C $Header: /u/gcmpack/MITgcm/model/src/the_model_main.F,v 1.109 2010/11/10 22:07:52 gforget Exp $
C $Name: $
CBOI
C
C !TITLE: MITGCM KERNEL CODE SYNOPSIS
C !AUTHORS: mitgcm developers ( support@mitgcm.org )
C !AFFILIATION: Massachussetts Institute of Technology
C !DATE:
C !INTRODUCTION: Kernel dynamical routines
C This document summarises MITgcm code under the model/ subdirectory.
C The code under model/ ( src/ and inc/ ) contains most of
C the driver routines for the baseline forms of the kernel equations in the
C MITgcm algorithm. Numerical code for much of the baseline forms of
C these equations is also under the model/ directory. Other numerical code
C used for the kernel equations is contained in packages in the pkg/
C directory tree.
C Code for auxilliary equations and alternate dicretizations of the kernel
C equations and algorithm can also be found in the pkg/ directory tree.
C
C \subsection{Getting Help and Reporting Errors and Problems}
C If you have questions please e-mail support@mitgcm.org. We also welcome
C reports of errors and inconsistencies in the code or in the accompanying
C documentation. Please feel free to send these
C to support@mitgcm.org. For further information and to review
C problems reported to support@mitgcm.org please visit http://mitgcm.org.
C
C \subsection{MITgcm Kernel Code Calling Sequence}
C \bv
C
C Invocation from WRAPPER level...
C :
C :
C |
C |-THE_MODEL_MAIN :: Primary driver for the MITgcm algorithm
C | :: Called from WRAPPER level numerical
C | :: code invocation routine. On entry
C | :: to THE_MODEL_MAIN separate thread and
C | :: separate processes will have been established.
C | :: Each thread and process will have a unique ID
C | :: but as yet it will not be associated with a
C | :: specific region in decomposed discrete space.
C |
C |-INITIALISE_FIXED :: Set fixed model arrays such as topography,
C | | :: grid, solver matrices etc..
C | |
C | |-INI_PARMS :: Routine to set kernel model parameters.
C | | :: By default kernel parameters are read from file
C | | :: "data" in directory in which code executes.
C | |
C | |-MON_INIT :: Initializes monitor package ( see pkg/monitor )
C | |
C | |-INI_GRID :: Control grid array (vert. and hori.) initialization.
C | | | :: Grid arrays are held and described in GRID.h.
C | | |
C | | |-INI_VERTICAL_GRID :: Initialize vertical grid arrays.
C | | |
C | | |-INI_CARTESIAN_GRID :: Cartesian horiz. grid initialization
C | | | :: (calculate grid from kernel parameters).
C | | |
C | | |-INI_SPHERICAL_POLAR_GRID :: Spherical polar horiz. grid
C | | | :: initialization (calculate grid from
C | | | :: kernel parameters).
C | | |
C | | |-INI_CURVILINEAR_GRID :: General orthogonal, structured horiz.
C | | :: grid initializations. ( input from raw
C | | :: grid files, LONC.bin, DXF.bin etc... )
C | |
C | |-INI_DEPTHS :: Read (from "bathyFile") or set bathymetry/orgography.
C | |
C | |-INI_MASKS_ETC :: Derive horizontal and vertical cell fractions and
C | | :: land masking for solid-fluid boundaries.
C | |
C | |-INI_LINEAR_PHSURF :: Set ref. surface Bo_surf
C | |
C | |-INI_CORI :: Set coriolis term. zero, f-plane, beta-plane,
C | | :: sphere options are coded.
C | |
C | |-PACAKGES_BOOT :: Start up the optional package environment.
C | | :: Runtime selection of active packages.
C | |
C | |-PACKAGES_READPARMS :: Call active package internal parameter load.
C | | |
C | | |-GMREDI_READPARMS :: GM Package. see pkg/gmredi
C | | |-KPP_READPARMS :: KPP Package. see pkg/kpp
C | | |-SHAP_FILT_READPARMS :: Shapiro filter package. see pkg/shap_filt
C | | |-OBCS_READPARMS :: Open bndy package. see pkg/obcs
C | | |-AIM_READPARMS :: Intermediate Atmos. pacakage. see pkg/aim
C | | |-COST_READPARMS :: Cost function package. see pkg/cost
C | | |-CTRL_INIT :: Control vector support package. see pkg/ctrl
C | | |-OPTIM_READPARMS :: Optimisation support package. see pkg/ctrl
C | | |-GRDCHK_READPARMS :: Gradient check package. see pkg/grdchk
C | | |-ECCO_READPARMS :: ECCO Support Package. see pkg/ecco
C | | |-PTRACERS_READPARMS :: multiple tracer package, see pkg/ptracers
C | | |-GCHEM_READPARMS :: tracer interface package, see pkg/gchem
C | |
C | |-PACKAGES_CHECK
C | | |
C | | |-KPP_CHECK :: KPP Package. pkg/kpp
C | | |-OBCS_CHECK :: Open bndy Pacakge. pkg/obcs
C | | |-GMREDI_CHECK :: GM Package. pkg/gmredi
C | |
C | |-PACKAGES_INIT_FIXED
C | | |-OBCS_INIT_FIXED :: Open bndy Package. see pkg/obcs
C | | |-FLT_INIT :: Floats Package. see pkg/flt
C | | |-GCHEM_INIT_FIXED :: tracer interface pachage, see pkg/gchem
C | |
C | |-ZONAL_FILT_INIT :: FFT filter Package. see pkg/zonal_filt
C | |
C | |-INI_CG2D :: 2d con. grad solver initialization.
C | |
C | |-INI_CG3D :: 3d con. grad solver initialization.
C | |
C | |-CONFIG_SUMMARY :: Provide synopsis of kernel setup.
C | :: Includes annotated table of kernel
C | :: parameter settings.
C |
C |-CTRL_UNPACK :: Control vector support package. see pkg/ctrl
C |
C |-ADTHE_MAIN_LOOP :: Derivative evaluating form of main time stepping loop
C ! :: Auotmatically generated by TAMC/TAF.
C |
C |-CTRL_PACK :: Control vector support package. see pkg/ctrl
C |
C |-GRDCHK_MAIN :: Gradient check package. see pkg/grdchk
C |
C |-THE_MAIN_LOOP :: Main timestepping loop routine.
C | |
C | |-INITIALISE_VARIA :: Set the initial conditions for time evolving
C | | | :: variables
C | | |
C | | |-INI_LINEAR_PHISURF :: Set ref. surface Bo_surf
C | | |
C | | |-INI_CORI :: Set coriolis term. zero, f-plane, beta-plane,
C | | | :: sphere options are coded.
C | | |
C | | |-INI_CG2D :: 2d con. grad solver initialization.
C | | |-INI_CG3D :: 3d con. grad solver initialization.
C | | |-INI_MIXING :: Initialize diapycnal diffusivity.
C | | |-INI_DYNVARS :: Initialize to zero all DYNVARS.h arrays (dynamical
C | | | :: fields).
C | | |
C | | |-INI_FIELDS :: Control initializing model fields to non-zero
C | | | |-INI_VEL :: Initialize 3D flow field.
C | | | |-INI_THETA :: Set model initial temperature field.
C | | | |-INI_SALT :: Set model initial salinity field.
C | | | |-INI_PSURF :: Set model initial free-surface height/pressure.
C | | | |-INI_PRESSURE :: Compute model initial hydrostatic pressure
C | | | |-READ_CHECKPOINT :: Read the checkpoint
C | | |
C | | |-THE_CORRECTION_STEP :: Step forward to next time step.
C | | | | :: Here applied to move restart conditions
C | | | | :: (saved in mid timestep) to correct level in
C | | | | :: time (only used for pre-c35).
C | | | |
C | | | |-CALC_GRAD_PHI_SURF :: Return DDx and DDy of surface pressure
C | | | |-CORRECTION_STEP :: Pressure correction to momentum
C | | | |-CYCLE_TRACER :: Move tracers forward in time.
C | | | |-OBCS_APPLY :: Open bndy package. see pkg/obcs
C | | | |-SHAP_FILT_APPLY :: Shapiro filter package. see pkg/shap_filt
C | | | |-ZONAL_FILT_APPLY :: FFT filter package. see pkg/zonal_filt
C | | | |-CONVECTIVE_ADJUSTMENT :: Control static instability mixing.
C | | | | |-FIND_RHO :: Find adjacent densities.
C | | | | |-CONVECT :: Mix static instability.
C | | | | |-TIMEAVE_CUMULATE :: Update convection statistics.
C | | | |
C | | | |-CALC_EXACT_ETA :: Change SSH to flow divergence.
C | | |
C | | |-CONVECTIVE_ADJUSTMENT_INI :: Control static instability mixing
C | | | | :: Extra time history interactions.
C | | | |
C | | | |-FIND_RHO :: Find adjacent densities.
C | | | |-CONVECT :: Mix static instability.
C | | | |-TIMEAVE_CUMULATE :: Update convection statistics.
C | | |
C | | |-PACKAGES_INIT_VARIABLES :: Does initialization of time evolving
C | | | | :: package data.
C | | | |
C | | | |-GMREDI_INIT :: GM package. ( see pkg/gmredi )
C | | | |-KPP_INIT :: KPP package. ( see pkg/kpp )
C | | | |-KPP_OPEN_DIAGS
C | | | |-OBCS_INIT_VARIABLES :: Open bndy. package. ( see pkg/obcs )
C | | | |-PTRACERS_INIT :: multi. tracer package,(see pkg/ptracers)
C | | | |-GCHEM_INIT :: tracer interface pkg (see pkh/gchem)
C | | | |-AIM_INIT :: Interm. atmos package. ( see pkg/aim )
C | | | |-CTRL_MAP_INI :: Control vector package.( see pkg/ctrl )
C | | | |-COST_INIT :: Cost function package. ( see pkg/cost )
C | | | |-ECCO_INIT :: ECCO support package. ( see pkg/ecco )
C | | | |-INI_FORCING :: Set model initial forcing fields.
C | | | | :: Either set in-line or from file as shown.
C | | | |-READ_FLD_XY_RS(zonalWindFile)
C | | | |-READ_FLD_XY_RS(meridWindFile)
C | | | |-READ_FLD_XY_RS(surfQFile)
C | | | |-READ_FLD_XY_RS(EmPmRfile)
C | | | |-READ_FLD_XY_RS(thetaClimFile)
C | | | |-READ_FLD_XY_RS(saltClimFile)
C | | | |-READ_FLD_XY_RS(surfQswFile)
C | | |
C | | |-CALC_SURF_DR :: Calculate the new surface level thickness.
C | | |-UPDATE_SURF_DR :: Update the surface-level thickness fraction.
C | | |-UPDATE_CG2D :: Update 2d conjugate grad. for Free-Surf.
C | | |-STATE_SUMMARY :: Summarize model prognostic variables.
C | | |-TIMEAVE_STATVARS :: Time averaging package ( see pkg/timeave ).
C | |
C | |-WRITE_STATE :: Controlling routine for IO to dump model state.
C | | |-WRITE_REC_XYZ_RL :: Single file I/O
C | | |-WRITE_FLD_XYZ_RL :: Multi-file I/O
C | |
C | |-MONITOR :: Monitor state ( see pkg/monitor )
C | |-CTRL_MAP_FORCING :: Control vector support package. ( see pkg/ctrl )
C====|>|
C====|>| ****************************
C====|>| BEGIN MAIN TIMESTEPPING LOOP
C====|>| ****************************
C====|>|
C/\ | |-FORWARD_STEP :: Step forward a time-step ( AT LAST !!! )
C/\ | | |
C/\ | | |-DUMMY_IN_STEPPING :: autodiff package ( pkg/autoduff ).
C/\ | | |-CALC_EXACT_ETA :: Change SSH to flow divergence.
C/\ | | |-CALC_SURF_DR :: Calculate the new surface level thickness.
C/\ | | |-EXF_GETFORCING :: External forcing package. ( pkg/exf )
C/\ | | |-EXTERNAL_FIELDS_LOAD :: Control loading time dep. external data.
C/\ | | | | :: Simple interpolation between end-points
C/\ | | | | :: for forcing datasets.
C/\ | | | |
C/\ | | | |-EXCH :: Sync forcing. in overlap regions.
C/\ | | |-SEAICE_MODEL :: Compute sea-ice terms. ( pkg/seaice )
C/\ | | |-FREEZE :: Limit surface temperature.
C/\ | | |-GCHEM_FIELD_LOAD :: load tracer forcing fields (pkg/gchem)
C/\ | | |
C/\ | | |-THERMODYNAMICS :: theta, salt + tracer equations driver.
C/\ | | | |
C/\ | | | |-INTEGRATE_FOR_W :: Integrate for vertical velocity.
C/\ | | | |-OBCS_APPLY_W :: Open bndy. package ( see pkg/obcs ).
C/\ | | | |-FIND_RHO :: Calculates [rho(S,T,z)-RhoConst] of a slice
C/\ | | | |-GRAD_SIGMA :: Calculate isoneutral gradients
C/\ | | | |-CALC_IVDC :: Set Implicit Vertical Diffusivity for Convection
C/\ | | | |
C/\ | | | |-OBCS_CALC :: Open bndy. package ( see pkg/obcs ).
C/\ | | | |-EXTERNAL_FORCING_SURF:: Accumulates appropriately dimensioned
C/\ | | | | | :: forcing terms.
C/\ | | | | |-PTRACERS_FORCING_SURF :: Tracer package ( see pkg/ptracers ).
C/\ | | | |
C/\ | | | |-GMREDI_CALC_TENSOR :: GM package ( see pkg/gmredi ).
C/\ | | | |-GMREDI_CALC_TENSOR_DUMMY :: GM package ( see pkg/gmredi ).
C/\ | | | |-KPP_CALC :: KPP package ( see pkg/kpp ).
C/\ | | | |-KPP_CALC_DUMMY :: KPP package ( see pkg/kpp ).
C/\ | | | |-AIM_DO_ATMOS_PHYSICS :: Intermed. atmos package ( see pkg/aim ).
C/\ | | | |-GAD_ADVECTION :: Generalised advection driver (multi-dim
C/\ | | | | advection case) (see pkg/gad).
C/\ | | | |-CALC_COMMON_FACTORS :: Calculate common data (such as volume flux)
C/\ | | | |-CALC_DIFFUSIVITY :: Calculate net vertical diffusivity
C/\ | | | | |
C/\ | | | | |-GMREDI_CALC_DIFF :: GM package ( see pkg/gmredi ).
C/\ | | | | |-KPP_CALC_DIFF :: KPP package ( see pkg/kpp ).
C/\ | | | |
C/\ | | | |-CALC_GT :: Calculate the temperature tendency terms
C/\ | | | | |
C/\ | | | | |-GAD_CALC_RHS :: Generalised advection package
C/\ | | | | | | :: ( see pkg/gad )
C/\ | | | | | |-KPP_TRANSPORT_T :: KPP non-local transport ( see pkg/kpp ).
C/\ | | | | |
C/\ | | | | |-EXTERNAL_FORCING_T :: Problem specific forcing for temperature.
C/\ | | | | |-ADAMS_BASHFORTH2 :: Extrapolate tendencies forward in time.
C/\ | | | | |-FREESURF_RESCALE_G :: Re-scale Gt for free-surface height.
C/\ | | | |
C/\ | | | |-TIMESTEP_TRACER :: Step tracer field forward in time
C/\ | | | |
C/\ | | | |-CALC_GS :: Calculate the salinity tendency terms
C/\ | | | | |
C/\ | | | | |-GAD_CALC_RHS :: Generalised advection package
C/\ | | | | | | :: ( see pkg/gad )
C/\ | | | | | |-KPP_TRANSPORT_S :: KPP non-local transport ( see pkg/kpp ).
C/\ | | | | |
C/\ | | | | |-EXTERNAL_FORCING_S :: Problem specific forcing for salt.
C/\ | | | | |-ADAMS_BASHFORTH2 :: Extrapolate tendencies forward in time.
C/\ | | | | |-FREESURF_RESCALE_G :: Re-scale Gs for free-surface height.
C/\ | | | |
C/\ | | | |-TIMESTEP_TRACER :: Step tracer field forward in time
C/\ | | | |
C/\ | | | |-TIMESTEP_TRACER :: Step tracer field forward in time
C/\ | | | |
C/\ | | | |-PTRACERS_INTEGRATE :: Integrate other tracer(s) (see pkg/ptracers).
C/\ | | | | |
C/\ | | | | |-GAD_CALC_RHS :: Generalised advection package
C/\ | | | | | | :: ( see pkg/gad )
C/\ | | | | | |-KPP_TRANSPORT_PTR:: KPP non-local transport ( see pkg/kpp ).
C/\ | | | | |
C/\ | | | | |-PTRACERS_FORCING :: Problem specific forcing for tracer.
C/\ | | | | |-GCHEM_FORCING_INT :: tracer forcing for gchem pkg (if all
C/\ | | | | | tendency terms calcualted together)
C/\ | | | | |-ADAMS_BASHFORTH2 :: Extrapolate tendencies forward in time.
C/\ | | | | |-FREESURF_RESCALE_G :: Re-scale Gs for free-surface height.
C/\ | | | | |-TIMESTEP_TRACER :: Step tracer field forward in time
C/\ | | | |
C/\ | | | |-OBCS_APPLY_TS :: Open bndy. package (see pkg/obcs ).
C/\ | | | |
C/\ | | | |-IMPLDIFF :: Solve vertical implicit diffusion equation.
C/\ | | | |-OBCS_APPLY_TS :: Open bndy. package (see pkg/obcs ).
C/\ | | | |
C/\ | | | |-AIM_AIM2DYN_EXCHANGES :: Inetermed. atmos (see pkg/aim).
C/\ | | | |-EXCH :: Update overlaps
C/\ | | |
C/\ | | |-DYNAMICS :: Momentum equations driver.
C/\ | | | |
C/\ | | | |-CALC_GRAD_PHI_SURF :: Calculate the gradient of the surface
C/\ | | | | Potential anomaly.
C/\ | | | |-CALC_VISCOSITY :: Calculate net vertical viscosity
C/\ | | | | |-KPP_CALC_VISC :: KPP package ( see pkg/kpp ).
C/\ | | | |
C/\ | | | |-CALC_PHI_HYD :: Integrate the hydrostatic relation.
C/\ | | | |-MOM_FLUXFORM :: Flux form mom eqn. package ( see
C/\ | | | | pkg/mom_fluxform ).
C/\ | | | | |-MOM_CALC_VISC :: Calculate Horizontal Viscosities
C/\ | | | |-MOM_VECINV :: Vector invariant form mom eqn. package ( see
C/\ | | | | pkg/mom_vecinv ).
C/\ | | | | |-MOM_CALC_VISC :: Calculate Horizontal Viscosities
C/\ | | | |-TIMESTEP :: Step momentum fields forward in time
C/\ | | | |-OBCS_APPLY_UV :: Open bndy. package (see pkg/obcs ).
C/\ | | | |
C/\ | | | |-IMPLDIFF :: Solve vertical implicit diffusion equation.
C/\ | | | |-OBCS_APPLY_UV :: Open bndy. package (see pkg/obcs ).
C/\ | | | |
C/\ | | | |-TIMEAVE_CUMUL_1T :: Time averaging package ( see pkg/timeave ).
C/\ | | | |-TIMEAVE_CUMUATE :: Time averaging package ( see pkg/timeave ).
C/\ | | | |-DEBUG_STATS_RL :: Quick debug package ( see pkg/debug ).
C/\ | | |
C/\ | | |-CALC_GW :: vert. momentum tendency terms ( NH, QH only ).
C/\ | | |
C/\ | | |-UPDATE_SURF_DR :: Update the surface-level thickness fraction.
C/\ | | |
C/\ | | |-UPDATE_CG2D :: Update 2d conjugate grad. for Free-Surf.
C/\ | | |
C/\ | | |-SOLVE_FOR_PRESSURE :: Find surface pressure.
C/\ | | | |-CALC_DIV_GHAT :: Form the RHS of the surface pressure eqn.
C/\ | | | |-CG2D :: Two-dim pre-con. conjugate-gradient.
C/\ | | | |-CG3D :: Three-dim pre-con. conjugate-gradient solver.
C/\ | | |
C/\ | | |-THE_CORRECTION_STEP :: Step forward to next time step.
C/\ | | | |
C/\ | | | |-CALC_GRAD_PHI_SURF :: Return DDx and DDy of surface pressure
C/\ | | | |-CORRECTION_STEP :: Pressure correction to momentum
C/\ | | | |-CYCLE_TRACER :: Move tracers forward in time.
C/\ | | | |-OBCS_APPLY :: Open bndy package. see pkg/obcs
C/\ | | | |-SHAP_FILT_APPLY :: Shapiro filter package. see pkg/shap_filt
C/\ | | | |-ZONAL_FILT_APPLY :: FFT filter package. see pkg/zonal_filt
C/\ | | | |-CONVECTIVE_ADJUSTMENT :: Control static instability mixing.
C/\ | | | | |-FIND_RHO :: Find adjacent densities.
C/\ | | | | |-CONVECT :: Mix static instability.
C/\ | | | | |-TIMEAVE_CUMULATE :: Update convection statistics.
C/\ | | | |
C/\ | | | |-CALC_EXACT_ETA :: Change SSH to flow divergence.
C/\ | | |
C/\ | | |-DO_FIELDS_BLOCKING_EXCHANGES :: Sync up overlap regions.
C/\ | | | |-EXCH
C/\ | | |
C/\ | | |-GCHEM_FORCING_SEP :: tracer forcing for gchem pkg (if
C/\ | | | tracer dependent tendencies calculated
C/\ | | | separatly)
C/\ | | |
C/\ | | |-FLT_MAIN :: Float package ( pkg/flt ).
C/\ | | |
C/\ | | |-MONITOR :: Monitor package ( pkg/monitor ).
C/\ | | |
C/\ | | |-DO_THE_MODEL_IO :: Standard diagnostic I/O.
C/\ | | | |-WRITE_STATE :: Core state I/O
C/\ | | | |-TIMEAVE_STATV_WRITE :: Time averages. see pkg/timeave
C/\ | | | |-AIM_WRITE_DIAGS :: Intermed. atmos diags. see pkg/aim
C/\ | | | |-GMREDI_DIAGS :: GM diags. see pkg/gmredi
C/\ | | | |-KPP_DO_DIAGS :: KPP diags. see pkg/kpp
C/\ | | | |-SBO_CALC :: SBO diags. see pkg/sbo
C/\ | | | |-SBO_DIAGS :: SBO diags. see pkg/sbo
C/\ | | | |-SEAICE_DO_DIAGS :: SEAICE diags. see pkg/seaice
C/\ | | | |-GCHEM_DIAGS :: gchem diags. see pkg/gchem
C/\ | | |
C/\ | | |-WRITE_CHECKPOINT :: Do I/O for restart files.
C/\ | |
C/\ | |-COST_TILE :: Cost function package. ( see pkg/cost )
C<===|=|
C<===|=| **************************
C<===|=| END MAIN TIMESTEPPING LOOP
C<===|=| **************************
C<===|=|
C | |-COST_FINAL :: Cost function package. ( see pkg/cost )
C |
C |-WRITE_CHECKPOINT :: Final state storage, for restart.
C |
C |-TIMER_PRINTALL :: Computational timing summary
C |
C |-COMM_STATS :: Summarise inter-proc and inter-thread communication
C :: events.
C
C \ev
C
C
CEOI
#include "AD_CONFIG.h"
#include "PACKAGES_CONFIG.h"
#include "CPP_OPTIONS.h"
CBOP
C !ROUTINE: THE_MODEL_MAIN
C !INTERFACE:
SUBROUTINE THE_MODEL_MAIN(myThid)
IMPLICIT NONE
C !DESCRIPTION: \bv
C *==========================================================*
C | SUBROUTINE THE_MODEL_MAIN
C | o Master controlling routine for model using the MITgcm
C | UV parallel wrapper.
C *==========================================================*
C | THE_MODEL_MAIN is invoked by the MITgcm UV parallel
C | wrapper with a single integer argument "myThid". This
C | variable identifies the thread number of an instance of
C | THE_MODEL_MAIN. Each instance of THE_MODEL_MAIN works
C | on a particular region of the models domain and
C | synchronises with other instances as necessary. The
C | routine has to "understand" the MITgcm parallel
C | environment and the numerical algorithm. Editing this
C | routine is best done with some knowledge of both aspects.
C | Notes
C | =====
C | C*P* comments indicating place holders for which code is
C | presently being developed.
C *==========================================================*
C \ev
C !CALLING SEQUENCE:
C THE_MODEL_MAIN()
C |
C |
C |--INITIALISE_FIXED
C | o Set model configuration (fixed arrays)
C | Topography, hydrography, timestep, grid, etc..
C |
C |--CTRL_UNPACK o Derivative mode. Unpack control vector.
C |
C |--ADTHE_MAIN_LOOP o Main timestepping loop for combined
C | prognostic and reverse mode integration.
C |
C |--CTRL_PACK o Derivative mode. Unpack control vector.
C |
C |--GRDCHK_MAIN o Gradient check control routine.
C |
C |--THE_MAIN_LOOP o Main timestepping loop for pure prognostic
C | integration.
C |
C |--WRITE_CHECKPOINT o Write retsart information.
C |
C |--TIMER_PRINTALL o Print out timing statistics.
C |
C |--COMM_STATS o Print out communication statistics.
C !USES:
C == Global variables ===
#include "SIZE.h"
#include "EEPARAMS.h"
#include "PARAMS.h"
#include "DYNVARS.h"
#ifdef ALLOW_AUTODIFF_TAMC
# include "tamc.h"
#endif
#ifdef ALLOW_CTRL
# include "ctrl.h"
# include "optim.h"
#endif
C !INPUT/OUTPUT PARAMETERS:
C == Routine arguments ==
C myThid - Thread number for this instance of the routine.
INTEGER myThid
C !LOCAL VARIABLES:
C == Local variables ==
C Note: Under the multi-threaded model myCurrentIter and
C myCurrentTime are local variables passed around as routine
C arguments. Although this is fiddly it saves the need to
C impose additional synchronisation points when they are
C updated.
C myCurrentTime - Time counter for this thread
C myCurrentIter - Iteration counter for this thread
INTEGER myCurrentIter
_RL myCurrentTime
logical exst
logical lastdiva
CEOP
c-- set default:
lastdiva = .TRUE.
#ifdef ALLOW_DEBUG
C- cannot test for debugMode which has not yet been set
CALL DEBUG_ENTER('THE_MODEL_MAIN',myThid)
#endif
#if defined(USE_PAPI) defined(USE_PCL_FLOPS_SFP) defined(USE_PCL_FLOPS) defined(USE_PCL)
CALL TIMER_CONTROL('','INIT','THE_MODEL_MAIN',myThid)
#endif
C-- This timer encompasses the whole code
CALL TIMER_START('ALL [THE_MODEL_MAIN]',myThid)
#ifdef ALLOW_DEBUG
C- cannot test for debugMode which has not yet been set
CALL DEBUG_CALL('INITIALISE_FIXED',myThid)
#endif
C-- Set model configuration (fixed arrays)
CALL TIMER_START('INITIALISE_FIXED [THE_MODEL_MAIN]',myThid)
CALL INITIALISE_FIXED( myThid )
CALL TIMER_STOP ('INITIALISE_FIXED [THE_MODEL_MAIN]',myThid)
#ifdef ALLOW_DEBUG
IF (debugMode) CALL DEBUG_LEAVE('INITIALISE_FIXED',myThid)
#endif
myCurrentTime = startTime
myCurrentIter = nIter0
#if ( defined (ALLOW_ADMTLM) )
c
STOP 'should never get here; ADMTLM_DSVD calls ADMTLM_DRIVER'
c
#elif ( defined (ALLOW_AUTODIFF))
# ifndef EXCLUDE_CTRL_PACK
inquire( file='costfinal', exist=exst )
IF ( .NOT. exst ) THEN
IF ( (optimcycle.NE.0 .OR. .NOT.doinitxx)
& .AND. doMainUnpack ) THEN
CALL TIMER_START('CTRL_UNPACK [THE_MODEL_MAIN]',mythid)
CALL CTRL_UNPACK( .TRUE. , mythid )
CALL TIMER_STOP ('CTRL_UNPACK [THE_MODEL_MAIN]',mythid)
ENDIF
ENDIF
# endif /* EXCLUDE_CTRL_PACK */
# ifdef ALLOW_COST
CALL COST_DEPENDENT_INIT ( mythid )
_BARRIER
# endif
# if ( defined (ALLOW_TANGENTLINEAR_RUN) )
c
#ifdef ALLOW_DEBUG
IF (debugMode) CALL DEBUG_CALL('G_THE_MAIN_LOOP',myThid)
#endif
CALL TIMER_START('G_THE_MAIN_LOOP [TANGENT RUN]',mythid)
CALL G_THE_MAIN_LOOP ( myCurrentTime, myCurrentIter, myThid )
CALL TIMER_STOP ('G_THE_MAIN_LOOP [TANGENT RUN]',mythid)
c
# elif ( defined (ALLOW_ADJOINT_RUN)
defined (ALLOW_ECCO_OPTIMIZATION) )
c
# ifdef ALLOW_DIVIDED_ADJOINT
c-- The following assumes the TAF option '-pure'
inquire( file='costfinal', exist=exst )
IF ( .NOT. exst) THEN
#ifdef ALLOW_DEBUG
IF (debugMode) CALL DEBUG_CALL('MDTHE_MAIN_LOOP',myThid)
#endif
CALL TIMER_START('MDTHE_MAIN_LOOP [MD RUN]', mythid)
CALL MDTHE_MAIN_LOOP ( myCurrentTime, myCurrentIter, mythid )
CALL TIMER_STOP ('MDTHE_MAIN_LOOP [MD RUN]', mythid)
CALL COST_FINAL_STORE ( mythid, lastdiva )
ELSE
#ifdef ALLOW_DEBUG
IF (debugMode) CALL DEBUG_CALL('ADTHE_MAIN_LOOP',myThid)
#endif
CALL TIMER_START('ADTHE_MAIN_LOOP [ADJOINT RUN]', mythid)
CALL ADTHE_MAIN_LOOP ( mythid )
CALL TIMER_STOP ('ADTHE_MAIN_LOOP [ADJOINT RUN]', mythid)
CALL COST_FINAL_RESTORE ( mythid, lastdiva )
ENDIF
c--
else /* ALLOW_DIVIDED_ADJOINT undef */
#ifdef ALLOW_DEBUG
IF (debugMode) CALL DEBUG_CALL('ADTHE_MAIN_LOOP',myThid)
#endif
CALL TIMER_START('ADTHE_MAIN_LOOP [ADJOINT RUN]', mythid)
#ifdef ALLOW_ECCO
CALL ADTHE_MAIN_LOOP ( myCurrentTime, mythid )
#else
CALL ADTHE_MAIN_LOOP ( mythid )
#endif
CALL TIMER_STOP ('ADTHE_MAIN_LOOP [ADJOINT RUN]', mythid)
# endif /* ALLOW_DIVIDED_ADJOINT */
c
else /* forward run only within AD setting */
#ifdef ALLOW_DEBUG
IF (debugMode) CALL DEBUG_CALL('THE_MAIN_LOOP',myThid)
#endif
C-- Call time stepping loop of full model
#ifdef ALLOW_DEBUG
IF (debugMode) CALL DEBUG_CALL('THE_MAIN_LOOP',myThid)
#endif
CALL TIMER_START('THE_MAIN_LOOP [THE_MODEL_MAIN]',myThid)
CALL THE_MAIN_LOOP( myCurrentTime, myCurrentIter, myThid )
CALL TIMER_STOP ('THE_MAIN_LOOP [THE_MODEL_MAIN]',myThid)
# endif
# ifndef EXCLUDE_CTRL_PACK
IF ( lastdiva .AND. doMainPack ) THEN
CALL TIMER_START('CTRL_PACK [THE_MODEL_MAIN]',mythid)
CALL CTRL_PACK( .FALSE. , mythid )
CALL TIMER_STOP ('CTRL_PACK [THE_MODEL_MAIN]',mythid)
IF ( ( optimcycle.EQ.0 .OR. (.NOT. doMainUnpack) )
& .AND. mycurrentiter.EQ.niter0 ) THEN
CALL TIMER_START('CTRL_PACK [THE_MODEL_MAIN]',mythid)
CALL CTRL_PACK( .TRUE. , mythid )
CALL TIMER_STOP ('CTRL_PACK [THE_MODEL_MAIN]',mythid)
ENDIF
ENDIF
# endif /* EXCLUDE_CTRL_PACK */
# ifdef ALLOW_GRDCHK
IF ( useGrdchk .AND. lastdiva ) THEN
CALL TIMER_START('GRDCHK_MAIN [THE_MODEL_MAIN]',mythid)
CALL GRDCHK_MAIN( mythid )
CALL TIMER_STOP ('GRDCHK_MAIN [THE_MODEL_MAIN]',mythid)
_BARRIER
ENDIF
# endif
#else /* ALL AD-related undef */
#ifdef ALLOW_DEBUG
IF (debugMode) CALL DEBUG_CALL('THE_MAIN_LOOP',myThid)
#endif
C-- Call time stepping loop of full model
CALL TIMER_START('THE_MAIN_LOOP [THE_MODEL_MAIN]',myThid)
CALL THE_MAIN_LOOP( myCurrentTime, myCurrentIter, myThid )
CALL TIMER_STOP ('THE_MAIN_LOOP [THE_MODEL_MAIN]',myThid)
#endif /* ALLOW_TANGENTLINEAR_RUN ALLOW_ADJOINT_RUN ALLOW_ADMTLM */
c#ifdef ALLOW_DIAGNOSTICS
c IF (useDiagnostics) THEN
C Close all diagnostics output files <= now called from DIAGNOSTICS_WRITE
c CALL DIAGSTATS_CLOSE_IO( myThid )
c ENDIF
c#endif
#ifdef ALLOW_MNC
IF (useMNC) THEN
C Close all open NetCDF files
_BEGIN_MASTER( mythid )
CALL MNC_FILE_CLOSE_ALL( myThid )
_END_MASTER( mythid )
ENDIF
#endif
C-- This timer encompasses the whole code
CALL TIMER_STOP ('ALL [THE_MODEL_MAIN]',myThid)
C-- Write timer statistics
IF ( myThid .EQ. 1 ) THEN
CALL TIMER_PRINTALL( myThid )
CALL COMM_STATS
ENDIF
C-- Check threads synchronization :
CALL BAR_CHECK( 9, myThid )
#ifdef ALLOW_DEBUG
IF (debugMode) CALL DEBUG_LEAVE('THE_MODEL_MAIN',myThid)
#endif
RETURN
END