| 109 |
from the Matlab prompt (there are no parameters to pass) generates |
from the Matlab prompt (there are no parameters to pass) generates |
| 110 |
exch2 topology files \file{W2\_EXCH2\_TOPOLOGY.h} and |
exch2 topology files \file{W2\_EXCH2\_TOPOLOGY.h} and |
| 111 |
\file{w2\_e2setup.F} in the working directory and displays a figure of |
\file{w2\_e2setup.F} in the working directory and displays a figure of |
| 112 |
the topology via Matlab -- figures \ref{fig:6tile}, \ref{fig:12tile}, |
the topology via Matlab -- figures \ref{fig:6tile}, \ref{fig:18tile}, |
| 113 |
and \ref{fig:24tile} are examples of the generated diagrams. The other |
and \ref{fig:48tile} are examples of the generated diagrams. The other |
| 114 |
m-files in the directory are |
m-files in the directory are |
| 115 |
subroutines called from \file{driver.m} and should not be run ``bare'' except |
subroutines called from \file{driver.m} and should not be run ``bare'' except |
| 116 |
for development purposes. \\ |
for development purposes. \\ |
| 131 |
the tiles into which the subdomains are decomposed, and must evenly |
the tiles into which the subdomains are decomposed, and must evenly |
| 132 |
divide the integer assigned to \code{nr}, \code{nb} and \code{ng}. |
divide the integer assigned to \code{nr}, \code{nb} and \code{ng}. |
| 133 |
The result is a rectangular tiling of the subdomain. Figure |
The result is a rectangular tiling of the subdomain. Figure |
| 134 |
\ref{fig:24tile} shows one possible topology for a twenty-four-tile |
\ref{fig:48tile} shows one possible topology for a twenty-four-tile |
| 135 |
cube, and figure \ref{fig:12tile} shows one for twelve tiles. \\ |
cube, and figure \ref{fig:6tile} shows one for six tiles. \\ |
| 136 |
|
|
| 137 |
\begin{figure} |
\begin{figure} |
| 138 |
\begin{center} |
\begin{center} |
| 139 |
\resizebox{4in}{!}{ |
\resizebox{6in}{!}{ |
| 140 |
\includegraphics{part6/s24t_16x16.ps} |
% \includegraphics{part6/s24t_16x16.ps} |
| 141 |
|
\includegraphics{part6/adjust_cs.ps} |
| 142 |
} |
} |
| 143 |
\end{center} |
\end{center} |
| 144 |
|
|
| 145 |
\caption{Plot of a cubed sphere topology with a 32$\times$192 domain |
\caption{Plot of a cubed sphere topology with a 32$\times$192 domain |
| 146 |
divided into six 32$\times$32 subdomains, each of which is divided |
divided into six 32$\times$32 subdomains, each of which is divided |
| 147 |
into four tiles of width \code{tnx=16} and height \code{tny=16} for a |
into eight tiles of width \code{tnx=16} and height \code{tny=8} for a |
| 148 |
total of twenty-four tiles. The colored borders of the subdomains |
total of forty-eight tiles. The colored borders of the subdomains |
| 149 |
represent the parameters \code{nr} (red), \code{nb} (blue), and |
represent the parameters \code{nr} (red), \code{ng} (green), and |
| 150 |
\code{ng} (green). } \label{fig:24tile} |
\code{nb} (blue). |
| 151 |
|
This tiling is used in the example |
| 152 |
|
verification/adjustment.cs-32x32x1/ |
| 153 |
|
with the option (blanklist.txt) to remove the land-only 4 tiles |
| 154 |
|
(11,12,13,14) which are filled in red on the plot. |
| 155 |
|
} \label{fig:48tile} |
| 156 |
\end{figure} |
\end{figure} |
| 157 |
|
|
| 158 |
\begin{figure} |
\begin{figure} |
| 159 |
\begin{center} |
\begin{center} |
| 160 |
\resizebox{4in}{!}{ |
\resizebox{6in}{!}{ |
| 161 |
\includegraphics{part6/s12t_16x32.ps} |
% \includegraphics{part6/s12t_16x32.ps} |
| 162 |
|
\includegraphics{part6/polarcap.ps} |
| 163 |
} |
} |
| 164 |
\end{center} |
\end{center} |
| 165 |
\caption{Plot of a cubed sphere topology with a 32$\times$192 domain |
\caption{Plot of a non-square cubed sphere topology with |
| 166 |
divided into six 32$\times$32 subdomains of two tiles each |
6 subdomains of different size (nr=90,ng=360,nb=90), |
| 167 |
(\code{tnx=16, tny=32}). |
divided into one to four tiles each |
| 168 |
} \label{fig:12tile} |
(\code{tnx=90, tny=90}), resulting in a total of 18 tiles. |
| 169 |
|
} \label{fig:18tile} |
| 170 |
\end{figure} |
\end{figure} |
| 171 |
|
|
| 172 |
\begin{figure} |
\begin{figure} |
| 173 |
\begin{center} |
\begin{center} |
| 174 |
\resizebox{4in}{!}{ |
\resizebox{4in}{!}{ |
| 175 |
|
% \includegraphics{part6/s6t_32x32.ps} |
| 176 |
\includegraphics{part6/s6t_32x32.ps} |
\includegraphics{part6/s6t_32x32.ps} |
| 177 |
} |
} |
| 178 |
\end{center} |
\end{center} |
| 240 |
processor. Such dummy tiles are \emph{not} listed in |
processor. Such dummy tiles are \emph{not} listed in |
| 241 |
\file{blanklist.txt}. |
\file{blanklist.txt}. |
| 242 |
|
|
| 243 |
The following is an example of \file{SIZE.h} for the twelve-tile |
The following is an example of \file{SIZE.h} for the six-tile |
| 244 |
configuration illustrated in figure \ref{fig:12tile} running on one |
configuration illustrated in figure \ref{fig:6tile} |
| 245 |
processor: |
running on one processor: |
| 246 |
|
|
| 247 |
\begin{verbatim} |
\begin{verbatim} |
| 248 |
PARAMETER ( |
PARAMETER ( |
| 249 |
& sNx = 16, |
& sNx = 32, |
| 250 |
& sNy = 32, |
& sNy = 32, |
| 251 |
& OLx = 2, |
& OLx = 2, |
| 252 |
& OLy = 2, |
& OLy = 2, |
| 253 |
& nSx = 12, |
& nSx = 6, |
| 254 |
& nSy = 1, |
& nSy = 1, |
| 255 |
& nPx = 1, |
& nPx = 1, |
| 256 |
& nPy = 1, |
& nPy = 1, |
| 259 |
& Nr = 5) |
& Nr = 5) |
| 260 |
\end{verbatim} |
\end{verbatim} |
| 261 |
|
|
| 262 |
The following is an example for the twenty-four-tile topology in |
The following is an example for the forty-eight-tile topology in |
| 263 |
figure \ref{fig:24tile} running on six processors: |
figure \ref{fig:48tile} running on six processors: |
| 264 |
|
|
| 265 |
\begin{verbatim} |
\begin{verbatim} |
| 266 |
PARAMETER ( |
PARAMETER ( |
| 267 |
& sNx = 16, |
& sNx = 16, |
| 268 |
& sNy = 16, |
& sNy = 8, |
| 269 |
& OLx = 2, |
& OLx = 2, |
| 270 |
& OLy = 2, |
& OLy = 2, |
| 271 |
& nSx = 4, |
& nSx = 8, |
| 272 |
& nSy = 1, |
& nSy = 1, |
| 273 |
& nPx = 6, |
& nPx = 6, |
| 274 |
& nPy = 1, |
& nPy = 1, |
| 302 |
of tiles in the $x$ and $y$ global indices. For example, the default |
of tiles in the $x$ and $y$ global indices. For example, the default |
| 303 |
setup of six tiles (Fig. \ref{fig:6tile}) has |
setup of six tiles (Fig. \ref{fig:6tile}) has |
| 304 |
\code{exch2\_domain\_nxt=6} and \code{exch2\_domain\_nyt=1}. A |
\code{exch2\_domain\_nxt=6} and \code{exch2\_domain\_nyt=1}. A |
| 305 |
topology of twenty-four square tiles, four per subdomain (as in figure |
topology of forty-eight tiles, eight per subdomain (as in figure |
| 306 |
\ref{fig:24tile}), will have \code{exch2\_domain\_nxt=12} and |
\ref{fig:48tile}), will have \code{exch2\_domain\_nxt=12} and |
| 307 |
\code{exch2\_domain\_nyt=2}. Note that these parameters express the |
\code{exch2\_domain\_nyt=4}. Note that these parameters express the |
| 308 |
tile layout in order to allow global data files that are tile-layout-neutral. |
tile layout in order to allow global data files that are tile-layout-neutral. |
| 309 |
They have no bearing on the internal storage of the arrays. The tiles |
They have no bearing on the internal storage of the arrays. The tiles |
| 310 |
are stored internally in a range from \code{\varlink{bi}{bi}=(1:NTILES)} in the |
are stored internally in a range from \code{\varlink{bi}{bi}=(1:NTILES)} in the |
| 344 |
The array \varlink{exch2\_myFace}{exch2_myFace} contains the number of |
The array \varlink{exch2\_myFace}{exch2_myFace} contains the number of |
| 345 |
the subdomain of each tile, in a range \code{(1:6)} in the case of the |
the subdomain of each tile, in a range \code{(1:6)} in the case of the |
| 346 |
standard cube topology and indicated by \textbf{\textsf{f}}$n$ in |
standard cube topology and indicated by \textbf{\textsf{f}}$n$ in |
| 347 |
figures \ref{fig:12tile} and |
figures \ref{fig:6tile} and |
| 348 |
\ref{fig:24tile}. \varlink{exch2\_nNeighbours}{exch2_nNeighbours} |
\ref{fig:48tile}. \varlink{exch2\_nNeighbours}{exch2_nNeighbours} |
| 349 |
contains a count of the neighboring tiles each tile has, and sets |
contains a count of the neighboring tiles each tile has, and sets |
| 350 |
the bounds for looping over neighboring tiles. |
the bounds for looping over neighboring tiles. |
| 351 |
\varlink{exch2\_tProc}{exch2_tProc} holds the process rank of each |
\varlink{exch2\_tProc}{exch2_tProc} holds the process rank of each |
| 467 |
\varlink{exch2\_jthi\_c}{exch2_jthi_c} hold the location and index |
\varlink{exch2\_jthi\_c}{exch2_jthi_c} hold the location and index |
| 468 |
bounds of the edge segment of the neighbor tile \code{N}'s subdomain |
bounds of the edge segment of the neighbor tile \code{N}'s subdomain |
| 469 |
that gets exchanged with the local tile \code{T}. To take the example |
that gets exchanged with the local tile \code{T}. To take the example |
| 470 |
of tile \code{T=2} in the twelve-tile topology |
of tile \code{T=2} in the forty-eight-tile topology |
| 471 |
(Fig. \ref{fig:12tile}): \\ |
(Fig. \ref{fig:48tile}): \\ |
| 472 |
|
|
| 473 |
\begin{verbatim} |
\begin{verbatim} |
| 474 |
exch2_itlo_c(4,2)=17 |
exch2_itlo_c(4,2)=17 |
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