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1  % $Header$  % $Header$
2  % $Name$  % $Name$
3    
4  %%  * Introduction  \section{NetCDF I/O Integration: MNC}
 %%    o what it does, citations (refs go into mitgcm_manual.bib,  
 %%      preferably in alphabetic order)  
 %%    o Equations  
 %%  * Key subroutines and parameters  
 %%  * Reference material (auto generated from Protex and structured comments)  
 %%    o automatically inserted at \section{Reference}  
   
   
 \section{MNC: the MITgcm NetCDF Package}  
5  \label{sec:pkg:mnc}  \label{sec:pkg:mnc}
6    
7  \subsection{Introduction}  The \texttt{mnc} package is a set of convenience routines written to
8    expedite the process of creating, appending, and reading NetCDF files.
9  The MNC package is a set of convenience routines written to expedite  NetCDF is an increasingly popular self-describing file format
10  the process of creating, appending, and reading NetCDF files.  NetCDF  \cite{rew:97} intended primarily for scientific data sets.  An
11  is a self-describing file format \cite{rew:97} intended primarily for  extensive collection of NetCDF reference papers, user guides,
12  scientific data.  NetCDF reference papers, user guides, FAQs, and other  software, FAQs, and other information can be obtained from UCAR's web
13  information can be obtained from UCAR's web site at:  site at:
14    \begin{rawhtml} <A href="http://www.unidata.ucar.edu/packages/netcdf/"> \end{rawhtml}
15  \begin{itemize}  \begin{verbatim}
16  \item http://www.unidata.ucar.edu/packages/netcdf/  http://www.unidata.ucar.edu/packages/netcdf/
17  \end{itemize}  \end{verbatim}
18    \begin{rawhtml} </A> \end{rawhtml}
19    
20    
21    \subsection{Introduction}
22    
23    The \texttt{mnc} package is a two-level convenience library (or
24    ``wrapper'') for most of the NetCDF Fortran API.  Its purpose is to
25    streamline the user interface to NetCDF by maintaining internal
26    relations (look-up tables) keyed with strings (or names) and entities
27    such as NetCDF files, variables, and attributes.
28    
29    The two levels of the \texttt{mnc} package are:
30    \begin{description}
31    
32    \item[Upper level] \
33      
34      The upper level contains information about two kinds of
35      associations:
36      \begin{description}
37      \item[grid type] is lookup table indexed with a grid type name.
38        Each grid type name is associated with a number of dimensions, the
39        dimension sizes (one of which may be unlimited), and starting and
40        ending index arrays.  The intent is to store all the necessary
41        size and shape information for the Fortran arrays containing
42        MITgcm--style ``tile'' variables (that is, a central region
43        surrounded by a variably-sized ``halo'' or exchange region as
44        shown in Figures \ref{fig:communication_primitives} and
45        \ref{fig:tiling-strategy}).
46      
47      \item[variable type] is a lookup table indexed by a variable type
48        name.  For each name, the table contains a reference to a grid
49        type for the variable and the names and values of various
50        attributes.
51      \end{description}
52      
53      Within the upper level, these associations are not permanently tied
54      to any particular NetCDF file.  This allows the information to be
55      re-used over multiple file reads and writes.
56    
57    \item[Lower level] \
58      
59      In the lower (or internal) level, associations are stored for NetCDF
60      files and many of the entities that they contain including
61      dimensions, variables, and global attributes.  All associations are
62      on a per-file basis.  Thus, each entity is tied to a unique NetCDF
63      file and will be created or destroyed when files are, respectively,
64      opened or closed.
65    
66    \end{description}
67    
68    
69    \subsection{Using MNC}
70    
71    \subsubsection{Grid--Types and Variable--Types}
72    
73    As a convenience for users, the MNC package includes numerous routines
74    to aid in the writing of data to NetCDF format.  Probably the biggest
75    convenience is the use of pre-defined ``grid types'' and ``variable
76    types''.  These ``types'' are simply look-up tables that store
77    dimensions, indicies, attributes, and other information that can all
78    be retrieved using a single character string.
79    
80    The ``grid types'' are a way of mapping variables within MITgcm to
81    NetCDF arrays.  Within MITgcm, most spatial variables are defined
82    using two-- or three--dimensional arrays with ``overlap'' regions (see
83    Figures \ref{fig:communication_primitives}, a possible vertical index,
84    and \ref{fig:tiling-strategy}) and tile indicies such as the following
85    ``U'' velocity:
86    \begin{verbatim}
87          _RL  uVel (1-OLx:sNx+OLx,1-OLy:sNy+OLy,Nr,nSx,nSy)
88    \end{verbatim}
89    as defined in \filelink{model/inc/DYNVARS.h}{model-inc-DYNVARS.h}
90    
91    The grid type is a character string that encodes the presence and
92    types associated with the four possible dimensions.  The character
93    string follows the format
94    \begin{center}
95      \texttt{H0\_H1\_H2\_\_V\_\_T}
96    \end{center}
97    where the terms \textit{H0}, \textit{H1}, \textit{H2}, \textit{V},
98    \textit{T} can be almost any combination of the following:
99    \begin{center}
100      \begin{tabular}[h]{|ccc|c|c|}\hline
101        \multicolumn{3}{|c|}{Horizontal} & Vertical & Time \\
102        \textbf{H0}: location & \textbf{H1}: dimensions & \textbf{H2}: halo
103              & \textbf{V}: location & \textbf{T}: level  \\\hline
104        \texttt{-} & xy & Hn & \texttt{-} & \texttt{-} \\
105        U  &  x  &  Hy  &  i  &  t  \\
106        V  &  y  &      &  c  &     \\
107        Cen  &   &      &     &     \\
108        Cor  &   &      &     &     \\\hline
109      \end{tabular}
110    \end{center}
111    A example list of all pre-defined combinations is contained in the
112    file
113    \begin{center}
114      \texttt{pkg/mnc/pre-defined\_grids.txt}.
115    \end{center}
116    
117    The variable type is an association between a variable type name and the
118    following items:
119    \begin{center}
120      \begin{tabular}[h]{|l|l|}\hline
121        \textbf{Item}  & \textbf{Purpose}  \\\hline
122        grid type  &  defines the in-memory arrangement  \\
123        \texttt{bi,bj} dimensions  &  tiling indices, if present  \\\hline
124      \end{tabular}
125    \end{center}
126    and is used by the \texttt{mnc\_cw\_*\_[R|W]} subroutines for reading
127    and writing variables.
128    
129    
130    \subsubsection{An Example}
131    
132    Writing variables to NetCDF files can be accomplished in as few as two
133    function calls.  The first function call defines a variable type,
134    associates it with a name (character string), and provides additional
135    information about the indicies for the tile (\texttt{bi},\texttt{bj})
136    dimensions.  The second function call will write the data at, if
137    necessary, the current time level within the model.
138    
139    Examples of the initialization calls can be found in the file
140    \filelink{model/src/ini\_mnc\_io.F}{model-src-ini_mnc_io.F}
141    where these function calls:
142    {\footnotesize
143    \begin{verbatim}
144    C     Create MNC definitions for DYNVARS.h variables
145          CALL MNC_CW_ADD_VNAME('iter', '-_-_--__-__t', 0,0, myThid)
146          CALL MNC_CW_ADD_VATTR_TEXT('iter',1,
147         &     'long_name','iteration_count', myThid)
148    
149          CALL MNC_CW_ADD_VNAME('model_time', '-_-_--__-__t', 0,0, myThid)
150          CALL MNC_CW_ADD_VATTR_TEXT('model_time',1,
151         &     'long_name','Model Time', myThid)
152          CALL MNC_CW_ADD_VATTR_TEXT('model_time',1,'units','s', myThid)
153    
154          CALL MNC_CW_ADD_VNAME('U', 'U_xy_Hn__C__t', 4,5, myThid)
155          CALL MNC_CW_ADD_VATTR_TEXT('U',1,'units','m/s', myThid)
156          CALL MNC_CW_ADD_VATTR_TEXT('U',1,
157         &     'coordinates','XU YU RC iter', myThid)
158    
159          CALL MNC_CW_ADD_VNAME('T', 'Cen_xy_Hn__C__t', 4,5, myThid)
160          CALL MNC_CW_ADD_VATTR_TEXT('T',1,'units','degC', myThid)
161          CALL MNC_CW_ADD_VATTR_TEXT('T',1,'long_name',
162         &     'potential_temperature', myThid)
163          CALL MNC_CW_ADD_VATTR_TEXT('T',1,
164         &     'coordinates','XC YC RC iter', myThid)
165    \end{verbatim}
166    }
167    {\noindent initialize four \texttt{VNAME}s and add one or more NetCDF
168      attributes to each.}
169        
170    The four variables defined above are subsequently written at specific
171    time steps within
172    \filelink{model/src/write\_state.F}{model-src-write_state.F}
173    using the function calls:
174    {\footnotesize
175    \begin{verbatim}
176    C       Write dynvars using the MNC package
177            CALL MNC_CW_SET_UDIM('state', -1, myThid)
178            CALL MNC_CW_I_W('I','state',0,0,'iter', myIter, myThid)
179            CALL MNC_CW_SET_UDIM('state', 0, myThid)
180            CALL MNC_CW_RL_W('D','state',0,0,'model_time',myTime, myThid)
181            CALL MNC_CW_RL_W('D','state',0,0,'U', uVel, myThid)
182            CALL MNC_CW_RL_W('D','state',0,0,'T', theta, myThid)
183    \end{verbatim}
184    }
185    
186    
187    \subsubsection{Parameters}
188    
189    Most of the MNC--related parameters are contained within a Fortran
190    namelist file called \texttt{data.mnc}.  If this file does not exist,
191    then the MNC package will interpret that as an indication that it is
192    not to be used.  If the \texttt{data.mnc} file does exist, then it may
193    contain the following parameters:
194    
195    \begin{center}
196      {\footnotesize
197        \begin{tabular}[htb]{|l|c|l|l|}\hline
198          \textbf{Name}  &  \textbf{T}  &  
199          \textbf{Default}  &  \textbf{Description}  \\\hline
200          &  &  &  \\
201          \texttt{useMNC}  &  L  & \texttt{.FALSE.}  &  
202          \textbf{overall MNC ON/OFF switch}  \\
203          \texttt{mnc\_echo\_gvtypes}  &  L  & \texttt{.FALSE.}  &  
204          echo pre-defined ``types'' (debugging)   \\
205          \texttt{mnc\_use\_outdir}  &  L  & \texttt{.FALSE.}  &  
206          create a directory for output  \\
207          \texttt{mnc\_outdir\_str}  &  S  & \texttt{'mnc\_'}  &  
208          output directory name \\
209          \texttt{mnc\_outdir\_date}  &  L  & \texttt{.FALSE.}  &  
210          embed date in the output dir name  \\
211          \texttt{pickup\_write\_mnc}  &  L  & \texttt{.FALSE.}  &  
212          use MNC to write (create) pickup files  \\
213          \texttt{pickup\_read\_mnc}  &  L  & \texttt{.FALSE.}  &  
214          use MNC to read pickup files  \\
215          \texttt{mnc\_use\_indir}  &  L  & \texttt{.FALSE.}  &  
216          use a directory (path) for input  \\
217          \texttt{mnc\_indir\_str}  &  S  & \texttt{''}  &  
218          input directory (or path) name  \\
219          \texttt{snapshot\_mnc}  &  L  & \texttt{.FALSE.}  &  
220          write \texttt{snapshot} (instantaneous) w/MNC  \\
221          \texttt{monitor\_mnc}  &  L  & \texttt{.FALSE.}  &  
222          write \texttt{monitor} w/MNC  \\
223          \texttt{timeave\_mnc}  &  L  & \texttt{.FALSE.}  &  
224          write \texttt{timeave} w/MNC  \\\hline
225        \end{tabular}
226      }
227    \end{center}
228    
229    Additional MNC--related parameters are contained within the main
230    \texttt{data} namelist file and in some of the namelist files for
231    individual packages.  These options are:
232    \begin{center}
233      {\footnotesize
234        \begin{tabular}[htb]{|l|c|l|l|}\hline
235          \textbf{Name}  &  \textbf{T}  &  
236          \textbf{Default}  &  \textbf{Description}  \\\hline
237          \multicolumn{4}{|c|}{\ }  \\
238          \multicolumn{4}{|c|}{Main namelist file:
239            ``\textbf{data}''}  \\\hline
240          \texttt{snapshot\_ioinc}  &  L  & \texttt{.FALSE.}  &  
241          write \texttt{snapshot} ``inclusively''  \\
242          \texttt{timeave\_ioinc}  &  L  & \texttt{.FALSE.}  &  
243          write \texttt{timeave} ``inclusively''  \\
244          \texttt{monitor\_ioinc}  &  L  & \texttt{.FALSE.}  &  
245          write \texttt{monitor} ``inclusively''  \\\hline
246          \multicolumn{4}{|c|}{\ }  \\
247          \multicolumn{4}{|c|}{Diagnostics namelist file:
248            ``\textbf{data.diagnostics}''}  \\\hline
249          \texttt{diag\_mnc}  &  L  & \texttt{.FALSE.}  &  
250          write \texttt{diagnostics} w/MNC  \\
251          \texttt{diag\_ioinc}  &  L  & \texttt{.FALSE.}  &  
252          write \texttt{diagnostics} ``inclusively''  \\\hline
253        \end{tabular}
254      }
255    \end{center}
256    
257    By default, turning on MNC for a particular output stream will result
258    in turning off all the corresponding (usually, default) MDSIO or
259    STDOUT output mechanisms.  In other words, output defaults to being an
260    exclusive selection.  To enable multiple kinds of simultaneous output,
261    flags of the form \texttt{NAME\_ioinc} can be used where \texttt{NAME}
262    corresponds to the various MNC output flags.  When a
263    \texttt{NAME\_ioinc} flag is set to \texttt{.TRUE.}, then multiple
264    forms of output are allowed for the \texttt{NAME} output mechanism.
265    The intent of this design is that typical users will only want one
266    kind of output while people debugging the code (particularly the I/O
267    routines) may want simultaneous types of output.
268    
269    This ``inclusive'' versus ``exclusive'' design is easily applied in
270    cases where three or more kinds of output may be generated.  Thus, it
271    can be readily extended to additional new output types (eg. HDF5).
272    
273  \subsection{Key Routines}  Input types are always exclusive.
   
   
   
 \subsection{References}  
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