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C $Header: /u/gcmpack/MITgcm/model/src/config_summary.F,v 1.70 2005/03/10 15:36:57 baylor Exp $ |
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C $Name: $ |
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|
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#include "PACKAGES_CONFIG.h" |
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#include "CPP_OPTIONS.h" |
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|
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C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| |
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CBOP |
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C !ROUTINE: CONFIG_SUMMARY |
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|
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C !INTERFACE: |
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SUBROUTINE CONFIG_SUMMARY( myThid ) |
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|
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C !DESCRIPTION: |
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C This routine summarizes the model parameter settings by writing a |
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C tabulated list of the kernel model configuration variables. It |
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C describes all the parameter settings in force and the meaning and |
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C units of those parameters. Individal packages report a similar |
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C table for each package using the same format as employed here. If |
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C parameters are missing or incorrectly described or dimensioned |
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C please contact <MITgcm-support@mitgcm.org> |
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|
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C !USES: |
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IMPLICIT NONE |
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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 "EOS.h" |
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#include "GRID.h" |
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#include "DYNVARS.h" |
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#ifdef ALLOW_MNC |
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#include "MNC_PARAMS.h" |
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#endif |
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|
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C !INPUT/OUTPUT PARAMETERS: |
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C myThid :: Number of this instance of CONFIG_SUMMARY |
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INTEGER myThid |
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CEOP |
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|
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C !LOCAL VARIABLES: |
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C msgBuf :: Temp. for building output string. |
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C I,J,K :: Loop counters. |
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C bi,bj :: Tile loop counters. |
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C xcoord :: Temps. for building lists of values for uni-dimensionally |
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C ycoord :: varying parameters. |
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C zcoord :: |
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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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_RL xcoord(Nx) |
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_RL ycoord(Ny) |
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_RL rcoord(Nr+1) |
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INTEGER coordLine |
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INTEGER tileLine |
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|
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|
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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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WRITE(msgBuf,'(A,A40)') 'buoyancyRelation = ', buoyancyRelation |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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CALL WRITE_0D_L( fluidIsAir, INDEX_NONE, |
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& 'fluidIsAir =', ' /* fluid major constituent is Air */') |
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CALL WRITE_0D_L( fluidIsWater, INDEX_NONE, |
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& 'fluidIsWater=', ' /* fuild major constituent is Water */') |
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CALL WRITE_0D_L( usingPCoords, INDEX_NONE, |
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& 'usingPCoords =', ' /* use p (or p*) vertical coordinate */') |
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CALL WRITE_0D_L( usingZCoords, INDEX_NONE, |
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& 'usingZCoords =', ' /* use z (or z*) vertical coordinate */') |
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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_0D_R8( viscAh, INDEX_NONE,'viscAh =', |
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&' /* Lateral eddy viscosity ( m^2/s ) */') |
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IF ( viscAhD.NE.viscAh ) |
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& CALL WRITE_0D_R8( viscAhD, INDEX_NONE,'viscAhD =', |
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& ' /* Lateral eddy viscosity (Divergence)( m^2/s ) */') |
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IF ( viscAhZ.NE.viscAh ) |
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& CALL WRITE_0D_R8( viscAhZ, INDEX_NONE,'viscAhZ =', |
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& ' /* Lateral eddy viscosity (Vorticity) ( m^2/s ) */') |
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CALL WRITE_0D_R8( viscAhMax, INDEX_NONE,'viscAhMax =', |
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&' /* Maximum lateral eddy viscosity ( m^2/s ) */') |
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CALL WRITE_0D_R8( viscAhGrid, INDEX_NONE,'viscAhGrid =', |
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&' /* Grid dependent lateral eddy viscosity ( non-dim. ) */') |
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CALL WRITE_0D_L( useFullLeith, INDEX_NONE, |
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&'useFullLeith =', |
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&' /* Use Full Form of Leith Viscosity on/off flag*/') |
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CALL WRITE_0D_R8( viscC2leith, INDEX_NONE,'viscC2leith =', |
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&' /* Leith harmonic viscosity factor (on grad(vort),non-dim.) */') |
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CALL WRITE_0D_R8( viscC2leithD, INDEX_NONE,'viscC2leithD =', |
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&' /* Leith harmonic viscosity factor (on grad(div),non-dim.) */') |
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CALL WRITE_0D_R8( viscC2smag, INDEX_NONE,'viscC2smag =', |
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&' /* Smagorinsky harmonic viscosity factor (non-dim.) */') |
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CALL WRITE_0D_R8( viscA4, INDEX_NONE,'viscA4 =', |
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&' /* Lateral biharmonic viscosity ( m^4/s ) */') |
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IF ( viscA4D.NE.viscA4 ) |
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& CALL WRITE_0D_R8( viscA4D, INDEX_NONE,'viscA4D =', |
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& ' /* Lateral biharmonic viscosity (Divergence)( m^4/s ) */') |
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IF ( viscA4Z.NE.viscA4 ) |
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& CALL WRITE_0D_R8( viscA4Z, INDEX_NONE,'viscA4Z =', |
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& ' /* Lateral biharmonic viscosity (Vorticity) ( m^4/s ) */') |
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CALL WRITE_0D_R8( viscA4Max, INDEX_NONE,'viscA4Max =', |
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&' /* Maximum biharmonic viscosity ( m^2/s ) */') |
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CALL WRITE_0D_R8( viscA4Grid, INDEX_NONE,'viscA4Grid =', |
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&' /* Grid dependent biharmonic viscosity ( non-dim. ) */') |
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CALL WRITE_0D_R8( viscC4leith, INDEX_NONE,'viscC4leith =', |
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&' /* Leith biharm viscosity factor (on grad(vort), non-dim.) */') |
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CALL WRITE_0D_R8( viscC4leithD, INDEX_NONE,'viscC4leithD =', |
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&' /* Leith biharm viscosity factor (on grad(div), non-dim.) */') |
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CALL WRITE_0D_L( no_slip_sides, INDEX_NONE, |
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& 'no_slip_sides =', ' /* Viscous BCs: No-slip sides */') |
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CALL WRITE_0D_R8( viscAr, INDEX_NONE,'viscAr =', |
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&' /* Vertical eddy viscosity ( units of r^2/s ) */') |
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CALL WRITE_0D_L( no_slip_bottom, INDEX_NONE, |
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& 'no_slip_bottom =', ' /* Viscous BCs: No-slip bottom */') |
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CALL WRITE_0D_R8( diffKhT, INDEX_NONE,'diffKhT =', |
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&' /* Laplacian diffusion of heat laterally ( m^2/s ) */') |
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CALL WRITE_0D_R8( diffK4T, INDEX_NONE,'diffK4T =', |
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&' /* Bihaarmonic diffusion of heat laterally ( m^4/s ) */') |
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CALL WRITE_0D_R8( diffKhS, INDEX_NONE,'diffKhS =', |
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&' /* Laplacian diffusion of salt laterally ( m^2/s ) */') |
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CALL WRITE_0D_R8( diffK4S, INDEX_NONE,'diffK4S =', |
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&' /* Bihaarmonic diffusion of salt laterally ( m^4/s ) */') |
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CALL WRITE_1D_R8( diffKrNrT, Nr, INDEX_K,'diffKrNrT =', |
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& ' /* vertical profile of vertical diffusion of Temp ( m^2/s )*/') |
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CALL WRITE_1D_R8( diffKrNrS, Nr, INDEX_K,'diffKrNrS =', |
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& ' /* vertical profile of vertical diffusion of Salt ( m^2/s )*/') |
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CALL WRITE_0D_R8( diffKrBL79surf, INDEX_NONE,'diffKrBL79surf =', |
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&' /* Surface diffusion for Bryan and Lewis 1979 ( m^2/s ) */') |
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CALL WRITE_0D_R8( diffKrBL79deep, INDEX_NONE,'diffKrBL79deep =', |
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&' /* Deep diffusion for Bryan and Lewis 1979 ( m^2/s ) */') |
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CALL WRITE_0D_R8( diffKrBL79scl, INDEX_NONE,'diffKrBL79scl =', |
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&' /* Depth scale for Bryan and Lewis 1979 ( m ) */') |
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CALL WRITE_0D_R8( diffKrBL79Ho, INDEX_NONE,'diffKrBL79Ho =', |
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&' /* Turning depth for Bryan and Lewis 1979 ( m ) */') |
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WRITE(msgBuf,'(2A)') ' Equation of State : eosType = ', eosType |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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CALL WRITE_0D_R8( tAlpha, INDEX_NONE,'tAlpha =', |
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&' /* Linear EOS thermal expansion coefficient ( 1/degree ) */') |
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CALL WRITE_0D_R8( sBeta, 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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IF ( fluidIsAir ) THEN |
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CALL WRITE_0D_R8( atm_Rd, INDEX_NONE, 'atm_Rd =', |
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& ' /* gas constant for dry air ( J/kg/K ) */') |
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CALL WRITE_0D_R8( atm_Cp, INDEX_NONE, 'atm_Cp =', |
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& ' /* specific heat (Cp) of dry air ( J/kg/K ) */') |
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CALL WRITE_0D_R8( atm_kappa, INDEX_NONE, 'atm_kappa =', |
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& ' /* kappa (=Rd/Cp ) of dry air */') |
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CALL WRITE_0D_R8( atm_Rq, INDEX_NONE, 'atm_Rq =', |
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& ' /* water vap. specific vol. anomaly relative to dry air */') |
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CALL WRITE_0D_R8( atm_Po, INDEX_NONE, 'atm_Po =', |
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& ' /* standard reference pressure ( Pa ) */') |
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CALL WRITE_0D_I( integr_GeoPot, INDEX_NONE, 'integr_GeoPot =', |
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& ' /* select how the geopotential is integrated */') |
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CALL WRITE_0D_I( selectFindRoSurf, INDEX_NONE, |
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& 'selectFindRoSurf=', |
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& ' /* select how Surf.Ref. pressure is defined */') |
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ENDIF |
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CALL WRITE_0D_R8( rhonil, INDEX_NONE,'rhonil =', |
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&' /* Reference density ( kg/m^3 ) */') |
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CALL WRITE_0D_R8( rhoConst, INDEX_NONE,'rhoConst =', |
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&' /* Reference density ( kg/m^3 ) */') |
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CALL WRITE_0D_R8( rhoConstFresh, INDEX_NONE,'rhoConstFresh =', |
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&' /* Reference density ( kg/m^3 ) */') |
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CALL WRITE_0D_R8( gravity, INDEX_NONE,'gravity =', |
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&' /* Gravitational acceleration ( m/s^2 ) */') |
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CALL WRITE_0D_R8( gBaro, INDEX_NONE,'gBaro =', |
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&' /* Barotropic gravity ( m/s^2 ) */') |
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CALL WRITE_0D_R8(rotationPeriod,INDEX_NONE,'rotationPeriod =', |
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&' /* Rotation Period ( s ) */') |
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CALL WRITE_0D_R8( omega, INDEX_NONE,'omega =', |
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&' /* Angular velocity ( rad/s ) */') |
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CALL WRITE_0D_R8( f0, INDEX_NONE,'f0 =', |
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&' /* Reference coriolis parameter ( 1/s ) */') |
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CALL WRITE_0D_R8( beta, INDEX_NONE,'beta =', |
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&' /* Beta ( 1/(m.s) ) */') |
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|
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CALL WRITE_0D_R8( freeSurfFac, INDEX_NONE,'freeSurfFac =', |
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&' /* Implicit free surface factor */') |
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CALL WRITE_0D_L( implicitFreeSurface, INDEX_NONE, |
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& 'implicitFreeSurface =', |
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&' /* Implicit free surface on/off flag */') |
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CALL WRITE_0D_L( rigidLid, INDEX_NONE, |
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& 'rigidLid =', |
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&' /* Rigid lid on/off flag */') |
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CALL WRITE_0D_R8( implicSurfPress, INDEX_NONE, |
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&'implicSurfPress =', |
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&' /* Surface Pressure implicit factor (0-1)*/') |
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CALL WRITE_0D_R8( implicDiv2Dflow, INDEX_NONE, |
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&'implicDiv2Dflow =', |
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&' /* Barot. Flow Div. implicit factor (0-1)*/') |
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CALL WRITE_0D_L( exactConserv, INDEX_NONE, |
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&'exactConserv =', |
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&' /* Exact Volume Conservation on/off flag*/') |
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CALL WRITE_0D_L( uniformLin_PhiSurf, INDEX_NONE, |
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&'uniformLin_PhiSurf =', |
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&' /* use uniform Bo_surf on/off flag*/') |
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CALL WRITE_0D_I( nonlinFreeSurf, INDEX_NONE, |
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&'nonlinFreeSurf =', |
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&' /* Non-linear Free Surf. options (-1,0,1,2,3)*/') |
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WRITE(msgBuf,'(2A)') ' -1,0= Off ; 1,2,3= On,', |
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& ' 2=+rescale gU,gV, 3=+update cg2d solv.' |
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CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
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& SQUEEZE_RIGHT , 1) |
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CALL WRITE_0D_R8( hFacInf, INDEX_NONE, |
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&'hFacInf =', |
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&' /* lower threshold for hFac (nonlinFreeSurf only)*/') |
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CALL WRITE_0D_R8( hFacSup, INDEX_NONE, |
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&'hFacSup =', |
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&' /* upper threshold for hFac (nonlinFreeSurf only)*/') |
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CALL WRITE_0D_I( select_rStar, INDEX_NONE, |
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&'select_rStar =', |
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&' /* r* Coordinate options (not yet implemented)*/') |
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CALL WRITE_0D_L( useRealFreshWaterFlux, INDEX_NONE, |
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&'useRealFreshWaterFlux =', |
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&' /* Real Fresh Water Flux on/off flag*/') |
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IF (useRealFreshWaterFlux .AND. nonlinFreeSurf.GT.0) THEN |
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CALL WRITE_0D_R8( temp_EvPrRn, INDEX_NONE, |
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&'temp_EvPrRn =', |
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&' /* Temp. of Evap/Prec/R (UNSET=use local T)(oC)*/') |
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CALL WRITE_0D_R8( salt_EvPrRn, INDEX_NONE, |
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&'salt_EvPrRn =', |
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&' /* Salin. of Evap/Prec/R (UNSET=use local S)(ppt)*/') |
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ELSE |
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CALL WRITE_0D_R8( convertFW2Salt, INDEX_NONE, |
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&'convertFW2Salt =', |
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&' /* convert F.W. Flux to Salt Flux (-1=use local S)(ppt)*/') |
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ENDIF |
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|
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CALL WRITE_0D_L( nonHydrostatic, INDEX_NONE, |
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& 'nonHydrostatic =', ' /* Non-Hydrostatic on/off flag */') |
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CALL WRITE_0D_L( momStepping, INDEX_NONE, |
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& 'momStepping =', ' /* Momentum equation on/off flag */') |
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CALL WRITE_0D_L( momAdvection, INDEX_NONE, |
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& 'momAdvection =', ' /* Momentum advection on/off flag */') |
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CALL WRITE_0D_L( momViscosity, INDEX_NONE, |
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& 'momViscosity =', ' /* Momentum viscosity on/off flag */') |
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CALL WRITE_0D_L( momImplVertAdv, INDEX_NONE, 'momImplVertAdv =', |
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& '/* Momentum implicit vert. advection on/off*/') |
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CALL WRITE_0D_L( implicitViscosity, INDEX_NONE, |
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& 'implicitViscosity =', ' /* Implicit viscosity on/off flag */') |
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CALL WRITE_0D_L( useCoriolis, INDEX_NONE, |
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& 'useCoriolis =', ' /* Coriolis on/off flag */') |
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CALL WRITE_0D_L( useCDscheme, INDEX_NONE, |
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& 'useCDscheme =', ' /* CD scheme on/off flag */') |
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CALL WRITE_0D_L( useJamartWetPoints, INDEX_NONE, |
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& 'useJamartWetPoints=',' /* Coriolis WetPoints method flag */') |
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CALL WRITE_0D_L( useJamartMomAdv, INDEX_NONE, |
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& 'useJamartMomAdv=',' /* V.I. Non-linear terms Jamart flag */') |
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CALL WRITE_0D_L( SadournyCoriolis, INDEX_NONE, |
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& 'SadournyCoriolis=',' /* Sadourny Coriolis discr. flag */') |
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CALL WRITE_0D_L( upwindVorticity, INDEX_NONE, |
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& 'upwindVorticity=',' /* Upwind bias vorticity flag */') |
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CALL WRITE_0D_L( useAbsVorticity, INDEX_NONE, |
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& 'useAbsVorticity=',' /* Work with f+zeta in Coriolis */') |
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CALL WRITE_0D_L( highOrderVorticity, INDEX_NONE, |
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& 'highOrderVorticity=',' /* High order interp. of vort. flag */') |
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CALL WRITE_0D_L( momForcing, INDEX_NONE, |
| 294 |
& 'momForcing =', ' /* Momentum forcing on/off flag */') |
| 295 |
CALL WRITE_0D_L( momPressureForcing, INDEX_NONE, |
| 296 |
& 'momPressureForcing =', |
| 297 |
& ' /* Momentum pressure term on/off flag */') |
| 298 |
CALL WRITE_0D_L( staggerTimeStep, INDEX_NONE, |
| 299 |
& 'staggerTimeStep =', |
| 300 |
&' /* Stagger time stepping on/off flag */') |
| 301 |
CALL WRITE_0D_L( multiDimAdvection, INDEX_NONE, |
| 302 |
& 'multiDimAdvection =', |
| 303 |
&' /* enable/disable Multi-Dim Advection */') |
| 304 |
CALL WRITE_0D_L( useMultiDimAdvec, INDEX_NONE, |
| 305 |
& 'useMultiDimAdvec =', |
| 306 |
&' /* Multi-Dim Advection is/is-not used */') |
| 307 |
CALL WRITE_0D_L( implicitDiffusion, INDEX_NONE, |
| 308 |
& 'implicitDiffusion =','/* Implicit Diffusion on/off flag */') |
| 309 |
CALL WRITE_0D_L( tempStepping, INDEX_NONE, |
| 310 |
& 'tempStepping =', ' /* Temperature equation on/off flag */') |
| 311 |
CALL WRITE_0D_L( tempAdvection, INDEX_NONE, |
| 312 |
& 'tempAdvection=', ' /* Temperature advection on/off flag */') |
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CALL WRITE_0D_L( tempImplVertAdv,INDEX_NONE,'tempImplVertAdv =', |
| 314 |
& '/* Temp. implicit vert. advection on/off */') |
| 315 |
CALL WRITE_0D_L( tempForcing, INDEX_NONE, |
| 316 |
& 'tempForcing =', ' /* Temperature forcing on/off flag */') |
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CALL WRITE_0D_L( saltStepping, INDEX_NONE, |
| 318 |
& 'saltStepping =', ' /* Salinity equation on/off flag */') |
| 319 |
CALL WRITE_0D_L( saltAdvection, INDEX_NONE, |
| 320 |
& 'saltAdvection=', ' /* Salinity advection on/off flag */') |
| 321 |
CALL WRITE_0D_L( saltImplVertAdv,INDEX_NONE,'saltImplVertAdv =', |
| 322 |
& '/* Sali. implicit vert. advection on/off */') |
| 323 |
CALL WRITE_0D_L( saltForcing, INDEX_NONE, |
| 324 |
& 'saltForcing =', ' /* Salinity forcing on/off flag */') |
| 325 |
WRITE(msgBuf,'(A)') '// ' |
| 326 |
CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
| 327 |
& SQUEEZE_RIGHT , 1) |
| 328 |
|
| 329 |
WRITE(msgBuf,'(A)') |
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& '// Elliptic solver(s) paramters ( PARM02 in namelist ) ' |
| 331 |
CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
| 332 |
& SQUEEZE_RIGHT , 1) |
| 333 |
WRITE(msgBuf,'(A)') '// ' |
| 334 |
CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
| 335 |
& SQUEEZE_RIGHT , 1) |
| 336 |
CALL WRITE_0D_I( cg2dMaxIters, INDEX_NONE,'cg2dMaxIters =', |
| 337 |
&' /* Upper limit on 2d con. grad iterations */') |
| 338 |
CALL WRITE_0D_I( cg2dChkResFreq, INDEX_NONE,'cg2dChkResFreq =', |
| 339 |
&' /* 2d con. grad convergence test frequency */') |
| 340 |
CALL WRITE_0D_R8( cg2dTargetResidual, INDEX_NONE, |
| 341 |
& 'cg2dTargetResidual =', |
| 342 |
&' /* 2d con. grad target residual */') |
| 343 |
CALL WRITE_0D_R8( cg2dTargetResWunit, INDEX_NONE, |
| 344 |
& 'cg2dTargetResWunit =', |
| 345 |
&' /* CG2d target residual [W units] */') |
| 346 |
CALL WRITE_0D_I( cg2dPreCondFreq, INDEX_NONE,'cg2dPreCondFreq =', |
| 347 |
&' /* Freq. for updating cg2d preconditioner */') |
| 348 |
|
| 349 |
WRITE(msgBuf,'(A)') '// ' |
| 350 |
CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
| 351 |
& SQUEEZE_RIGHT , 1) |
| 352 |
WRITE(msgBuf,'(A)') |
| 353 |
& '// Time stepping paramters ( PARM03 in namelist ) ' |
| 354 |
CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
| 355 |
& SQUEEZE_RIGHT , 1) |
| 356 |
WRITE(msgBuf,'(A)') '// ' |
| 357 |
CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
| 358 |
& SQUEEZE_RIGHT , 1) |
| 359 |
CALL WRITE_0D_I( nIter0, INDEX_NONE,'nIter0 =', |
| 360 |
&' /* Base timestep number */') |
| 361 |
CALL WRITE_0D_I( nTimeSteps, INDEX_NONE,'nTimeSteps =', |
| 362 |
&' /* Number of timesteps */') |
| 363 |
CALL WRITE_0D_R8( deltaTmom, INDEX_NONE,'deltatTmom =', |
| 364 |
&' /* Momentum equation timestep ( s ) */') |
| 365 |
CALL WRITE_0D_R8( deltaTfreesurf,INDEX_NONE,'deltaTfreesurf =', |
| 366 |
&' /* FreeSurface equation timestep ( s ) */') |
| 367 |
CALL WRITE_1D_R8( dTtracerLev, Nr, INDEX_K, 'dTtracerLev =', |
| 368 |
&' /* Tracer equation timestep ( s ) */') |
| 369 |
CALL WRITE_0D_R8( deltaTClock, INDEX_NONE,'deltatTClock =', |
| 370 |
&' /* Model clock timestep ( s ) */') |
| 371 |
CALL WRITE_0D_R8( cAdjFreq, INDEX_NONE,'cAdjFreq =', |
| 372 |
&' /* Convective adjustment interval ( s ) */') |
| 373 |
CALL WRITE_0D_L( forcing_In_AB,INDEX_NONE,'forcing_In_AB =', |
| 374 |
&' /* put T,S Forcing in Adams-Bash. stepping */') |
| 375 |
CALL WRITE_0D_R8( abeps, INDEX_NONE,'abeps =', |
| 376 |
&' /* Adams-Bashforth stabilizing weight */') |
| 377 |
IF (useCDscheme) THEN |
| 378 |
CALL WRITE_0D_R8( tauCD, INDEX_NONE,'tauCD =', |
| 379 |
&' /* CD coupling time-scale ( s ) */') |
| 380 |
CALL WRITE_0D_R8( rCD, INDEX_NONE,'rCD =', |
| 381 |
&' /* Normalised CD coupling parameter */') |
| 382 |
ENDIF |
| 383 |
CALL WRITE_0D_R8( startTime, INDEX_NONE,'startTime =', |
| 384 |
&' /* Run start time ( s ). */') |
| 385 |
CALL WRITE_0D_R8( endTime, INDEX_NONE,'endTime =', |
| 386 |
&' /* Integration ending time ( s ). */') |
| 387 |
CALL WRITE_0D_R8( pChkPtFreq, INDEX_NONE,'pChkPtFreq =', |
| 388 |
&' /* Permanent restart/checkpoint file interval ( s ). */') |
| 389 |
CALL WRITE_0D_R8( chkPtFreq, INDEX_NONE,'chkPtFreq =', |
| 390 |
&' /* Rolling restart/checkpoint file interval ( s ). */') |
| 391 |
CALL WRITE_0D_L(pickup_write_mdsio,INDEX_NONE, |
| 392 |
& 'pickup_write_mdsio =', ' /* Model IO flag. */') |
| 393 |
CALL WRITE_0D_L(pickup_read_mdsio,INDEX_NONE, |
| 394 |
& 'pickup_read_mdsio =', ' /* Model IO flag. */') |
| 395 |
#ifdef ALLOW_MNC |
| 396 |
CALL WRITE_0D_L(pickup_write_mnc,INDEX_NONE, |
| 397 |
& 'pickup_write_mnc =', ' /* Model IO flag. */') |
| 398 |
CALL WRITE_0D_L(pickup_read_mnc,INDEX_NONE, |
| 399 |
& 'pickup_read_mnc =', ' /* Model IO flag. */') |
| 400 |
#endif |
| 401 |
CALL WRITE_0D_L(pickup_write_immed,INDEX_NONE, |
| 402 |
& 'pickup_write_immed =',' /* Model IO flag. */') |
| 403 |
CALL WRITE_0D_R8( dumpFreq, INDEX_NONE,'dumpFreq =', |
| 404 |
&' /* Model state write out interval ( s ). */') |
| 405 |
CALL WRITE_0D_L(snapshot_mdsio,INDEX_NONE, |
| 406 |
& 'snapshot_mdsio =', ' /* Model IO flag. */') |
| 407 |
#ifdef ALLOW_MNC |
| 408 |
CALL WRITE_0D_L(snapshot_mnc,INDEX_NONE, |
| 409 |
& 'snapshot_mnc =', ' /* Model IO flag. */') |
| 410 |
#endif |
| 411 |
CALL WRITE_0D_R8( monitorFreq, INDEX_NONE,'monitorFreq =', |
| 412 |
&' /* Monitor output interval ( s ). */') |
| 413 |
CALL WRITE_0D_L(monitor_stdio,INDEX_NONE, |
| 414 |
& 'monitor_stdio =', ' /* Model IO flag. */') |
| 415 |
#ifdef ALLOW_MNC |
| 416 |
CALL WRITE_0D_L(monitor_mnc,INDEX_NONE, |
| 417 |
& 'monitor_mnc =', ' /* Model IO flag. */') |
| 418 |
#endif |
| 419 |
CALL WRITE_0D_R8( externForcingPeriod, INDEX_NONE, |
| 420 |
& 'externForcingPeriod =', ' /* forcing period (s) */') |
| 421 |
CALL WRITE_0D_R8( externForcingCycle, INDEX_NONE, |
| 422 |
& 'externForcingCycle =', ' /* period of the cyle (s). */') |
| 423 |
CALL WRITE_0D_R8( tauThetaClimRelax, INDEX_NONE, |
| 424 |
& 'tauThetaClimRelax =', ' /* relaxation time scale (s) */') |
| 425 |
CALL WRITE_0D_R8( tauSaltClimRelax, INDEX_NONE, |
| 426 |
& 'tauSaltClimRelax =', ' /* relaxation time scale (s) */') |
| 427 |
CALL WRITE_0D_R8( latBandClimRelax, INDEX_NONE, |
| 428 |
& 'latBandClimRelax =', ' /* max. Lat. where relaxation */') |
| 429 |
WRITE(msgBuf,'(A)') '// ' |
| 430 |
CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
| 431 |
& SQUEEZE_RIGHT , 1) |
| 432 |
WRITE(msgBuf,'(A)') |
| 433 |
& '// Gridding paramters ( PARM04 in namelist ) ' |
| 434 |
CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
| 435 |
& SQUEEZE_RIGHT , 1) |
| 436 |
WRITE(msgBuf,'(A)') '// ' |
| 437 |
CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
| 438 |
& SQUEEZE_RIGHT , 1) |
| 439 |
CALL WRITE_0D_L( usingCartesianGrid, INDEX_NONE, |
| 440 |
& 'usingCartesianGrid =', |
| 441 |
&' /* Cartesian coordinates flag ( True / False ) */') |
| 442 |
CALL WRITE_0D_L( usingSphericalPolarGrid, INDEX_NONE, |
| 443 |
& 'usingSphericalPolarGrid =', |
| 444 |
&' /* Spherical coordinates flag ( True / False ) */') |
| 445 |
CALL WRITE_0D_L( usingCylindricalGrid, INDEX_NONE, |
| 446 |
& 'usingCylindricalGrid =', |
| 447 |
&' /* Spherical coordinates flag ( True / False ) */') |
| 448 |
CALL WRITE_0D_L( groundAtK1, INDEX_NONE, 'groundAtK1 =', |
| 449 |
&' /* Lower Boundary (ground) at the surface(k=1) ( T / F ) */') |
| 450 |
CALL WRITE_0D_R8( Ro_SeaLevel, INDEX_NONE,'Ro_SeaLevel =', |
| 451 |
&' /* r(1) ( units of r ) */') |
| 452 |
CALL WRITE_0D_R8( rkFac, INDEX_NONE,'rkFac =', |
| 453 |
&' /* minus Vertical index orientation */') |
| 454 |
CALL WRITE_0D_R8( horiVertRatio, INDEX_NONE,'horiVertRatio =', |
| 455 |
&' /* Ratio on units : Horiz - Vertical */') |
| 456 |
c CALL WRITE_1D_R8( delZ,Nr, INDEX_K,'delZ = ', |
| 457 |
c &' /* W spacing ( m ) */') |
| 458 |
c CALL WRITE_1D_R8( delP,Nr, INDEX_K,'delP = ', |
| 459 |
c &' /* W spacing ( Pa ) */') |
| 460 |
c CALL WRITE_1D_R8( delR,Nr, INDEX_K,'delR = ', |
| 461 |
c &' /* W spacing ( units of r ) */') |
| 462 |
CALL WRITE_1D_R8( drC,Nr, INDEX_K,'drC = ', |
| 463 |
&' /* C spacing ( units of r ) */') |
| 464 |
CALL WRITE_1D_R8( drF,Nr, INDEX_K,'drF = ', |
| 465 |
&' /* W spacing ( units of r ) */') |
| 466 |
CALL WRITE_1D_R8( delX, Nx, INDEX_I,'delX = ', |
| 467 |
&' /* U spacing ( m - cartesian, degrees - spherical ) */') |
| 468 |
CALL WRITE_1D_R8( delY, Ny, INDEX_J,'delY = ', |
| 469 |
&' /* V spacing ( m - cartesian, degrees - spherical ) */') |
| 470 |
CALL WRITE_0D_R8( phiMin, INDEX_NONE,'phiMin = ', |
| 471 |
&' /* South edge (ignored - cartesian, degrees - spherical ) */') |
| 472 |
CALL WRITE_0D_R8( thetaMin, INDEX_NONE,'thetaMin = ', |
| 473 |
&' /* West edge ( ignored - cartesian, degrees - spherical ) */') |
| 474 |
CALL WRITE_0D_R8( rSphere, INDEX_NONE,'rSphere = ', |
| 475 |
&' /* Radius ( ignored - cartesian, m - spherical ) */') |
| 476 |
DO bi=1,nSx |
| 477 |
DO I=1,sNx |
| 478 |
xcoord((bi-1)*sNx+I) = xC(I,1,bi,1) |
| 479 |
ENDDO |
| 480 |
ENDDO |
| 481 |
CALL WRITE_1D_R8( xcoord, sNx*nSx, INDEX_I,'xcoord = ', |
| 482 |
&' /* P-point X coord ( m - cartesian, degrees - spherical ) */') |
| 483 |
DO bj=1,nSy |
| 484 |
DO J=1,sNy |
| 485 |
ycoord((bj-1)*sNy+J) = yC(1,J,1,bj) |
| 486 |
ENDDO |
| 487 |
ENDDO |
| 488 |
CALL WRITE_1D_R8( ycoord, sNy*nSy, INDEX_J,'ycoord = ', |
| 489 |
&' /* P-point Y coord ( m - cartesian, degrees - spherical ) */') |
| 490 |
DO K=1,Nr |
| 491 |
rcoord(K) = rC(K) |
| 492 |
ENDDO |
| 493 |
CALL WRITE_1D_R8( rcoord, Nr, INDEX_K,'rcoord = ', |
| 494 |
&' /* P-point R coordinate ( units of r ) */') |
| 495 |
DO K=1,Nr+1 |
| 496 |
rcoord(K) = rF(K) |
| 497 |
ENDDO |
| 498 |
CALL WRITE_1D_R8( rcoord, Nr+1, INDEX_K,'rF = ', |
| 499 |
&' /* W-Interf. R coordinate ( units of r ) */') |
| 500 |
|
| 501 |
C Grid along selected grid lines |
| 502 |
coordLine = 1 |
| 503 |
tileLine = 1 |
| 504 |
CALL WRITE_XY_XLINE_RS( dxF, coordLine, tileLine, |
| 505 |
I 'dxF','( m - cartesian, degrees - spherical )') |
| 506 |
CALL WRITE_XY_YLINE_RS( dxF, coordLine, tileLine, |
| 507 |
I 'dxF','( m - cartesian, degrees - spherical )') |
| 508 |
CALL WRITE_XY_XLINE_RS( dyF, coordLine, tileLine, |
| 509 |
I 'dyF','( m - cartesian, degrees - spherical )') |
| 510 |
CALL WRITE_XY_YLINE_RS( dyF, coordLine, tileLine, |
| 511 |
I 'dyF','( m - cartesian, degrees - spherical )') |
| 512 |
CALL WRITE_XY_XLINE_RS( dxG, coordLine, tileLine, |
| 513 |
I 'dxG','( m - cartesian, degrees - spherical )') |
| 514 |
CALL WRITE_XY_YLINE_RS( dxG, coordLine, tileLine, |
| 515 |
I 'dxG','( m - cartesian, degrees - spherical )') |
| 516 |
CALL WRITE_XY_XLINE_RS( dyG, coordLine, tileLine, |
| 517 |
I 'dyG','( m - cartesian, degrees - spherical )') |
| 518 |
CALL WRITE_XY_YLINE_RS( dyG, coordLine, tileLine, |
| 519 |
I 'dyG','( m - cartesian, degrees - spherical )') |
| 520 |
CALL WRITE_XY_XLINE_RS( dxC, coordLine, tileLine, |
| 521 |
I 'dxC','( m - cartesian, degrees - spherical )') |
| 522 |
CALL WRITE_XY_YLINE_RS( dxC, coordLine, tileLine, |
| 523 |
I 'dxC','( m - cartesian, degrees - spherical )') |
| 524 |
CALL WRITE_XY_XLINE_RS( dyC, coordLine, tileLine, |
| 525 |
I 'dyC','( m - cartesian, degrees - spherical )') |
| 526 |
CALL WRITE_XY_YLINE_RS( dyC, coordLine, tileLine, |
| 527 |
I 'dyC','( m - cartesian, degrees - spherical )') |
| 528 |
CALL WRITE_XY_XLINE_RS( dxV, coordLine, tileLine, |
| 529 |
I 'dxV','( m - cartesian, degrees - spherical )') |
| 530 |
CALL WRITE_XY_YLINE_RS( dxV, coordLine, tileLine, |
| 531 |
I 'dxV','( m - cartesian, degrees - spherical )') |
| 532 |
CALL WRITE_XY_XLINE_RS( dyU, coordLine, tileLine, |
| 533 |
I 'dyU','( m - cartesian, degrees - spherical )') |
| 534 |
CALL WRITE_XY_YLINE_RS( dyU, coordLine, tileLine, |
| 535 |
I 'dyU','( m - cartesian, degrees - spherical )') |
| 536 |
CALL WRITE_XY_XLINE_RS( rA, coordLine, tileLine, |
| 537 |
I 'rA','( m - cartesian, degrees - spherical )') |
| 538 |
CALL WRITE_XY_YLINE_RS( rA, coordLine, tileLine, |
| 539 |
I 'rA','( m - cartesian, degrees - spherical )') |
| 540 |
CALL WRITE_XY_XLINE_RS( rAw, coordLine, tileLine, |
| 541 |
I 'rAw','( m - cartesian, degrees - spherical )') |
| 542 |
CALL WRITE_XY_YLINE_RS( rAw, coordLine, tileLine, |
| 543 |
I 'rAw','( m - cartesian, degrees - spherical )') |
| 544 |
CALL WRITE_XY_XLINE_RS( rAs, coordLine, tileLine, |
| 545 |
I 'rAs','( m - cartesian, degrees - spherical )') |
| 546 |
CALL WRITE_XY_YLINE_RS( rAs, coordLine, tileLine, |
| 547 |
I 'rAs','( m - cartesian, degrees - spherical )') |
| 548 |
|
| 549 |
WRITE(msgBuf,'(A)') ' ' |
| 550 |
CALL PRINT_MESSAGE( msgBuf, standardMessageUnit, |
| 551 |
& SQUEEZE_RIGHT , 1) |
| 552 |
|
| 553 |
_END_MASTER(myThid) |
| 554 |
_BARRIER |
| 555 |
|
| 556 |
|
| 557 |
RETURN |
| 558 |
100 FORMAT(A, |
| 559 |
&' ' |
| 560 |
&) |
| 561 |
END |
| 562 |
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