| 15 |
this section, we provide information on how to customize the code when |
this section, we provide information on how to customize the code when |
| 16 |
you are ready to try implementing the configuration you have in mind. |
you are ready to try implementing the configuration you have in mind. |
| 17 |
|
|
| 18 |
|
|
| 19 |
\section{Where to find information} |
\section{Where to find information} |
| 20 |
\label{sect:whereToFindInfo} |
\label{sect:whereToFindInfo} |
| 21 |
|
\begin{rawhtml} |
| 22 |
|
<!-- CMIREDIR:whereToFindInfo: --> |
| 23 |
|
\end{rawhtml} |
| 24 |
|
|
| 25 |
A web site is maintained for release 2 (``Pelican'') of MITgcm: |
A web site is maintained for release 2 (``Pelican'') of MITgcm: |
| 26 |
\begin{rawhtml} <A href=http://mitgcm.org/pelican/ target="idontexist"> \end{rawhtml} |
\begin{rawhtml} <A href=http://mitgcm.org/pelican/ target="idontexist"> \end{rawhtml} |
| 54 |
|
|
| 55 |
\section{Obtaining the code} |
\section{Obtaining the code} |
| 56 |
\label{sect:obtainingCode} |
\label{sect:obtainingCode} |
| 57 |
|
\begin{rawhtml} |
| 58 |
|
<!-- CMIREDIR:obtainingCode: --> |
| 59 |
|
\end{rawhtml} |
| 60 |
|
|
| 61 |
MITgcm can be downloaded from our system by following |
MITgcm can be downloaded from our system by following |
| 62 |
the instructions below. As a courtesy we ask that you send e-mail to us at |
the instructions below. As a courtesy we ask that you send e-mail to us at |
| 99 |
\begin{verbatim} |
\begin{verbatim} |
| 100 |
% setenv CVSROOT :pserver:cvsanon@mitgcm.org:/u/gcmpack |
% setenv CVSROOT :pserver:cvsanon@mitgcm.org:/u/gcmpack |
| 101 |
\end{verbatim} |
\end{verbatim} |
| 102 |
in your .cshrc or .tcshrc file. For bash or sh shells, put: |
in your \texttt{.cshrc} or \texttt{.tcshrc} file. For bash or sh |
| 103 |
|
shells, put: |
| 104 |
\begin{verbatim} |
\begin{verbatim} |
| 105 |
% export CVSROOT=':pserver:cvsanon@mitgcm.org:/u/gcmpack' |
% export CVSROOT=':pserver:cvsanon@mitgcm.org:/u/gcmpack' |
| 106 |
\end{verbatim} |
\end{verbatim} |
| 155 |
\label{tab:cvsModules} |
\label{tab:cvsModules} |
| 156 |
\end{table} |
\end{table} |
| 157 |
|
|
| 158 |
The checkout process creates a directory called \textit{MITgcm}. If |
The checkout process creates a directory called \texttt{MITgcm}. If |
| 159 |
the directory \textit{MITgcm} exists this command updates your code |
the directory \texttt{MITgcm} exists this command updates your code |
| 160 |
based on the repository. Each directory in the source tree contains a |
based on the repository. Each directory in the source tree contains a |
| 161 |
directory \textit{CVS}. This information is required by CVS to keep |
directory \texttt{CVS}. This information is required by CVS to keep |
| 162 |
track of your file versions with respect to the repository. Don't edit |
track of your file versions with respect to the repository. Don't edit |
| 163 |
the files in \textit{CVS}! You can also use CVS to download code |
the files in \texttt{CVS}! You can also use CVS to download code |
| 164 |
updates. More extensive information on using CVS for maintaining |
updates. More extensive information on using CVS for maintaining |
| 165 |
MITgcm code can be found |
MITgcm code can be found |
| 166 |
\begin{rawhtml} <A href=''http://mitgcm.org/usingcvstoget.html'' target="idontexist"> \end{rawhtml} |
\begin{rawhtml} <A href=''http://mitgcm.org/usingcvstoget.html'' target="idontexist"> \end{rawhtml} |
| 264 |
with. So please be sure you understand what you're doing. |
with. So please be sure you understand what you're doing. |
| 265 |
|
|
| 266 |
\section{Model and directory structure} |
\section{Model and directory structure} |
| 267 |
|
\begin{rawhtml} |
| 268 |
|
<!-- CMIREDIR:directory_structure: --> |
| 269 |
|
\end{rawhtml} |
| 270 |
|
|
| 271 |
The ``numerical'' model is contained within a execution environment |
The ``numerical'' model is contained within a execution environment |
| 272 |
support wrapper. This wrapper is designed to provide a general |
support wrapper. This wrapper is designed to provide a general |
| 274 |
model that uses the framework. Under this structure the model is split |
model that uses the framework. Under this structure the model is split |
| 275 |
into execution environment support code and conventional numerical |
into execution environment support code and conventional numerical |
| 276 |
model code. The execution environment support code is held under the |
model code. The execution environment support code is held under the |
| 277 |
\textit{eesupp} directory. The grid point model code is held under the |
\texttt{eesupp} directory. The grid point model code is held under the |
| 278 |
\textit{model} directory. Code execution actually starts in the |
\texttt{model} directory. Code execution actually starts in the |
| 279 |
\textit{eesupp} routines and not in the \textit{model} routines. For |
\texttt{eesupp} routines and not in the \texttt{model} routines. For |
| 280 |
this reason the top-level \textit{MAIN.F} is in the |
this reason the top-level \texttt{MAIN.F} is in the |
| 281 |
\textit{eesupp/src} directory. In general, end-users should not need |
\texttt{eesupp/src} directory. In general, end-users should not need |
| 282 |
to worry about this level. The top-level routine for the numerical |
to worry about this level. The top-level routine for the numerical |
| 283 |
part of the code is in \textit{model/src/THE\_MODEL\_MAIN.F}. Here is |
part of the code is in \texttt{model/src/THE\_MODEL\_MAIN.F}. Here is |
| 284 |
a brief description of the directory structure of the model under the |
a brief description of the directory structure of the model under the |
| 285 |
root tree (a detailed description is given in section 3: Code |
root tree (a detailed description is given in section 3: Code |
| 286 |
structure). |
structure). |
| 287 |
|
|
| 288 |
\begin{itemize} |
\begin{itemize} |
| 289 |
|
|
| 290 |
\item \textit{bin}: this directory is initially empty. It is the |
\item \texttt{bin}: this directory is initially empty. It is the |
| 291 |
default directory in which to compile the code. |
default directory in which to compile the code. |
| 292 |
|
|
| 293 |
\item \textit{diags}: contains the code relative to time-averaged |
\item \texttt{diags}: contains the code relative to time-averaged |
| 294 |
diagnostics. It is subdivided into two subdirectories \textit{inc} |
diagnostics. It is subdivided into two subdirectories \texttt{inc} |
| 295 |
and \textit{src} that contain include files (*.\textit{h} files) and |
and \texttt{src} that contain include files (\texttt{*.h} files) and |
| 296 |
Fortran subroutines (*.\textit{F} files), respectively. |
Fortran subroutines (\texttt{*.F} files), respectively. |
| 297 |
|
|
| 298 |
\item \textit{doc}: contains brief documentation notes. |
\item \texttt{doc}: contains brief documentation notes. |
| 299 |
|
|
| 300 |
\item \textit{eesupp}: contains the execution environment source code. |
\item \texttt{eesupp}: contains the execution environment source code. |
| 301 |
Also subdivided into two subdirectories \textit{inc} and |
Also subdivided into two subdirectories \texttt{inc} and |
| 302 |
\textit{src}. |
\texttt{src}. |
| 303 |
|
|
| 304 |
\item \textit{exe}: this directory is initially empty. It is the |
\item \texttt{exe}: this directory is initially empty. It is the |
| 305 |
default directory in which to execute the code. |
default directory in which to execute the code. |
| 306 |
|
|
| 307 |
\item \textit{model}: this directory contains the main source code. |
\item \texttt{model}: this directory contains the main source code. |
| 308 |
Also subdivided into two subdirectories \textit{inc} and |
Also subdivided into two subdirectories \texttt{inc} and |
| 309 |
\textit{src}. |
\texttt{src}. |
| 310 |
|
|
| 311 |
\item \textit{pkg}: contains the source code for the packages. Each |
\item \texttt{pkg}: contains the source code for the packages. Each |
| 312 |
package corresponds to a subdirectory. For example, \textit{gmredi} |
package corresponds to a subdirectory. For example, \texttt{gmredi} |
| 313 |
contains the code related to the Gent-McWilliams/Redi scheme, |
contains the code related to the Gent-McWilliams/Redi scheme, |
| 314 |
\textit{aim} the code relative to the atmospheric intermediate |
\texttt{aim} the code relative to the atmospheric intermediate |
| 315 |
physics. The packages are described in detail in section 3. |
physics. The packages are described in detail in section 3. |
| 316 |
|
|
| 317 |
\item \textit{tools}: this directory contains various useful tools. |
\item \texttt{tools}: this directory contains various useful tools. |
| 318 |
For example, \textit{genmake2} is a script written in csh (C-shell) |
For example, \texttt{genmake2} is a script written in csh (C-shell) |
| 319 |
that should be used to generate your makefile. The directory |
that should be used to generate your makefile. The directory |
| 320 |
\textit{adjoint} contains the makefile specific to the Tangent |
\texttt{adjoint} contains the makefile specific to the Tangent |
| 321 |
linear and Adjoint Compiler (TAMC) that generates the adjoint code. |
linear and Adjoint Compiler (TAMC) that generates the adjoint code. |
| 322 |
The latter is described in details in part V. |
The latter is described in details in part V. |
| 323 |
|
|
| 324 |
\item \textit{utils}: this directory contains various utilities. The |
\item \texttt{utils}: this directory contains various utilities. The |
| 325 |
subdirectory \textit{knudsen2} contains code and a makefile that |
subdirectory \texttt{knudsen2} contains code and a makefile that |
| 326 |
compute coefficients of the polynomial approximation to the knudsen |
compute coefficients of the polynomial approximation to the knudsen |
| 327 |
formula for an ocean nonlinear equation of state. The |
formula for an ocean nonlinear equation of state. The |
| 328 |
\textit{matlab} subdirectory contains matlab scripts for reading |
\texttt{matlab} subdirectory contains matlab scripts for reading |
| 329 |
model output directly into matlab. \textit{scripts} contains C-shell |
model output directly into matlab. \texttt{scripts} contains C-shell |
| 330 |
post-processing scripts for joining processor-based and tiled-based |
post-processing scripts for joining processor-based and tiled-based |
| 331 |
model output. |
model output. |
| 332 |
|
|
| 333 |
\item \textit{verification}: this directory contains the model |
\item \texttt{verification}: this directory contains the model |
| 334 |
examples. See section \ref{sect:modelExamples}. |
examples. See section \ref{sect:modelExamples}. |
| 335 |
|
|
| 336 |
\end{itemize} |
\end{itemize} |
| 337 |
|
|
| 338 |
\section[MITgcm Example Experiments]{Example experiments} |
\section[MITgcm Example Experiments]{Example experiments} |
| 339 |
\label{sect:modelExamples} |
\label{sect:modelExamples} |
| 340 |
|
\begin{rawhtml} |
| 341 |
|
<!-- CMIREDIR:modelExamples: --> |
| 342 |
|
\end{rawhtml} |
| 343 |
|
|
| 344 |
%% a set of twenty-four pre-configured numerical experiments |
%% a set of twenty-four pre-configured numerical experiments |
| 345 |
|
|
| 351 |
The other examples follow the same general structure as the tutorial |
The other examples follow the same general structure as the tutorial |
| 352 |
examples. However, they only include brief instructions in a text file |
examples. However, they only include brief instructions in a text file |
| 353 |
called {\it README}. The examples are located in subdirectories under |
called {\it README}. The examples are located in subdirectories under |
| 354 |
the directory \textit{verification}. Each example is briefly described |
the directory \texttt{verification}. Each example is briefly described |
| 355 |
below. |
below. |
| 356 |
|
|
| 357 |
\subsection{Full list of model examples} |
\subsection{Full list of model examples} |
| 358 |
|
|
| 359 |
\begin{enumerate} |
\begin{enumerate} |
| 360 |
|
|
| 361 |
\item \textit{exp0} - single layer, ocean double gyre (barotropic with |
\item \texttt{exp0} - single layer, ocean double gyre (barotropic with |
| 362 |
free-surface). This experiment is described in detail in section |
free-surface). This experiment is described in detail in section |
| 363 |
\ref{sect:eg-baro}. |
\ref{sect:eg-baro}. |
| 364 |
|
|
| 365 |
\item \textit{exp1} - Four layer, ocean double gyre. This experiment |
\item \texttt{exp1} - Four layer, ocean double gyre. This experiment |
| 366 |
is described in detail in section \ref{sect:eg-baroc}. |
is described in detail in section \ref{sect:eg-baroc}. |
| 367 |
|
|
| 368 |
\item \textit{exp2} - 4x4 degree global ocean simulation with steady |
\item \texttt{exp2} - 4x4 degree global ocean simulation with steady |
| 369 |
climatological forcing. This experiment is described in detail in |
climatological forcing. This experiment is described in detail in |
| 370 |
section \ref{sect:eg-global}. |
section \ref{sect:eg-global}. |
| 371 |
|
|
| 372 |
\item \textit{exp4} - Flow over a Gaussian bump in open-water or |
\item \texttt{exp4} - Flow over a Gaussian bump in open-water or |
| 373 |
channel with open boundaries. |
channel with open boundaries. |
| 374 |
|
|
| 375 |
\item \textit{exp5} - Inhomogenously forced ocean convection in a |
\item \texttt{exp5} - Inhomogenously forced ocean convection in a |
| 376 |
doubly periodic box. |
doubly periodic box. |
| 377 |
|
|
| 378 |
\item \textit{front\_relax} - Relaxation of an ocean thermal front (test for |
\item \texttt{front\_relax} - Relaxation of an ocean thermal front (test for |
| 379 |
Gent/McWilliams scheme). 2D (Y-Z). |
Gent/McWilliams scheme). 2D (Y-Z). |
| 380 |
|
|
| 381 |
\item \textit{internal wave} - Ocean internal wave forced by open |
\item \texttt{internal wave} - Ocean internal wave forced by open |
| 382 |
boundary conditions. |
boundary conditions. |
| 383 |
|
|
| 384 |
\item \textit{natl\_box} - Eastern subtropical North Atlantic with KPP |
\item \texttt{natl\_box} - Eastern subtropical North Atlantic with KPP |
| 385 |
scheme; 1 month integration |
scheme; 1 month integration |
| 386 |
|
|
| 387 |
\item \textit{hs94.1x64x5} - Zonal averaged atmosphere using Held and |
\item \texttt{hs94.1x64x5} - Zonal averaged atmosphere using Held and |
| 388 |
Suarez '94 forcing. |
Suarez '94 forcing. |
| 389 |
|
|
| 390 |
\item \textit{hs94.128x64x5} - 3D atmosphere dynamics using Held and |
\item \texttt{hs94.128x64x5} - 3D atmosphere dynamics using Held and |
| 391 |
Suarez '94 forcing. |
Suarez '94 forcing. |
| 392 |
|
|
| 393 |
\item \textit{hs94.cs-32x32x5} - 3D atmosphere dynamics using Held and |
\item \texttt{hs94.cs-32x32x5} - 3D atmosphere dynamics using Held and |
| 394 |
Suarez '94 forcing on the cubed sphere. |
Suarez '94 forcing on the cubed sphere. |
| 395 |
|
|
| 396 |
\item \textit{aim.5l\_zon-ave} - Intermediate Atmospheric physics. |
\item \texttt{aim.5l\_zon-ave} - Intermediate Atmospheric physics. |
| 397 |
Global Zonal Mean configuration, 1x64x5 resolution. |
Global Zonal Mean configuration, 1x64x5 resolution. |
| 398 |
|
|
| 399 |
\item \textit{aim.5l\_XZ\_Equatorial\_Slice} - Intermediate |
\item \texttt{aim.5l\_XZ\_Equatorial\_Slice} - Intermediate |
| 400 |
Atmospheric physics, equatorial Slice configuration. 2D (X-Z). |
Atmospheric physics, equatorial Slice configuration. 2D (X-Z). |
| 401 |
|
|
| 402 |
\item \textit{aim.5l\_Equatorial\_Channel} - Intermediate Atmospheric |
\item \texttt{aim.5l\_Equatorial\_Channel} - Intermediate Atmospheric |
| 403 |
physics. 3D Equatorial Channel configuration. |
physics. 3D Equatorial Channel configuration. |
| 404 |
|
|
| 405 |
\item \textit{aim.5l\_LatLon} - Intermediate Atmospheric physics. |
\item \texttt{aim.5l\_LatLon} - Intermediate Atmospheric physics. |
| 406 |
Global configuration, on latitude longitude grid with 128x64x5 grid |
Global configuration, on latitude longitude grid with 128x64x5 grid |
| 407 |
points ($2.8^\circ{\rm degree}$ resolution). |
points ($2.8^\circ{\rm degree}$ resolution). |
| 408 |
|
|
| 409 |
\item \textit{adjustment.128x64x1} Barotropic adjustment problem on |
\item \texttt{adjustment.128x64x1} Barotropic adjustment problem on |
| 410 |
latitude longitude grid with 128x64 grid points ($2.8^\circ{\rm |
latitude longitude grid with 128x64 grid points ($2.8^\circ{\rm |
| 411 |
degree}$ resolution). |
degree}$ resolution). |
| 412 |
|
|
| 413 |
\item \textit{adjustment.cs-32x32x1} Barotropic adjustment problem on |
\item \texttt{adjustment.cs-32x32x1} Barotropic adjustment problem on |
| 414 |
cube sphere grid with 32x32 points per face ( roughly $2.8^\circ{\rm |
cube sphere grid with 32x32 points per face ( roughly $2.8^\circ{\rm |
| 415 |
degree}$ resolution). |
degree}$ resolution). |
| 416 |
|
|
| 417 |
\item \textit{advect\_cs} Two-dimensional passive advection test on |
\item \texttt{advect\_cs} Two-dimensional passive advection test on |
| 418 |
cube sphere grid. |
cube sphere grid. |
| 419 |
|
|
| 420 |
\item \textit{advect\_xy} Two-dimensional (horizontal plane) passive |
\item \texttt{advect\_xy} Two-dimensional (horizontal plane) passive |
| 421 |
advection test on Cartesian grid. |
advection test on Cartesian grid. |
| 422 |
|
|
| 423 |
\item \textit{advect\_yz} Two-dimensional (vertical plane) passive |
\item \texttt{advect\_yz} Two-dimensional (vertical plane) passive |
| 424 |
advection test on Cartesian grid. |
advection test on Cartesian grid. |
| 425 |
|
|
| 426 |
\item \textit{carbon} Simple passive tracer experiment. Includes |
\item \texttt{carbon} Simple passive tracer experiment. Includes |
| 427 |
derivative calculation. Described in detail in section |
derivative calculation. Described in detail in section |
| 428 |
\ref{sect:eg-carbon-ad}. |
\ref{sect:eg-carbon-ad}. |
| 429 |
|
|
| 430 |
\item \textit{flt\_example} Example of using float package. |
\item \texttt{flt\_example} Example of using float package. |
| 431 |
|
|
| 432 |
\item \textit{global\_ocean.90x40x15} Global circulation with GM, flux |
\item \texttt{global\_ocean.90x40x15} Global circulation with GM, flux |
| 433 |
boundary conditions and poles. |
boundary conditions and poles. |
| 434 |
|
|
| 435 |
\item \textit{global\_ocean\_pressure} Global circulation in pressure |
\item \texttt{global\_ocean\_pressure} Global circulation in pressure |
| 436 |
coordinate (non-Boussinesq ocean model). Described in detail in |
coordinate (non-Boussinesq ocean model). Described in detail in |
| 437 |
section \ref{sect:eg-globalpressure}. |
section \ref{sect:eg-globalpressure}. |
| 438 |
|
|
| 439 |
\item \textit{solid-body.cs-32x32x1} Solid body rotation test for cube |
\item \texttt{solid-body.cs-32x32x1} Solid body rotation test for cube |
| 440 |
sphere grid. |
sphere grid. |
| 441 |
|
|
| 442 |
\end{enumerate} |
\end{enumerate} |
| 446 |
Each example directory has the following subdirectories: |
Each example directory has the following subdirectories: |
| 447 |
|
|
| 448 |
\begin{itemize} |
\begin{itemize} |
| 449 |
\item \textit{code}: contains the code particular to the example. At a |
\item \texttt{code}: contains the code particular to the example. At a |
| 450 |
minimum, this directory includes the following files: |
minimum, this directory includes the following files: |
| 451 |
|
|
| 452 |
\begin{itemize} |
\begin{itemize} |
| 453 |
\item \textit{code/CPP\_EEOPTIONS.h}: declares CPP keys relative to |
\item \texttt{code/packages.conf}: declares the list of packages or |
| 454 |
|
package groups to be used. If not included, the default version |
| 455 |
|
is located in \texttt{pkg/pkg\_default}. Package groups are |
| 456 |
|
simply convenient collections of commonly used packages which are |
| 457 |
|
defined in \texttt{pkg/pkg\_default}. Some packages may require |
| 458 |
|
other packages or may require their absence (that is, they are |
| 459 |
|
incompatible) and these package dependencies are listed in |
| 460 |
|
\texttt{pkg/pkg\_depend}. |
| 461 |
|
|
| 462 |
|
\item \texttt{code/CPP\_EEOPTIONS.h}: declares CPP keys relative to |
| 463 |
the ``execution environment'' part of the code. The default |
the ``execution environment'' part of the code. The default |
| 464 |
version is located in \textit{eesupp/inc}. |
version is located in \texttt{eesupp/inc}. |
| 465 |
|
|
| 466 |
\item \textit{code/CPP\_OPTIONS.h}: declares CPP keys relative to |
\item \texttt{code/CPP\_OPTIONS.h}: declares CPP keys relative to |
| 467 |
the ``numerical model'' part of the code. The default version is |
the ``numerical model'' part of the code. The default version is |
| 468 |
located in \textit{model/inc}. |
located in \texttt{model/inc}. |
| 469 |
|
|
| 470 |
\item \textit{code/SIZE.h}: declares size of underlying |
\item \texttt{code/SIZE.h}: declares size of underlying |
| 471 |
computational grid. The default version is located in |
computational grid. The default version is located in |
| 472 |
\textit{model/inc}. |
\texttt{model/inc}. |
| 473 |
\end{itemize} |
\end{itemize} |
| 474 |
|
|
| 475 |
In addition, other include files and subroutines might be present in |
In addition, other include files and subroutines might be present in |
| 476 |
\textit{code} depending on the particular experiment. See Section 2 |
\texttt{code} depending on the particular experiment. See Section 2 |
| 477 |
for more details. |
for more details. |
| 478 |
|
|
| 479 |
\item \textit{input}: contains the input data files required to run |
\item \texttt{input}: contains the input data files required to run |
| 480 |
the example. At a minimum, the \textit{input} directory contains the |
the example. At a minimum, the \texttt{input} directory contains the |
| 481 |
following files: |
following files: |
| 482 |
|
|
| 483 |
\begin{itemize} |
\begin{itemize} |
| 484 |
\item \textit{input/data}: this file, written as a namelist, |
\item \texttt{input/data}: this file, written as a namelist, |
| 485 |
specifies the main parameters for the experiment. |
specifies the main parameters for the experiment. |
| 486 |
|
|
| 487 |
\item \textit{input/data.pkg}: contains parameters relative to the |
\item \texttt{input/data.pkg}: contains parameters relative to the |
| 488 |
packages used in the experiment. |
packages used in the experiment. |
| 489 |
|
|
| 490 |
\item \textit{input/eedata}: this file contains ``execution |
\item \texttt{input/eedata}: this file contains ``execution |
| 491 |
environment'' data. At present, this consists of a specification |
environment'' data. At present, this consists of a specification |
| 492 |
of the number of threads to use in $X$ and $Y$ under multithreaded |
of the number of threads to use in $X$ and $Y$ under multithreaded |
| 493 |
execution. |
execution. |
| 498 |
of the experiment. This varies from experiment to experiment. See |
of the experiment. This varies from experiment to experiment. See |
| 499 |
section 2 for more details. |
section 2 for more details. |
| 500 |
|
|
| 501 |
\item \textit{results}: this directory contains the output file |
\item \texttt{results}: this directory contains the output file |
| 502 |
\textit{output.txt} produced by the simulation example. This file is |
\texttt{output.txt} produced by the simulation example. This file is |
| 503 |
useful for comparison with your own output when you run the |
useful for comparison with your own output when you run the |
| 504 |
experiment. |
experiment. |
| 505 |
\end{itemize} |
\end{itemize} |
| 509 |
|
|
| 510 |
\section[Building MITgcm]{Building the code} |
\section[Building MITgcm]{Building the code} |
| 511 |
\label{sect:buildingCode} |
\label{sect:buildingCode} |
| 512 |
|
\begin{rawhtml} |
| 513 |
To compile the code, we use the {\em make} program. This uses a file |
<!-- CMIREDIR:buildingCode: --> |
| 514 |
({\em Makefile}) that allows us to pre-process source files, specify |
\end{rawhtml} |
| 515 |
compiler and optimization options and also figures out any file |
|
| 516 |
dependencies. We supply a script ({\em genmake2}), described in |
To compile the code, we use the \texttt{make} program. This uses a |
| 517 |
section \ref{sect:genmake}, that automatically creates the {\em |
file (\texttt{Makefile}) that allows us to pre-process source files, |
| 518 |
Makefile} for you. You then need to build the dependencies and |
specify compiler and optimization options and also figures out any |
| 519 |
|
file dependencies. We supply a script (\texttt{genmake2}), described |
| 520 |
|
in section \ref{sect:genmake}, that automatically creates the |
| 521 |
|
\texttt{Makefile} for you. You then need to build the dependencies and |
| 522 |
compile the code. |
compile the code. |
| 523 |
|
|
| 524 |
As an example, let's assume that you want to build and run experiment |
As an example, assume that you want to build and run experiment |
| 525 |
\textit{verification/exp2}. The are multiple ways and places to |
\texttt{verification/exp2}. The are multiple ways and places to |
| 526 |
actually do this but here let's build the code in |
actually do this but here let's build the code in |
| 527 |
\textit{verification/exp2/input}: |
\texttt{verification/exp2/build}: |
| 528 |
\begin{verbatim} |
\begin{verbatim} |
| 529 |
% cd verification/exp2/input |
% cd verification/exp2/build |
| 530 |
\end{verbatim} |
\end{verbatim} |
| 531 |
First, build the {\em Makefile}: |
First, build the \texttt{Makefile}: |
| 532 |
\begin{verbatim} |
\begin{verbatim} |
| 533 |
% ../../../tools/genmake2 -mods=../code |
% ../../../tools/genmake2 -mods=../code |
| 534 |
\end{verbatim} |
\end{verbatim} |
| 535 |
The command line option tells {\em genmake} to override model source |
The command line option tells \texttt{genmake} to override model source |
| 536 |
code with any files in the directory {\em ./code/}. |
code with any files in the directory \texttt{../code/}. |
| 537 |
|
|
| 538 |
On many systems, the {\em genmake2} program will be able to |
On many systems, the \texttt{genmake2} program will be able to |
| 539 |
automatically recognize the hardware, find compilers and other tools |
automatically recognize the hardware, find compilers and other tools |
| 540 |
within the user's path (``echo \$PATH''), and then choose an |
within the user's path (``\texttt{echo \$PATH}''), and then choose an |
| 541 |
appropriate set of options from the files contained in the {\em |
appropriate set of options from the files (``optfiles'') contained in |
| 542 |
tools/build\_options} directory. Under some circumstances, a user |
the \texttt{tools/build\_options} directory. Under some |
| 543 |
may have to create a new ``optfile'' in order to specify the exact |
circumstances, a user may have to create a new ``optfile'' in order to |
| 544 |
combination of compiler, compiler flags, libraries, and other options |
specify the exact combination of compiler, compiler flags, libraries, |
| 545 |
necessary to build a particular configuration of MITgcm. In such |
and other options necessary to build a particular configuration of |
| 546 |
cases, it is generally helpful to read the existing ``optfiles'' and |
MITgcm. In such cases, it is generally helpful to read the existing |
| 547 |
mimic their syntax. |
``optfiles'' and mimic their syntax. |
| 548 |
|
|
| 549 |
Through the MITgcm-support list, the MITgcm developers are willing to |
Through the MITgcm-support list, the MITgcm developers are willing to |
| 550 |
provide help writing or modifing ``optfiles''. And we encourage users |
provide help writing or modifing ``optfiles''. And we encourage users |
| 555 |
\begin{rawhtml} </A> \end{rawhtml} |
\begin{rawhtml} </A> \end{rawhtml} |
| 556 |
list. |
list. |
| 557 |
|
|
| 558 |
To specify an optfile to {\em genmake2}, the syntax is: |
To specify an optfile to \texttt{genmake2}, the syntax is: |
| 559 |
\begin{verbatim} |
\begin{verbatim} |
| 560 |
% ../../../tools/genmake2 -mods=../code -of /path/to/optfile |
% ../../../tools/genmake2 -mods=../code -of /path/to/optfile |
| 561 |
\end{verbatim} |
\end{verbatim} |
| 562 |
|
|
| 563 |
Once a {\em Makefile} has been generated, we create the dependencies: |
Once a \texttt{Makefile} has been generated, we create the |
| 564 |
|
dependencies with the command: |
| 565 |
\begin{verbatim} |
\begin{verbatim} |
| 566 |
% make depend |
% make depend |
| 567 |
\end{verbatim} |
\end{verbatim} |
| 568 |
This modifies the {\em Makefile} by attaching a [long] list of files |
This modifies the \texttt{Makefile} by attaching a (usually, long) |
| 569 |
upon which other files depend. The purpose of this is to reduce |
list of files upon which other files depend. The purpose of this is to |
| 570 |
re-compilation if and when you start to modify the code. The {\tt make |
reduce re-compilation if and when you start to modify the code. The |
| 571 |
depend} command also creates links from the model source to this |
{\tt make depend} command also creates links from the model source to |
| 572 |
directory. |
this directory. It is important to note that the {\tt make depend} |
| 573 |
|
stage will occasionally produce warnings or errors since the |
| 574 |
|
dependency parsing tool is unable to find all of the necessary header |
| 575 |
|
files (\textit{eg.} \texttt{netcdf.inc}). In these circumstances, it |
| 576 |
|
is usually OK to ignore the warnings/errors and proceed to the next |
| 577 |
|
step. |
| 578 |
|
|
| 579 |
Next compile the code: |
Next one can compile the code using: |
| 580 |
\begin{verbatim} |
\begin{verbatim} |
| 581 |
% make |
% make |
| 582 |
\end{verbatim} |
\end{verbatim} |
| 583 |
The {\tt make} command creates an executable called \textit{mitgcmuv}. |
The {\tt make} command creates an executable called \texttt{mitgcmuv}. |
| 584 |
Additional make ``targets'' are defined within the makefile to aid in |
Additional make ``targets'' are defined within the makefile to aid in |
| 585 |
the production of adjoint and other versions of MITgcm. |
the production of adjoint and other versions of MITgcm. On SMP |
| 586 |
|
(shared multi-processor) systems, the build process can often be sped |
| 587 |
Now you are ready to run the model. General instructions for doing so are |
up appreciably using the command: |
|
given in section \ref{sect:runModel}. Here, we can run the model with: |
|
| 588 |
\begin{verbatim} |
\begin{verbatim} |
| 589 |
./mitgcmuv > output.txt |
% make -j 2 |
| 590 |
\end{verbatim} |
\end{verbatim} |
| 591 |
where we are re-directing the stream of text output to the file {\em |
where the ``2'' can be replaced with a number that corresponds to the |
| 592 |
output.txt}. |
number of CPUs available. |
|
|
|
|
|
|
|
\subsection{Building/compiling the code elsewhere} |
|
|
|
|
|
In the example above (section \ref{sect:buildingCode}) we built the |
|
|
executable in the {\em input} directory of the experiment for |
|
|
convenience. You can also configure and compile the code in other |
|
|
locations, for example on a scratch disk with out having to copy the |
|
|
entire source tree. The only requirement to do so is you have {\tt |
|
|
genmake2} in your path or you know the absolute path to {\tt |
|
|
genmake2}. |
|
|
|
|
|
The following sections outline some possible methods of organizing |
|
|
your source and data. |
|
|
|
|
|
\subsubsection{Building from the {\em ../code directory}} |
|
|
|
|
|
This is just as simple as building in the {\em input/} directory: |
|
|
\begin{verbatim} |
|
|
% cd verification/exp2/code |
|
|
% ../../../tools/genmake2 |
|
|
% make depend |
|
|
% make |
|
|
\end{verbatim} |
|
|
However, to run the model the executable ({\em mitgcmuv}) and input |
|
|
files must be in the same place. If you only have one calculation to make: |
|
|
\begin{verbatim} |
|
|
% cd ../input |
|
|
% cp ../code/mitgcmuv ./ |
|
|
% ./mitgcmuv > output.txt |
|
|
\end{verbatim} |
|
|
or if you will be making multiple runs with the same executable: |
|
|
\begin{verbatim} |
|
|
% cd ../ |
|
|
% cp -r input run1 |
|
|
% cp code/mitgcmuv run1 |
|
|
% cd run1 |
|
|
% ./mitgcmuv > output.txt |
|
|
\end{verbatim} |
|
|
|
|
|
\subsubsection{Building from a new directory} |
|
| 593 |
|
|
| 594 |
Since the {\em input} directory contains input files it is often more |
Now you are ready to run the model. General instructions for doing so are |
| 595 |
useful to keep {\em input} pristine and build in a new directory |
given in section \ref{sect:runModel}. Here, we can run the model by |
| 596 |
within {\em verification/exp2/}: |
first creating links to all the input files: |
|
\begin{verbatim} |
|
|
% cd verification/exp2 |
|
|
% mkdir build |
|
|
% cd build |
|
|
% ../../../tools/genmake2 -mods=../code |
|
|
% make depend |
|
|
% make |
|
|
\end{verbatim} |
|
|
This builds the code exactly as before but this time you need to copy |
|
|
either the executable or the input files or both in order to run the |
|
|
model. For example, |
|
|
\begin{verbatim} |
|
|
% cp ../input/* ./ |
|
|
% ./mitgcmuv > output.txt |
|
|
\end{verbatim} |
|
|
or if you tend to make multiple runs with the same executable then |
|
|
running in a new directory each time might be more appropriate: |
|
|
\begin{verbatim} |
|
|
% cd ../ |
|
|
% mkdir run1 |
|
|
% cp build/mitgcmuv run1/ |
|
|
% cp input/* run1/ |
|
|
% cd run1 |
|
|
% ./mitgcmuv > output.txt |
|
|
\end{verbatim} |
|
|
|
|
|
\subsubsection{Building on a scratch disk} |
|
|
|
|
|
Model object files and output data can use up large amounts of disk |
|
|
space so it is often the case that you will be operating on a large |
|
|
scratch disk. Assuming the model source is in {\em ~/MITgcm} then the |
|
|
following commands will build the model in {\em /scratch/exp2-run1}: |
|
|
\begin{verbatim} |
|
|
% cd /scratch/exp2-run1 |
|
|
% ~/MITgcm/tools/genmake2 -rootdir=~/MITgcm \ |
|
|
-mods=~/MITgcm/verification/exp2/code |
|
|
% make depend |
|
|
% make |
|
|
\end{verbatim} |
|
|
To run the model here, you'll need the input files: |
|
| 597 |
\begin{verbatim} |
\begin{verbatim} |
| 598 |
% cp ~/MITgcm/verification/exp2/input/* ./ |
ln -s ../input/* . |
|
% ./mitgcmuv > output.txt |
|
| 599 |
\end{verbatim} |
\end{verbatim} |
| 600 |
|
and then calling the executable with: |
|
As before, you could build in one directory and make multiple runs of |
|
|
the one experiment: |
|
| 601 |
\begin{verbatim} |
\begin{verbatim} |
| 602 |
% cd /scratch/exp2 |
./mitgcmuv > output.txt |
|
% mkdir build |
|
|
% cd build |
|
|
% ~/MITgcm/tools/genmake2 -rootdir=~/MITgcm \ |
|
|
-mods=~/MITgcm/verification/exp2/code |
|
|
% make depend |
|
|
% make |
|
|
% cd ../ |
|
|
% cp -r ~/MITgcm/verification/exp2/input run2 |
|
|
% cd run2 |
|
|
% ./mitgcmuv > output.txt |
|
| 603 |
\end{verbatim} |
\end{verbatim} |
| 604 |
|
where we are re-directing the stream of text output to the file |
| 605 |
|
\texttt{output.txt}. |
|
\subsection{Using \texttt{genmake2}} |
|
|
\label{sect:genmake} |
|
|
|
|
|
To compile the code, first use the program \texttt{genmake2} (located |
|
|
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. |
|
|
|
|
|
The purpose of the optfiles is to provide all the compilation options |
|
|
for particular ``platforms'' (where ``platform'' roughly means the |
|
|
combination of the hardware and the compiler) and code configurations. |
|
|
Given the combinations of possible compilers and library dependencies |
|
|
({\it eg.} MPI and NetCDF) there may be numerous optfiles available |
|
|
for a single machine. The naming scheme for the majority of the |
|
|
optfiles shipped with the code is |
|
|
\begin{center} |
|
|
{\bf OS\_HARDWARE\_COMPILER } |
|
|
\end{center} |
|
|
where |
|
|
\begin{description} |
|
|
\item[OS] is the name of the operating system (generally the |
|
|
lower-case output of the {\tt 'uname'} command) |
|
|
\item[HARDWARE] is a string that describes the CPU type and |
|
|
corresponds to output from the {\tt 'uname -m'} command: |
|
|
\begin{description} |
|
|
\item[ia32] is for ``x86'' machines such as i386, i486, i586, i686, |
|
|
and athlon |
|
|
\item[ia64] is for Intel IA64 systems (eg. Itanium, Itanium2) |
|
|
\item[amd64] is AMD x86\_64 systems |
|
|
\item[ppc] is for Mac PowerPC systems |
|
|
\end{description} |
|
|
\item[COMPILER] is the compiler name (generally, the name of the |
|
|
FORTRAN executable) |
|
|
\end{description} |
|
|
|
|
|
In many cases, the default optfiles are sufficient and will result in |
|
|
usable Makefiles. However, for some machines or code configurations, |
|
|
new ``optfiles'' must be written. To create a new optfile, it is |
|
|
generally best to start with one of the defaults and modify it to suit |
|
|
your needs. Like \texttt{genmake2}, the optfiles are all written |
|
|
using a simple ``sh''--compatible syntax. While nearly all variables |
|
|
used within \texttt{genmake2} may be specified in the optfiles, the |
|
|
critical ones that should be defined are: |
|
|
|
|
|
\begin{description} |
|
|
\item[FC] the FORTRAN compiler (executable) to use |
|
|
\item[DEFINES] the command-line DEFINE options passed to the compiler |
|
|
\item[CPP] the C pre-processor to use |
|
|
\item[NOOPTFLAGS] options flags for special files that should not be |
|
|
optimized |
|
|
\end{description} |
|
|
|
|
|
For example, the optfile for a typical Red Hat Linux machine (``ia32'' |
|
|
architecture) using the GCC (g77) compiler is |
|
|
\begin{verbatim} |
|
|
FC=g77 |
|
|
DEFINES='-D_BYTESWAPIO -DWORDLENGTH=4' |
|
|
CPP='cpp -traditional -P' |
|
|
NOOPTFLAGS='-O0' |
|
|
# For IEEE, use the "-ffloat-store" option |
|
|
if test "x$IEEE" = x ; then |
|
|
FFLAGS='-Wimplicit -Wunused -Wuninitialized' |
|
|
FOPTIM='-O3 -malign-double -funroll-loops' |
|
|
else |
|
|
FFLAGS='-Wimplicit -Wunused -ffloat-store' |
|
|
FOPTIM='-O0 -malign-double' |
|
|
fi |
|
|
\end{verbatim} |
|
|
|
|
|
If you write an optfile for an unrepresented machine or compiler, you |
|
|
are strongly encouraged to submit the optfile to the MITgcm project |
|
|
for inclusion. Please send the file to the |
|
|
\begin{rawhtml} <A href="mail-to:MITgcm-support@mitgcm.org"> \end{rawhtml} |
|
|
\begin{center} |
|
|
MITgcm-support@mitgcm.org |
|
|
\end{center} |
|
|
\begin{rawhtml} </A> \end{rawhtml} |
|
|
mailing list. |
|
|
|
|
|
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: |
|
|
\begin{verbatim} |
|
|
% genmake2 -h |
|
|
\end{verbatim} |
|
|
|
|
|
The most important command-line options are: |
|
|
\begin{description} |
|
|
|
|
|
\item[\texttt{--optfile=/PATH/FILENAME}] specifies the optfile that |
|
|
should be used for a particular build. |
|
|
|
|
|
If no "optfile" is specified (either through the command line or the |
|
|
MITGCM\_OPTFILE environment variable), genmake2 will try to make a |
|
|
reasonable guess from the list provided in {\em |
|
|
tools/build\_options}. The method used for making this guess is |
|
|
to first determine the combination of operating system and hardware |
|
|
(eg. "linux\_ia32") and then find a working FORTRAN compiler within |
|
|
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{--pdepend=/PATH/FILENAME}] specifies the dependency file |
|
|
used for packages. |
|
|
|
|
|
If not specified, the default dependency file {\em pkg/pkg\_depend} |
|
|
is used. The syntax for this file is parsed on a line-by-line basis |
|
|
where each line containes either a comment ("\#") or a simple |
|
|
"PKGNAME1 (+|-)PKGNAME2" pairwise rule where the "+" or "-" symbol |
|
|
specifies a "must be used with" or a "must not be used with" |
|
|
relationship, respectively. If no rule is specified, then it is |
|
|
assumed that the two packages are compatible and will function |
|
|
either with or without each other. |
|
|
|
|
|
\item[\texttt{--adof=/path/to/file}] specifies the "adjoint" or |
|
|
automatic differentiation options file to be used. The file is |
|
|
analogous to the ``optfile'' defined above but it specifies |
|
|
information for the AD build process. |
|
|
|
|
|
The default file is located in {\em |
|
|
tools/adjoint\_options/adjoint\_default} and it defines the "TAF" |
|
|
and "TAMC" compilers. An alternate version is also available at |
|
|
{\em tools/adjoint\_options/adjoint\_staf} that selects the newer |
|
|
"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}). |
|
|
|
|
|
\item[\texttt{--make=/path/to/gmake}] Due to the poor handling of |
|
|
soft-links and other bugs common with the \texttt{make} versions |
|
|
provided by commercial Unix vendors, GNU \texttt{make} (sometimes |
|
|
called \texttt{gmake}) should be preferred. This option provides a |
|
|
means for specifying the make executable to be used. |
|
|
|
|
|
\item[\texttt{--bash=/path/to/sh}] On some (usually older UNIX) |
|
|
machines, the ``bash'' shell is unavailable. To run on these |
|
|
systems, \texttt{genmake2} can be invoked using an ``sh'' (that is, |
|
|
a Bourne, POSIX, or compatible) shell. The syntax in these |
|
|
circumstances is: |
|
|
\begin{center} |
|
|
\texttt{\% /bin/sh genmake2 -bash=/bin/sh [...options...]} |
|
|
\end{center} |
|
|
where \texttt{/bin/sh} can be replaced with the full path and name |
|
|
of the desired shell. |
|
|
|
|
|
\end{description} |
|
|
|
|
|
|
|
|
\subsection{Building with MPI} |
|
|
\label{sect:mpi-build} |
|
|
|
|
|
Building MITgcm to use MPI libraries can be complicated due to the |
|
|
variety of different MPI implementations available, their dependencies |
|
|
or interactions with different compilers, and their often ad-hoc |
|
|
locations within file systems. For these reasons, its generally a |
|
|
good idea to start by finding and reading the documentation for your |
|
|
machine(s) and, if necessary, seeking help from your local systems |
|
|
administrator. |
|
|
|
|
|
The steps for building MITgcm with MPI support are: |
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\begin{enumerate} |
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\item Determine the locations of your MPI-enabled compiler and/or MPI |
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libraries and put them into an options file as described in Section |
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\ref{sect:genmake}. One can start with one of the examples in: |
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\begin{rawhtml} <A |
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href="http://mitgcm.org/cgi-bin/viewcvs.cgi/MITgcm/tools/build_options/"> |
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\end{rawhtml} |
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\begin{center} |
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\texttt{MITgcm/tools/build\_options/} |
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\end{center} |
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\begin{rawhtml} </A> \end{rawhtml} |
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such as \texttt{linux\_ia32\_g77+mpi\_cg01} or |
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\texttt{linux\_ia64\_efc+mpi} and then edit it to suit the machine at |
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hand. You may need help from your user guide or local systems |
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administrator to determine the exact location of the MPI libraries. |
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If libraries are not installed, MPI implementations and related |
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tools are available including: |
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\begin{itemize} |
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\item \begin{rawhtml} <A |
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href="http://www-unix.mcs.anl.gov/mpi/mpich/"> |
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\end{rawhtml} |
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MPICH |
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\begin{rawhtml} </A> \end{rawhtml} |
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\item \begin{rawhtml} <A |
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href="http://www.lam-mpi.org/"> |
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\end{rawhtml} |
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LAM/MPI |
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\begin{rawhtml} </A> \end{rawhtml} |
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\item \begin{rawhtml} <A |
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href="http://www.osc.edu/~pw/mpiexec/"> |
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\end{rawhtml} |
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MPIexec |
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\begin{rawhtml} </A> \end{rawhtml} |
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\end{itemize} |
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\item Build the code with the \texttt{genmake2} \texttt{-mpi} option |
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(see Section \ref{sect:genmake}) using commands such as: |
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{\footnotesize \begin{verbatim} |
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% ../../../tools/genmake2 -mods=../code -mpi -of=YOUR_OPTFILE |
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% make depend |
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% make |
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\end{verbatim} } |
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\item Run the code with the appropriate MPI ``run'' or ``exec'' |
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program provided with your particular implementation of MPI. |
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Typical MPI packages such as MPICH will use something like: |
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\begin{verbatim} |
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% mpirun -np 4 -machinefile mf ./mitgcmuv |
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\end{verbatim} |
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Sightly more complicated scripts may be needed for many machines |
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since execution of the code may be controlled by both the MPI |
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library and a job scheduling and queueing system such as PBS, |
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LoadLeveller, Condor, or any of a number of similar tools. A few |
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example scripts (those used for our \begin{rawhtml} <A |
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href="http://mitgcm.org/testing.html"> \end{rawhtml}regular |
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verification runs\begin{rawhtml} </A> \end{rawhtml}) are available |
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at: |
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\begin{rawhtml} <A |
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href="http://mitgcm.org/cgi-bin/viewcvs.cgi/MITgcm_contrib/test_scripts/"> |
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\end{rawhtml} |
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|
{\footnotesize \tt |
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http://mitgcm.org/cgi-bin/viewcvs.cgi/MITgcm\_contrib/test\_scripts/ } |
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\begin{rawhtml} </A> \end{rawhtml} |
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\end{enumerate} |
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An example of the above process on the MITgcm cluster (``cg01'') using |
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the GNU g77 compiler and the mpich MPI library is: |
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|
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{\footnotesize \begin{verbatim} |
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% cd MITgcm/verification/exp5 |
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% mkdir build |
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% cd build |
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% ../../../tools/genmake2 -mpi -mods=../code \ |
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-of=../../../tools/build_options/linux_ia32_g77+mpi_cg01 |
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% make depend |
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% make |
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% cd ../input |
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% /usr/local/pkg/mpi/mpi-1.2.4..8a-gm-1.5/g77/bin/mpirun.ch_gm \ |
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-machinefile mf --gm-kill 5 -v -np 2 ../build/mitgcmuv |
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\end{verbatim} } |
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|
| 606 |
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| 607 |
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| 608 |
\section[Running MITgcm]{Running the model in prognostic mode} |
\section[Running MITgcm]{Running the model in prognostic mode} |
| 609 |
\label{sect:runModel} |
\label{sect:runModel} |
| 610 |
|
\begin{rawhtml} |
| 611 |
|
<!-- CMIREDIR:runModel: --> |
| 612 |
|
\end{rawhtml} |
| 613 |
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|
| 614 |
If compilation finished succesfuully (section \ref{sect:buildingCode}) |
If compilation finished succesfully (section \ref{sect:buildingCode}) |
| 615 |
then an executable called \texttt{mitgcmuv} will now exist in the |
then an executable called \texttt{mitgcmuv} will now exist in the |
| 616 |
local directory. |
local directory. |
| 617 |
|
|
| 618 |
To run the model as a single process (ie. not in parallel) simply |
To run the model as a single process (\textit{ie.} not in parallel) |
| 619 |
type: |
simply type: |
| 620 |
\begin{verbatim} |
\begin{verbatim} |
| 621 |
% ./mitgcmuv |
% ./mitgcmuv |
| 622 |
\end{verbatim} |
\end{verbatim} |
| 626 |
your screen. This output contains details such as parameter values as |
your screen. This output contains details such as parameter values as |
| 627 |
well as diagnostics such as mean Kinetic energy, largest CFL number, |
well as diagnostics such as mean Kinetic energy, largest CFL number, |
| 628 |
etc. It is worth keeping this text output with the binary output so we |
etc. It is worth keeping this text output with the binary output so we |
| 629 |
normally re-direct the {\em stdout} stream as follows: |
normally re-direct the \texttt{stdout} stream as follows: |
| 630 |
\begin{verbatim} |
\begin{verbatim} |
| 631 |
% ./mitgcmuv > output.txt |
% ./mitgcmuv > output.txt |
| 632 |
\end{verbatim} |
\end{verbatim} |
| 633 |
|
In the event that the model encounters an error and stops, it is very |
| 634 |
For the example experiments in {\em verification}, an example of the |
helpful to include the last few line of this \texttt{output.txt} file |
| 635 |
output is kept in {\em results/output.txt} for comparison. You can compare |
along with the (\texttt{stderr}) error message within any bug reports. |
| 636 |
your {\em output.txt} with this one to check that the set-up works. |
|
| 637 |
|
For the example experiments in \texttt{verification}, an example of the |
| 638 |
|
output is kept in \texttt{results/output.txt} for comparison. You can |
| 639 |
|
compare your \texttt{output.txt} with the corresponding one for that |
| 640 |
|
experiment to check that the set-up works. |
| 641 |
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|
| 642 |
|
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| 643 |
|
|
| 644 |
\subsection{Output files} |
\subsection{Output files} |
| 645 |
|
|
| 646 |
The model produces various output files. At a minimum, the instantaneous |
The model produces various output files and, when using \texttt{mnc}, |
| 647 |
``state'' of the model is written out, which is made of the following files: |
sometimes even directories. Depending upon the I/O package(s) |
| 648 |
|
selected at compile time (either \texttt{mdsio} or \texttt{mnc} or |
| 649 |
|
both as determined by \texttt{code/packages.conf}) and the run-time |
| 650 |
|
flags set (in \texttt{input/data.pkg}), the following output may |
| 651 |
|
appear. |
| 652 |
|
|
| 653 |
|
|
| 654 |
|
\subsubsection{MDSIO output files} |
| 655 |
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|
| 656 |
|
The ``traditional'' output files are generated by the \texttt{mdsio} |
| 657 |
|
package. At a minimum, the instantaneous ``state'' of the model is |
| 658 |
|
written out, which is made of the following files: |
| 659 |
|
|
| 660 |
\begin{itemize} |
\begin{itemize} |
| 661 |
\item \textit{U.00000nIter} - zonal component of velocity field (m/s and $> |
\item \texttt{U.00000nIter} - zonal component of velocity field (m/s and $> |
| 662 |
0 $ eastward). |
0 $ eastward). |
| 663 |
|
|
| 664 |
\item \textit{V.00000nIter} - meridional component of velocity field (m/s |
\item \texttt{V.00000nIter} - meridional component of velocity field (m/s |
| 665 |
and $> 0$ northward). |
and $> 0$ northward). |
| 666 |
|
|
| 667 |
\item \textit{W.00000nIter} - vertical component of velocity field (ocean: |
\item \texttt{W.00000nIter} - vertical component of velocity field (ocean: |
| 668 |
m/s and $> 0$ upward, atmosphere: Pa/s and $> 0$ towards increasing pressure |
m/s and $> 0$ upward, atmosphere: Pa/s and $> 0$ towards increasing pressure |
| 669 |
i.e. downward). |
i.e. downward). |
| 670 |
|
|
| 671 |
\item \textit{T.00000nIter} - potential temperature (ocean: $^{0}$C, |
\item \texttt{T.00000nIter} - potential temperature (ocean: $^{0}$C, |
| 672 |
atmosphere: $^{0}$K). |
atmosphere: $^{0}$K). |
| 673 |
|
|
| 674 |
\item \textit{S.00000nIter} - ocean: salinity (psu), atmosphere: water vapor |
\item \texttt{S.00000nIter} - ocean: salinity (psu), atmosphere: water vapor |
| 675 |
(g/kg). |
(g/kg). |
| 676 |
|
|
| 677 |
\item \textit{Eta.00000nIter} - ocean: surface elevation (m), atmosphere: |
\item \texttt{Eta.00000nIter} - ocean: surface elevation (m), atmosphere: |
| 678 |
surface pressure anomaly (Pa). |
surface pressure anomaly (Pa). |
| 679 |
\end{itemize} |
\end{itemize} |
| 680 |
|
|
| 681 |
The chain \textit{00000nIter} consists of ten figures that specify the |
The chain \texttt{00000nIter} consists of ten figures that specify the |
| 682 |
iteration number at which the output is written out. For example, \textit{% |
iteration number at which the output is written out. For example, \texttt{% |
| 683 |
U.0000000300} is the zonal velocity at iteration 300. |
U.0000000300} is the zonal velocity at iteration 300. |
| 684 |
|
|
| 685 |
In addition, a ``pickup'' or ``checkpoint'' file called: |
In addition, a ``pickup'' or ``checkpoint'' file called: |
| 686 |
|
|
| 687 |
\begin{itemize} |
\begin{itemize} |
| 688 |
\item \textit{pickup.00000nIter} |
\item \texttt{pickup.00000nIter} |
| 689 |
\end{itemize} |
\end{itemize} |
| 690 |
|
|
| 691 |
is written out. This file represents the state of the model in a condensed |
is written out. This file represents the state of the model in a condensed |
| 693 |
there is an additional ``pickup'' file: |
there is an additional ``pickup'' file: |
| 694 |
|
|
| 695 |
\begin{itemize} |
\begin{itemize} |
| 696 |
\item \textit{pickup\_cd.00000nIter} |
\item \texttt{pickup\_cd.00000nIter} |
| 697 |
\end{itemize} |
\end{itemize} |
| 698 |
|
|
| 699 |
containing the D-grid velocity data and that has to be written out as well |
containing the D-grid velocity data and that has to be written out as well |
| 700 |
in order to restart the integration. Rolling checkpoint files are the same |
in order to restart the integration. Rolling checkpoint files are the same |
| 701 |
as the pickup files but are named differently. Their name contain the chain |
as the pickup files but are named differently. Their name contain the chain |
| 702 |
\textit{ckptA} or \textit{ckptB} instead of \textit{00000nIter}. They can be |
\texttt{ckptA} or \texttt{ckptB} instead of \texttt{00000nIter}. They can be |
| 703 |
used to restart the model but are overwritten every other time they are |
used to restart the model but are overwritten every other time they are |
| 704 |
output to save disk space during long integrations. |
output to save disk space during long integrations. |
| 705 |
|
|
| 706 |
|
|
| 707 |
|
|
| 708 |
|
\subsubsection{MNC output files} |
| 709 |
|
|
| 710 |
|
Unlike the \texttt{mdsio} output, the \texttt{mnc}--generated output |
| 711 |
|
is usually (though not necessarily) placed within a subdirectory with |
| 712 |
|
a name such as \texttt{mnc\_test\_\${DATE}\_\${SEQ}}. The files |
| 713 |
|
within this subdirectory are all in the ``self-describing'' netCDF |
| 714 |
|
format and can thus be browsed and/or plotted using tools such as: |
| 715 |
|
\begin{itemize} |
| 716 |
|
\item \texttt{ncdump} is a utility which is typically included |
| 717 |
|
with every netCDF install: |
| 718 |
|
\begin{rawhtml} <A href="http://www.unidata.ucar.edu/packages/netcdf/"> \end{rawhtml} |
| 719 |
|
\begin{verbatim} |
| 720 |
|
http://www.unidata.ucar.edu/packages/netcdf/ |
| 721 |
|
\end{verbatim} |
| 722 |
|
\begin{rawhtml} </A> \end{rawhtml} and it converts the netCDF |
| 723 |
|
binaries into formatted ASCII text files. |
| 724 |
|
|
| 725 |
|
\item \texttt{ncview} utility is a very convenient and quick way |
| 726 |
|
to plot netCDF data and it runs on most OSes: |
| 727 |
|
\begin{rawhtml} <A href="http://meteora.ucsd.edu/~pierce/ncview_home_page.html"> \end{rawhtml} |
| 728 |
|
\begin{verbatim} |
| 729 |
|
http://meteora.ucsd.edu/~pierce/ncview_home_page.html |
| 730 |
|
\end{verbatim} |
| 731 |
|
\begin{rawhtml} </A> \end{rawhtml} |
| 732 |
|
|
| 733 |
|
\item MatLAB(c) and other common post-processing environments provide |
| 734 |
|
various netCDF interfaces including: |
| 735 |
|
\begin{rawhtml} <A href="http://woodshole.er.usgs.gov/staffpages/cdenham/public_html/MexCDF/nc4ml5.html"> \end{rawhtml} |
| 736 |
|
\begin{verbatim} |
| 737 |
|
http://woodshole.er.usgs.gov/staffpages/cdenham/public_html/MexCDF/nc4ml5.html |
| 738 |
|
\end{verbatim} |
| 739 |
|
\begin{rawhtml} </A> \end{rawhtml} |
| 740 |
|
\end{itemize} |
| 741 |
|
|
| 742 |
|
|
| 743 |
\subsection{Looking at the output} |
\subsection{Looking at the output} |
| 744 |
|
|
| 745 |
All the model data are written according to a ``meta/data'' file format. |
The ``traditional'' or mdsio model data are written according to a |
| 746 |
Each variable is associated with two files with suffix names \textit{.data} |
``meta/data'' file format. Each variable is associated with two files |
| 747 |
and \textit{.meta}. The \textit{.data} file contains the data written in |
with suffix names \texttt{.data} and \texttt{.meta}. The |
| 748 |
binary form (big\_endian by default). The \textit{.meta} file is a |
\texttt{.data} file contains the data written in binary form |
| 749 |
``header'' file that contains information about the size and the structure |
(big\_endian by default). The \texttt{.meta} file is a ``header'' file |
| 750 |
of the \textit{.data} file. This way of organizing the output is |
that contains information about the size and the structure of the |
| 751 |
particularly useful when running multi-processors calculations. The base |
\texttt{.data} file. This way of organizing the output is particularly |
| 752 |
version of the model includes a few matlab utilities to read output files |
useful when running multi-processors calculations. The base version of |
| 753 |
written in this format. The matlab scripts are located in the directory |
the model includes a few matlab utilities to read output files written |
| 754 |
\textit{utils/matlab} under the root tree. The script \textit{rdmds.m} reads |
in this format. The matlab scripts are located in the directory |
| 755 |
the data. Look at the comments inside the script to see how to use it. |
\texttt{utils/matlab} under the root tree. The script \texttt{rdmds.m} |
| 756 |
|
reads the data. Look at the comments inside the script to see how to |
| 757 |
|
use it. |
| 758 |
|
|
| 759 |
Some examples of reading and visualizing some output in {\em Matlab}: |
Some examples of reading and visualizing some output in {\em Matlab}: |
| 760 |
\begin{verbatim} |
\begin{verbatim} |
| 771 |
>> for n=1:11; imagesc(eta(:,:,n)');axis ij;colorbar;pause(.5);end |
>> for n=1:11; imagesc(eta(:,:,n)');axis ij;colorbar;pause(.5);end |
| 772 |
\end{verbatim} |
\end{verbatim} |
| 773 |
|
|
| 774 |
|
Similar scripts for netCDF output (\texttt{rdmnc.m}) are available and |
| 775 |
|
they are described in Section \ref{sec:pkg:mnc}. |
| 776 |
|
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