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C $Header: /u/gcmpack/models/MITgcmUV/model/src/config_summary.F,v 1.16 1998/09/05 17:52:13 cnh Exp $ |
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#include "CPP_EEOPTIONS.h" |
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CStartOfInterface |
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SUBROUTINE CONFIG_SUMMARY( myThid ) |
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C /==========================================================\ |
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C | SUBROUTINE CONFIG_SUMMARY | |
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C | o Summarize model prognostic variables. | |
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C |==========================================================| |
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C | This routine writes a tabulated summary of the model | |
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C | configuration. | |
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C | Note | |
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C | 1. Under multi-process parallelism the summary | |
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C | is only given for the per-process data. | |
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C | 2. Under multi-threading the summary is produced by | |
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C | the master thread. This threads reads data managed by| |
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C | other threads. | |
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C \==========================================================/ |
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|
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C === Global variables === |
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#include "SIZE.h" |
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#include "EEPARAMS.h" |
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#include "PARAMS.h" |
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#include "GRID.h" |
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#include "DYNVARS.h" |
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|
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C == Routine arguments == |
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C myThid - Number of this instance of CONFIG_SUMMARY |
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INTEGER myThid |
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CEndOfInterface |
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C == Local variables == |
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CHARACTER*(MAX_LEN_MBUF) msgBuf |
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INTEGER I,J,K |
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INTEGER bi, bj |
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REAL xcoord(Nx) |
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REAL ycoord(Ny) |
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REAL rcoord(Nr) |
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_BARRIER |
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_BEGIN_MASTER(myThid) |
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|
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WRITE(msgBuf,'(A)') |
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&'// =======================================================' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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WRITE(msgBuf,'(A)') '// Model configuration' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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WRITE(msgBuf,'(A)') |
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&'// =======================================================' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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|
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WRITE(msgBuf,'(A)') '// ' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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WRITE(msgBuf,'(A)') |
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& '// "Physical" paramters ( PARM01 in namelist ) ' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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WRITE(msgBuf,'(A)') '// ' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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CALL WRITE_1D_R8( tRef, Nr, INDEX_K,'tRef =', |
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&' /* Reference temperature profile ( oC or oK ) */') |
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CALL WRITE_1D_R8( sRef, Nr, INDEX_K,'sRef =', |
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&' /* Reference salinity profile ( ppt ) */') |
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CALL WRITE_1D_R8( viscAh, 1, INDEX_NONE,'viscAh =', |
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&' /* Lateral eddy viscosity ( m^2/s ) */') |
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CALL WRITE_1D_R8( viscA4, 1, INDEX_NONE,'viscAh =', |
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&' /* Lateral biharmonic viscosity ( m^4/s ) */') |
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IF ( viscAz .NE. UNSET_RL ) THEN |
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CALL WRITE_1D_R8( viscAz, 1, INDEX_NONE,'viscAz =', |
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& ' /* Vertical eddy viscosity ( m^2/s ) */') |
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ENDIF |
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IF ( viscAp .NE. UNSET_RL ) THEN |
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CALL WRITE_1D_R8( viscAp, 1, INDEX_NONE,'viscAp =', |
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& ' /* Vertical eddy viscosity ( Pa^2/s ) */') |
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ENDIF |
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CALL WRITE_1D_R8( viscAr, 1, INDEX_NONE,'viscAr =', |
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&' /* Vertical eddy viscosity ( units of r^2/s ) */') |
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CALL WRITE_1D_R8( diffKhT, 1, INDEX_NONE,'diffKhT =', |
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&' /* Laplacian diffusion of heat laterally ( m^2/s ) */') |
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CALL WRITE_1D_R8( diffKzT, 1, INDEX_NONE,'diffKzT =', |
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&' /* Laplacian diffusion of heat vertically ( m^2/s ) */') |
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CALL WRITE_1D_R8( diffK4T, 1, INDEX_NONE,'diffK4T =', |
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&' /* Bihaarmonic diffusion of heat laterally ( m^4/s ) */') |
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CALL WRITE_1D_R8( diffKhS, 1, INDEX_NONE,'diffKhS =', |
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&' /* Laplacian diffusion of salt laterally ( m^2/s ) */') |
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CALL WRITE_1D_R8( diffKzS, 1, INDEX_NONE,'diffKzS =', |
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&' /* Laplacian diffusion of salt vertically ( m^2/s ) */') |
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CALL WRITE_1D_R8( diffK4S, 1, INDEX_NONE,'diffK4S =', |
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&' /* Bihaarmonic diffusion of salt laterally ( m^4/s ) */') |
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CALL WRITE_1D_R8( tAlpha,1, INDEX_NONE,'tAlpha =', |
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&' /* Linear EOS thermal expansion coefficient ( 1/degree ) */') |
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CALL WRITE_1D_R8( sBeta, 1, INDEX_NONE,'sBeta =', |
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&' /* Linear EOS haline contraction coefficient ( 1/ppt ) */') |
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IF ( eosType .EQ. 'POLY3' ) THEN |
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WRITE(msgBuf,'(A)') |
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& '// Polynomial EQS parameters ( from POLY3.COEFFS ) ' |
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DO K = 1, Nr |
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WRITE(msgBuf,'(I3,13F8.3)') |
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& K,eosRefT(K),eosRefS(K),eosSig0(K), (eosC(I,K),I=1,9) |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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ENDDO |
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ENDIF |
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CALL WRITE_1D_R8( rhonil,1, INDEX_NONE,'rhonil =', |
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&' /* Reference density ( kg/m^3 ) */') |
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CALL WRITE_1D_R8( gravity,1, INDEX_NONE,'gravity =', |
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&' /* Gravitational acceleration ( m/s^2 ) */') |
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CALL WRITE_1D_R8( gBaro,1, INDEX_NONE,'gBaro =', |
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&' /* Barotropic gravity ( m/s^2 ) */') |
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CALL WRITE_1D_R8( f0,1, INDEX_NONE,'f0 =', |
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&' /* Reference coriolis parameter ( 1/s ) */') |
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CALL WRITE_1D_R8( beta,1, INDEX_NONE,'beta =', |
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&' /* Beta ( 1/(m.s) ) */') |
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CALL WRITE_1D_R8( freeSurfFac,1, INDEX_NONE,'freeSurfFac =', |
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&' /* Implcit free surface factor */') |
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CALL WRITE_1D_L( implicitFreeSurface,1, INDEX_NONE, |
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& 'implicitFreeSurface =', |
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&' /* Implicit free surface on/off flag */') |
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CALL WRITE_1D_L( rigidLid,1, INDEX_NONE, |
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& 'rigidLid =', |
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&' /* Rigid lid on/off flag */') |
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CALL WRITE_1D_L( momStepping,1, INDEX_NONE, |
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& 'momStepping =', ' /* Momentum equation on/off flag */') |
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CALL WRITE_1D_L( momAdvection,1, INDEX_NONE, |
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& 'momAdvection =', ' /* Momentum advection on/off flag */') |
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CALL WRITE_1D_L( momViscosity,1, INDEX_NONE, |
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& 'momViscosity =', ' /* Momentum viscosity on/off flag */') |
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CALL WRITE_1D_L( useCoriolis,1, INDEX_NONE, |
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& 'useCoriolis =', ' /* Coriolis on/off flag */') |
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CALL WRITE_1D_L( momForcing,1, INDEX_NONE, |
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& 'momForcing =', ' /* Momentum forcing on/off flag */') |
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CALL WRITE_1D_L( momPressureForcing,1, INDEX_NONE, |
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& 'momPressureForcing =', |
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& ' /* Momentum pressure term on/off flag */') |
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CALL WRITE_1D_L( tempStepping,1, INDEX_NONE, |
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& 'tempStepping =', ' /* Temperature equation on/off flag */') |
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CALL WRITE_1D_R8( GMMaxSlope,1, INDEX_NONE,'GMMaxSlope =', |
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&' /* Max. slope allowed in GM/Redi tensor */') |
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CALL WRITE_1D_R8( GMLength,1, INDEX_NONE,'GMLength =', |
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&' /* Length to use in Visbeck et al. formula for K (m) */') |
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CALL WRITE_1D_R8( GMAlpha,1, INDEX_NONE,'GMAlpha =', |
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&' /* alpha to use in Visbeck et al. formula for K */') |
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CALL WRITE_1D_R8( GMdepth,1, INDEX_NONE,'GMdepth =', |
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&' /* Depth to integrate for Visbeck et. al Richardson # (m) */') |
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CALL WRITE_1D_R8( GMkbackground,1, INDEX_NONE,'GMkbackground =', |
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&' /* background value of GM/Redi coefficient m^2/s */') |
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WRITE(msgBuf,'(A)') '// ' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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WRITE(msgBuf,'(A)') |
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& '// Elliptic solver(s) paramters ( PARM02 in namelist ) ' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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WRITE(msgBuf,'(A)') '// ' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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CALL WRITE_1D_I( cg2dMaxIters,1, INDEX_NONE,'cg2dMaxIters =', |
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&' /* Upper limit on 2d con. grad iterations */') |
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CALL WRITE_1D_I( cg2dChkResFreq,1, INDEX_NONE,'cg2dChkResFreq =', |
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&' /* 2d con. grad convergence test frequency */') |
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CALL WRITE_1D_R8( cg2dTargetResidual,1, INDEX_NONE, |
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& 'cg2dTargetResidual =', |
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&' /* 2d con. grad target residual */') |
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WRITE(msgBuf,'(A)') '// ' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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WRITE(msgBuf,'(A)') |
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& '// Time stepping paramters ( PARM03 in namelist ) ' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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WRITE(msgBuf,'(A)') '// ' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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CALL WRITE_1D_I( nIter0,1, INDEX_NONE,'nIter0 =', |
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&' /* Base timestep number */') |
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CALL WRITE_1D_I( nTimeSteps,1, INDEX_NONE,'nTimeSteps =', |
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&' /* Number of timesteps */') |
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CALL WRITE_1D_R8( deltaTmom,1, INDEX_NONE,'deltatTmom =', |
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&' /* Momentum equation timestep ( s ) */') |
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CALL WRITE_1D_R8( deltaTtracer,1, INDEX_NONE,'deltatTtracer =', |
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&' /* Tracer equation timestep ( s ) */') |
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CALL WRITE_1D_R8( deltaTClock ,1, INDEX_NONE,'deltatTClock =', |
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&' /* Model clock timestep ( s ) */') |
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CALL WRITE_1D_R8( cAdjFreq,1, INDEX_NONE,'cAdjFreq =', |
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&' /* Convective adjustment interval ( s ) */') |
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CALL WRITE_1D_R8( abEps,1, INDEX_NONE,'abEps =', |
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&' /* Adams-Bashforth stabilizing weight */') |
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CALL WRITE_1D_R8( tauCD,1, INDEX_NONE,'tauCD =', |
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&' /* CD coupling time-scale ( s ) */') |
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CALL WRITE_1D_R8( rCD,1, INDEX_NONE,'rCD =', |
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&' /* Normalised CD coupling parameter */') |
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CALL WRITE_1D_R8( startTime,1, INDEX_NONE,'startTime =', |
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&' /* Run start time ( s ). */') |
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CALL WRITE_1D_R8( endTime,1, INDEX_NONE,'endTime =', |
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&' /* Integration ending time ( s ). */') |
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CALL WRITE_1D_R8( pChkPtFreq,1, INDEX_NONE,'pChkPtFreq =', |
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&' /* Permanent restart/checkpoint file interval ( s ). */') |
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CALL WRITE_1D_R8( chkPtFreq,1, INDEX_NONE,'chkPtFreq =', |
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&' /* Rolling restart/checkpoint file interval ( s ). */') |
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CALL WRITE_1D_R8( dumpFreq,1, INDEX_NONE,'dumpFreq =', |
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&' /* Model state write out interval ( s ). */') |
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WRITE(msgBuf,'(A)') '// ' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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WRITE(msgBuf,'(A)') |
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& '// Gridding paramters ( PARM04 in namelist ) ' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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WRITE(msgBuf,'(A)') '// ' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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CALL WRITE_1D_L( usingCartesianGrid,1, INDEX_NONE, |
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& 'usingCartesianGrid =', |
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&' /* Cartesian coordinates flag ( True / False ) */') |
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CALL WRITE_1D_L( usingSphericalPolarGrid,1, INDEX_NONE, |
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& 'usingSphericalPolarGrid =', |
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&' /* Spherical coordinates flag ( True / False ) */') |
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CALL WRITE_1D_R8( delZ,Nr, INDEX_K,'delZ = ', |
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&' /* W spacing ( m ) */') |
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CALL WRITE_1D_R8( delP,Nr, INDEX_K,'delP = ', |
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&' /* W spacing ( Pa ) */') |
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CALL WRITE_1D_R8( delR,Nr, INDEX_K,'delR = ', |
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&' /* W spacing ( units of r ) */') |
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CALL WRITE_1D_R8( delX, Nx, INDEX_I,'delX = ', |
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&' /* U spacing ( m - cartesian, degrees - spherical ) */') |
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CALL WRITE_1D_R8( delY, Ny, INDEX_J,'delY = ', |
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&' /* V spacing ( m - cartesian, degrees - spherical ) */') |
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CALL WRITE_1D_R8( phiMin, 1, INDEX_NONE,'phiMin = ', |
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&' /* South edge (ignored - cartesian, degrees - spherical ) */') |
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CALL WRITE_1D_R8( thetaMin, 1, INDEX_NONE,'thetaMin = ', |
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&' /* West edge ( ignored - cartesian, degrees - spherical ) */') |
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CALL WRITE_1D_R8( rSphere, 1, INDEX_NONE,'rSphere = ', |
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&' /* Radius ( ignored - cartesian, m - spherical ) */') |
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DO bi=1,nSx |
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DO I=1,sNx |
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xcoord((bi-1)*sNx+I) = xc(I,1,bi,1) |
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ENDDO |
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ENDDO |
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CALL WRITE_1D_R8( xcoord, sNx*nSx, INDEX_I,'xcoord = ', |
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&' /* P-point X coord ( m - cartesian, degrees - spherical ) */') |
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DO bj=1,nSy |
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DO J=1,sNy |
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ycoord((bj-1)*sNy+J) = yc(1,J,1,bj) |
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ENDDO |
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ENDDO |
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CALL WRITE_1D_R8( ycoord, sNy*nSy, INDEX_J,'ycoord = ', |
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&' /* P-point Y coord ( m - cartesian, degrees - spherical ) */') |
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DO K=1,Nr |
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rcoord(K) = rc(K) |
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ENDDO |
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CALL WRITE_1D_R8( rcoord, Nr, INDEX_K,'rcoord = ', |
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&' /* P-point R coordinate ( units of r ) */') |
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|
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WRITE(msgBuf,'(A)') ' ' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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|
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_END_MASTER(myThid) |
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_BARRIER |
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|
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|
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RETURN |
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100 FORMAT(A, |
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&' ' |
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&) |
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END |
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