, the package-groups + definition will be read from {\em pkg/pkg\_groups}. + It also contains the default list of packages (defined + as the group ``{\it default\_pkg\_list}'' which is used + when no specific package list ({\em packages.conf}) + is found in current directory or in any "MODS" directory. + \item[\texttt{--pdepend=/PATH/FILENAME}] specifies the dependency file used for packages. @@ -658,23 +682,6 @@ "STAF" compiler. As with any compilers, it is helpful to have their directories listed in your {\tt \$PATH} environment variable. -\item[\texttt{--mods='DIR1 DIR2 DIR3 ...'}] specifies a list of - directories containing ``modifications''. These directories contain - files with names that may (or may not) exist in the main MITgcm - source tree but will be overridden by any identically-named sources - within the ``MODS'' directories. - - The order of precedence for this "name-hiding" is as follows: - \begin{itemize} - \item ``MODS'' directories (in the order given) - \item Packages either explicitly specified or provided by default - (in the order given) - \item Packages included due to package dependencies (in the order - that that package dependencies are parsed) - \item The "standard dirs" (which may have been specified by the - ``-standarddirs'' option) - \end{itemize} - \item[\texttt{--mpi}] This option enables certain MPI features (using CPP \texttt{\#define}s) within the code and is necessary for MPI builds (see Section \ref{sect:mpi-build}). @@ -717,7 +724,7 @@ libraries and put them into an options file as described in Section \ref{sect:genmake}. One can start with one of the examples in: \begin{rawhtml} + href="http://mitgcm.org/viewvc/MITgcm/MITgcm/tools/build_options/"> \end{rawhtml} \begin{center} \texttt{MITgcm/tools/build\_options/} @@ -768,14 +775,21 @@ library and a job scheduling and queueing system such as PBS, LoadLeveller, Condor, or any of a number of similar tools. A few example scripts (those used for our \begin{rawhtml} \end{rawhtml}regular + href="http://mitgcm.org/public/testing.html"> \end{rawhtml}regular verification runs\begin{rawhtml} \end{rawhtml}) are available at: \begin{rawhtml} + href="http://mitgcm.org/viewvc/MITgcm/MITgcm/tools/example_scripts/"> + \end{rawhtml} + {\footnotesize \tt + http://mitgcm.org/viewvc/MITgcm/MITgcm/tools/example\_scripts/ } + \begin{rawhtml} \end{rawhtml} + or at: + \begin{rawhtml} \end{rawhtml} {\footnotesize \tt - http://mitgcm.org/cgi-bin/viewcvs.cgi/MITgcm\_contrib/test\_scripts/ } + http://mitgcm.org/viewvc/MITgcm/MITgcm\_contrib/test\_scripts/ } \begin{rawhtml} \end{rawhtml} \end{enumerate} @@ -894,47 +908,11 @@ used to restart the model but are overwritten every other time they are output to save disk space during long integrations. - - \subsubsection{MNC output files} Unlike the \texttt{mdsio} output, the \texttt{mnc}--generated output is usually (though not necessarily) placed within a subdirectory with -a name such as \texttt{mnc\_test\_\${DATE}\_\${SEQ}}. The files -within this subdirectory are all in the ``self-describing'' netCDF -format and can thus be browsed and/or plotted using tools such as: -\begin{itemize} -\item \texttt{ncdump} is a utility which is typically included - with every netCDF install: - \begin{rawhtml} \end{rawhtml} -\begin{verbatim} -http://www.unidata.ucar.edu/packages/netcdf/ -\end{verbatim} - \begin{rawhtml} \end{rawhtml} and it converts the netCDF - binaries into formatted ASCII text files. - -\item \texttt{ncview} utility is a very convenient and quick way - to plot netCDF data and it runs on most OSes: - \begin{rawhtml} \end{rawhtml} -\begin{verbatim} -http://meteora.ucsd.edu/~pierce/ncview_home_page.html -\end{verbatim} - \begin{rawhtml} \end{rawhtml} - -\item MatLAB(c) and other common post-processing environments provide - various netCDF interfaces including: - \begin{rawhtml} \end{rawhtml} -\begin{verbatim} -http://mexcdf.sourceforge.net/ -\end{verbatim} - \begin{rawhtml} \end{rawhtml} - \begin{rawhtml} \end{rawhtml} -\begin{verbatim} -http://woodshole.er.usgs.gov/staffpages/cdenham/public_html/MexCDF/nc4ml5.html -\end{verbatim} - \begin{rawhtml} \end{rawhtml} -\end{itemize} - +a name such as \texttt{mnc\_test\_\${DATE}\_\${SEQ}}. \subsection{Looking at the output} @@ -970,3 +948,37 @@ Similar scripts for netCDF output (\texttt{rdmnc.m}) are available and they are described in Section \ref{sec:pkg:mnc}. +The MNC output files are all in the ``self-describing'' netCDF +format and can thus be browsed and/or plotted using tools such as: +\begin{itemize} +\item \texttt{ncdump} is a utility which is typically included + with every netCDF install: + \begin{rawhtml} \end{rawhtml} +\begin{verbatim} +http://www.unidata.ucar.edu/packages/netcdf/ +\end{verbatim} + \begin{rawhtml} \end{rawhtml} and it converts the netCDF + binaries into formatted ASCII text files. + +\item \texttt{ncview} utility is a very convenient and quick way + to plot netCDF data and it runs on most OSes: + \begin{rawhtml} \end{rawhtml} +\begin{verbatim} +http://meteora.ucsd.edu/~pierce/ncview_home_page.html +\end{verbatim} + \begin{rawhtml} \end{rawhtml} + +\item MatLAB(c) and other common post-processing environments provide + various netCDF interfaces including: + \begin{rawhtml} \end{rawhtml} +\begin{verbatim} +http://mexcdf.sourceforge.net/ +\end{verbatim} + \begin{rawhtml} \end{rawhtml} + \begin{rawhtml} \end{rawhtml} +\begin{verbatim} +http://woodshole.er.usgs.gov/staffpages/cdenham/public_html/MexCDF/nc4ml5.html +\end{verbatim} + \begin{rawhtml} \end{rawhtml} +\end{itemize} +