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The exch2 package is an extension to the original cubed sphere exchanges |
The exch2 package is an extension to the original cubed sphere exchanges |
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to allow more flexible domain decomposition and parallelization. Cube faces |
to allow more flexible domain decomposition and parallelization. Cube faces |
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(subdomain) may be divided into whatever number of tiles that divide evenly |
(subdomains) may be divided into whatever number of tiles that divide evenly |
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into the grid point dimensions of the subdomain. Furthermore, the individual |
into the grid point dimensions of the subdomain. Furthermore, the individual |
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tiles may be run on different processors in any combination, (tone this down |
tiles may be run on separate processors in different combinations, |
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a bit), and whether exchanges between particular tiles occur between different |
and whether exchanges between particular tiles occur between different |
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processors is decided at runtime. |
processors is determined at runtime. |
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The exchange parameters are declared in {\em W2\_EXCH2\_TOPOLOGY.h} and |
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assigned in {\em w2\_e2setup.F}, both in the |
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{\em pkg/exch2} directory. The validity of the cube topology depends |
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on the {\em SIZE.h} file as detailed below. Both files are generated by |
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Matlab scripts and |
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should not be edited. The default files provided in the release set up |
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a cube sphere arrangement of six tiles, one per subdomain, each with 32x32 grid |
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points, running on a single processor. |
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\subsection{Key Variables} |
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The descriptions of the variables are divided up into scalars, |
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one-dimensional arrays indexed to the tile number, and two-dimensional |
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arrays indexed to tile number and neighboring tile. This division |
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actually reflects the functionality of these variables, not just the |
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whim of some FORTRAN enthusiast. |
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\subsubsection{Scalars} |
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The number of tiles in a particular topology is set with the parameter |
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{\em NTILES}, and the maximum number of neighbors of any tiles by |
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{\em MAX\_NEIGHBOURS}. These parameters are used for defining the size of |
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the various one and two dimensional arrays that store tile parameters |
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indexed to the tile number. |
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The scalar parameters {\em exch2\_domain\_nxt} and |
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{\em exch2\_domain\_nyt} express the number of tiles in the x and y global |
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indices. For example, the default setup of six tiles has |
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{\em exch2\_domain\_nxt=6} and {\em exch2\_domain\_nyt=1}. A topology of |
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twenty-four square (in gridpoints) tiles, four (2x2) per subdomain, will |
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have {\em exch2\_domain\_nxt=12} and {\em exch2\_domain\_nyt=2}. Note |
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that these parameters express the tile layout to allow global data files that |
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are tile-layout-neutral and have no bearing on the internal storage of the |
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arrays. The tiles are internally stored in a range from {\em 1,bi} (in the |
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x axis) and y-axis variable {\em bj} is generally ignored within the package. |
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\subsubsection{One-Dimensional Arrays} |
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The following arrays are indexed to the tile number, and the indices are |
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omitted in their descriptions. |
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The arrays {\em exch2\_tnx} and {\em exch2\_tny} |
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express the x and y dimensions of each tile. At present for each tile |
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{\em exch2\_tnx = sNx} |
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and {\em exch2\_tny = sNy}, as assigned in {\em SIZE.h}. Future releases of |
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MITgcm are to allow varying tile sizes. |
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The location of the tiles' Cartesian origin within a subdomain are determined |
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by the arrays {\em exch2\_tbasex} and {\em exch2\_tbasey}. These |
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\subsubsection{Two-Dimensional Arrays} |
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// |
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\begin{verbatim} |
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C NTILES :: Number of tiles in this topology |
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C MAX_NEIGHBOURS :: Maximum number of neighbours any tile has. |
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C exch2_domain_nxt :: Total domain length in tiles. |
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C exch2_domain_nyt :: Maximum domain height in tiles. |
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C exch2_tnx :: Size in X for each tile. |
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C exch2_tny :: Size in Y for each tile. |
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C exch2_tbasex :: Tile offset in X within its sub-domain (cube face) |
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C exch2_tbasey :: Tile offset in Y within its sub-domain (cube face) |
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C exch2_tglobalxlo :: Tile base X index within global index space. |
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C exch2_tglobalylo :: Tile base Y index within global index space. |
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C exch2_isWedge :: 0 if West not at domain edge, 1 if it is. |
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C exch2_isNedge :: 0 if North not at domain edge, 1 if it is. |
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C exch2_isEedge :: 0 if East not at domain edge, 1 if it is. |
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C exch2_isSedge :: 0 if South not at domain edge, 1 if it is. |
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C exch2_myFace :: Cube face number used for I/O. |
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C exch2_nNeighbours :: Tile neighbour entries count. |
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C exch2_tProc :: Rank of process owning tile |
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C :: (filled at run time). |
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C exch2_neighbourId :: Tile number for each neighbour entry. |
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C exch2_opposingSend_record :: Record for entry in target tile send |
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C :: list that has this tile and face |
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C :: as its target. |
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C exch2_pi :: X index row of target to source permutation |
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C :: matrix for each neighbour entry. |
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C exch2_pj :: Y index row of target to source permutation |
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C :: matrix for each neighbour entry. |
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C exch2_oi :: X index element of target to source |
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C :: offset vector for cell-centered quantities |
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C :: of each neighbor entry. |
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C exch2_oj :: Y index element of target to source |
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C :: offset vector for cell-centered quantities |
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C :: of each neighbor entry. |
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C exch2_oi_f :: X index element of target to source |
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C :: offset vector for face quantities |
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C :: of each neighbor entry. |
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C exch2_oj_f :: Y index element of target to source |
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C :: offset vector for face quantities |
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C :: of each neighbor entry. |
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\end{verbatim} |
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