Changeset 2376 for branches/nemo_v3_3_beta/DOC/TexFiles/Chapters/Chap_LBC.tex

Timestamp:

2010-11-11T18:01:29+01:00 (13 years ago)

Author:

gm

Message:

v3.3beta: better TKE description, CFG a new Chapter, and correction of Fig references

File:

• branches/nemo_v3_3_beta/DOC/TexFiles/Chapters/Chap_LBC.tex (modified) (14 diffs)

branches/nemo_v3_3_beta/DOC/TexFiles/Chapters/Chap_LBC.tex

@@ -51 +51 @@
 
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
-\begin{figure}[!t] \label{Fig_LBC_uv}  \begin{center}
+\begin{figure}[!t]     \begin{center}
 \includegraphics[width=0.90\textwidth]{./TexFiles/Figures/Fig_LBC_uv.pdf}
-\caption {Lateral boundary (thick line) at T-level. The velocity normal to the 
-       boundary is set to zero.}
+\caption{  \label{Fig_LBC_uv}
+Lateral boundary (thick line) at T-level. The velocity normal to the boundary is set to zero.}
 \end{center}   \end{figure}
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
@@ -74 +74 @@
 
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
-\begin{figure}[!p] \label{Fig_LBC_shlat}  \begin{center}
+\begin{figure}[!p] \begin{center}
 \includegraphics[width=0.90\textwidth]{./TexFiles/Figures/Fig_LBC_shlat.pdf}
-\caption {lateral boundary condition (a) free-slip ($rn\_shlat=0$) ; (b) no-slip ($rn\_shlat=2$) 
+\caption{     \label{Fig_LBC_shlat} 
+lateral boundary condition (a) free-slip ($rn\_shlat=0$) ; (b) no-slip ($rn\_shlat=2$) 
 ; (c) "partial" free-slip ($0<rn\_shlat<2$) and (d) "strong" no-slip ($2<rn\_shlat$). 
 Implied "ghost" velocity inside land area is display in grey. }
-\end{center}   \end{figure}
+\end{center}    \end{figure}
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
 
@@ -192 +193 @@
 
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
-\begin{figure}[!t] \label{Fig_LBC_jperio}  \begin{center}
+\begin{figure}[!t]     \begin{center}
 \includegraphics[width=1.0\textwidth]{./TexFiles/Figures/Fig_LBC_jperio.pdf}
-\caption {setting of (a) east-west cyclic  (b) symmetric across the equator boundary conditions.}
+\caption{    \label{Fig_LBC_jperio}
+setting of (a) east-west cyclic  (b) symmetric across the equator boundary conditions.}
 \end{center}   \end{figure}
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
@@ -209 +211 @@
 
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
-\begin{figure}[!t] \label{Fig_North_Fold_T}  \begin{center}
+\begin{figure}[!t]    \begin{center}
 \includegraphics[width=0.90\textwidth]{./TexFiles/Figures/Fig_North_Fold_T.pdf}
-\caption {North fold boundary with a $T$-point pivot and cyclic east-west boundary condition 
-($jperio=4$), as used in ORCA 2, 1/4, and 1/12. Pink shaded area corresponds to the inner 
-domain mask (see text). }
+\caption{    \label{Fig_North_Fold_T} 
+North fold boundary with a $T$-point pivot and cyclic east-west boundary condition 
+($jperio=4$), as used in ORCA 2, 1/4, and 1/12. Pink shaded area corresponds 
+to the inner domain mask (see text). }
 \end{center}   \end{figure}
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
@@ -274 +277 @@
 
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
-\begin{figure}[!t] \label{Fig_mpp}  \begin{center}
+\begin{figure}[!t]    \begin{center}
 \includegraphics[width=0.90\textwidth]{./TexFiles/Figures/Fig_mpp.pdf}
-\caption {Positioning of a sub-domain when massively parallel processing is used. }
+\caption{   \label{Fig_mpp} 
+Positioning of a sub-domain when massively parallel processing is used. }
 \end{center}   \end{figure}
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
@@ -363 +367 @@
 
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
-\begin{figure}[!ht] \label{Fig_mppini2}  \begin{center}
+\begin{figure}[!ht]     \begin{center}
 \includegraphics[width=0.90\textwidth]{./TexFiles/Figures/Fig_mppini2.pdf}
-\caption {Example of Atlantic domain defined for the CLIPPER projet. Initial grid is 
-composed of 773 x 1236 horizontal points. (a) the domain is split onto 9 \time 20 
-subdomains (jpni=9, jpnj=20). 52 subdomains are land areas. (b) 52 subdomains 
-are eliminated (white rectangles) and the resulting number of processors really 
-used during the computation is jpnij=128.}
+\caption {    \label{Fig_mppini2}
+Example of Atlantic domain defined for the CLIPPER projet. Initial grid is 
+composed of 773 x 1236 horizontal points. 
+(a) the domain is split onto 9 \time 20 subdomains (jpni=9, jpnj=20). 
+52 subdomains are land areas. 
+(b) 52 subdomains are eliminated (white rectangles) and the resulting number 
+of processors really used during the computation is jpnij=128.}
 \end{center}   \end{figure}
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
@@ -444 +450 @@
 
 %--------------------------------------------------TABLE--------------------------------------------------
-
-\begin{table}[htbp]  \label{Tab_obc_param}
-\begin{center}
-\begin{tabular}{|l|c|c|c|}
+\begin{table}[htbp]     \begin{center}    \begin{tabular}{|l|c|c|c|}
 \hline
 Boundary and  & Constant index  & Starting index (d\'{e}but) & Ending index (fin) \\
@@ -464 +467 @@
 lp\_obc\_north  & $j$-index of a $v$ point      & $i$  of a $T$ point & $i$ of a $T$ point \\
 \hline
-\end{tabular}
-\end{center}
-\caption{Names of different indices relating to the open boundaries. In the case 
+\end{tabular}    \end{center}
+\caption{     \label{Tab_obc_param}
+Names of different indices relating to the open boundaries. In the case 
 of a completely open ocean domain with four ocean boundaries, the parameters 
 take exactly the values indicated.}
 \end{table}
+%------------------------------------------------------------------------------------------------------------
 
 The open boundaries must be along coordinate lines. On the C-grid, the boundary 
@@ -496 +500 @@
 
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
-\begin{figure}[!t] \label{Fig_obc_north}  \begin{center}
+\begin{figure}[!t]     \begin{center}
 \includegraphics[width=0.70\textwidth]{./TexFiles/Figures/Fig_obc_north.pdf}
-\caption {Localization of the North open boundary points.}
-\end{center}  
-\end{figure}
+\caption{    \label{Fig_obc_north}
+Localization of the North open boundary points.}
+\end{center}     \end{figure}
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
 
@@ -559 +563 @@
 
 %--------------------------------------------------TABLE--------------------------------------------------
-
-\begin{table}[htbp]  \label{Tab_obc_ind}
-\begin{center}
-\begin{tabular}{|l|c|c|c|c|c|}
+\begin{table}[htbp]     \begin{center}      \begin{tabular}{|l|c|c|c|c|c|}
 \hline
 OBC  & Variable   & file name      & Index  & Start  & end  \\
@@ -581 +582 @@
       &    V      &   obcnorth\_V.nc  &  $je$-2     &  $ib$+1 &  $ie-1$  \\  
 \hline
-\end{tabular}
-\end{center}
-\caption{Requirements for creating open boundary files from a global configuration, 
+\end{tabular}     \end{center}
+\caption{    \label{Tab_obc_ind}
+Requirements for creating open boundary files from a global configuration, 
 appropriate for the subdomain of indices $ib:ie$, $jb:je$. ``Index'' designates the 
 $i$ or $j$ index along which the $u$ of $v$ boundary point is situated in the global 
@@ -590 +591 @@
 $-F$ $-d\;y,je-2$  $-d\;x,ib+1,ie-1$ } 
 \end{table}
+%-----------------------------------------------------------------------------------------------------------
 
 It is assumed that the open boundary files contain the variables for the period of 
@@ -878 +880 @@
 
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
-\begin{figure}[!t] \label{Fig_LBC_bdy_geom}  \begin{center}
+\begin{figure}[!t]      \begin{center}
 \includegraphics[width=1.0\textwidth]{./TexFiles/Figures/Fig_LBC_bdy_geom.pdf}
-\caption {Example of geometry of unstructured open boundary}
+\caption {      \label{Fig_LBC_bdy_geom}
+Example of geometry of unstructured open boundary}
 \end{center}   \end{figure}
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
@@ -923 +926 @@
 
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>
-\begin{figure}[!t] \label{Fig_LBC_nc_header}  \begin{center}
+\begin{figure}[!t]     \begin{center}
 \includegraphics[width=1.0\textwidth]{./TexFiles/Figures/Fig_LBC_nc_header.pdf}
-\caption {Example of header of netcdf input data file for BDY}
+\caption {     \label{Fig_LBC_nc_header} 
+Example of header of netcdf input data file for BDY}
 \end{center}   \end{figure}
 %>>>>>>>>>>>>>>>>>>>>>>>>>>>>