C $Header: /home/ubuntu/mnt/e9_copy/MITgcm/pkg/aim_v23/aim_diagnostics_init.F,v 1.4 2006/02/15 19:23:33 jmc Exp $ C $Name: $ #include "AIM_OPTIONS.h" CBOP C !ROUTINE: AIM_DIAGNOSTICS_INIT C !INTERFACE: SUBROUTINE AIM_DIAGNOSTICS_INIT( myThid ) C !DESCRIPTION: \bv C *==========================================================* C | SUBROUTINE AIM_DIAGNOSTICS_INIT C | o Routine to initialize list of all available diagnostics C | for AIM package C *==========================================================* C \ev C !USES: IMPLICIT NONE C === Global variables === #include "EEPARAMS.h" C !INPUT/OUTPUT PARAMETERS: C === Routine arguments === C myThid :: my Thread Id number INTEGER myThid CEOP #ifdef ALLOW_DIAGNOSTICS C !LOCAL VARIABLES: C === Local variables === C diagNum :: diagnostics number in the (long) list of available diag. C diagName :: local short name (8c) of a diagnostics C diagCode :: local parser field with characteristics of the diagnostics C cf head of S/R DIAGNOSTICS_INIT_EARLY or DIAGNOSTICS_MAIN_INIT C diagUnits :: local string (16c): physical units of a diagnostic field C diagTitle :: local string (80c): description of field in diagnostic INTEGER diagNum CHARACTER*8 diagName CHARACTER*16 diagCode CHARACTER*16 diagUnits CHARACTER*(80) diagTitle C---+----1----+----2----+----3----+----4----+----5----+----6----+----7-|--+----| diagName = 'DIABT ' diagTitle = & 'Pot. Temp. Tendency (Mass-Weighted) from Diabatic Processes' diagUnits = 'K/s ' diagCode = 'SM ML ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'DIABQ ' diagTitle = & 'Spec.Humid. Tendency (Mass-Weighted) from Diabatic Processes' diagUnits = 'g/kg/s ' diagCode = 'SM ML ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'RADSW ' diagTitle = & 'Temperature Tendency due to Shortwave Radiation (TT_RSW)' diagUnits = 'K/s ' diagCode = 'SM ML ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'RADLW ' diagTitle = & 'Temperature Tendency due to Longwave Radiation (TT_RLW)' diagUnits = 'K/s ' diagCode = 'SM ML ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'DTCONV ' diagTitle = 'Temperature Tendency due to Convection (TT_CNV)' diagUnits = 'K/s ' diagCode = 'SM MR ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'TURBT ' diagTitle = & 'Temperature Tendency due to Turbulence in PBL (TT_PBL)' diagUnits = 'K/s ' diagCode = 'SM ML ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'DTLS ' diagTitle = & 'Temperature Tendency due to Large-scale condens. (TT_LSC)' diagUnits = 'K/s ' diagCode = 'SM ML ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'DQCONV ' diagTitle = 'Spec. Humidity Tendency due to Convection (QT_CNV)' diagUnits = 'g/kg/s ' diagCode = 'SM MR ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'TURBQ ' diagTitle = & 'Spec. Humidity Tendency due to Turbulence in PBL (QT_PBL)' diagUnits = 'g/kg/s ' diagCode = 'SM ML ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'DQLS ' diagTitle = & 'Spec. Humidity Tendency due to Large-Scale Condens. (QT_LSC)' diagUnits = 'g/kg/s ' diagCode = 'SM ML ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'RELHUM ' diagTitle = 'Relative Humidity (fraction)' diagUnits = '0-1 ' diagCode = 'SM MR ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'TSR ' diagTitle = 'Top-of-atm. net Shortwave Radiation (+=dw)' diagUnits = 'W/m^2 ' diagCode = 'SM P U1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'OLR ' diagTitle = 'Outgoing Longwave Radiation (+=up)' diagUnits = 'W/m^2 ' diagCode = 'SM P U1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'RADSWG ' diagTitle = 'Net Shortwave Radiation at the Ground (+=dw)' diagUnits = 'W/m^2 ' diagCode = 'SM P L1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'RADLWG ' diagTitle = 'Net Longwave Radiation at the Ground (+=up)' diagUnits = 'W/m^2 ' diagCode = 'SM L1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'HFLUX ' diagTitle = 'Sensible Heat Flux (+=up)' diagUnits = 'W/m^2 ' diagCode = 'SM L1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'EVAP ' diagTitle = 'Surface Evaporation (g/m2/s)' diagUnits = 'g/m^2/s ' diagCode = 'SM L1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'PRECON ' diagTitle = 'Convective Precipitation (g/m2/s)' diagUnits = 'g/m^2/s ' diagCode = 'SM P L1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'PRECLS ' diagTitle = 'Large Scale Precipitation (g/m2/s)' diagUnits = 'g/m^2/s ' diagCode = 'SM M1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'CLDFRC ' diagTitle = 'Total Cloud Fraction (0-1)' diagUnits = '0-1 ' diagCode = 'SM P M1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'CLDPRS ' diagTitle = 'Cloud Top Pressure (normalized)' diagUnits = '0-1 ' WRITE(diagCode,'(A,I3.3,A)') 'SM PC',diagNum,'M1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'CLDMAS ' diagTitle = 'Cloud-base Mass Flux (kg/m^2/s)' diagUnits = 'kg/m^2/s ' diagCode = 'SM P LL ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'DRAG ' diagTitle = 'Surface Drag Coefficient (kg/m^2/s)' diagUnits = 'kg/m^2/s ' diagCode = 'SM P LL ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'WINDS ' diagTitle = 'Surface Wind Speed (m/s)' diagUnits = 'm/s ' diagCode = 'SM P L1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'TS ' diagTitle = 'near Surface Air Temperature (K)' diagUnits = 'K ' diagCode = 'SM L1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'QS ' diagTitle = 'near Surface Specific Humidity (g/kg)' diagUnits = 'g/kg ' diagCode = 'SM P L1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'ENPREC ' diagTitle ='Energy flux associated with precip. (snow, rain Temp)' diagUnits = 'W/m^2 ' diagCode = 'SM M1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'ALBVISDF' diagTitle = 'Surface Albedo (Visible band) (0-1)' diagUnits = '0-1 ' diagCode = 'SM P L1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'DWNLWG ' diagTitle = & 'Downward Component of Longwave Flux at the Ground (+=dw)' diagUnits = 'W/m^2 ' diagCode = 'SM P L1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'SWCLR ' diagTitle = 'Clear Sky Temp. Tendency due to Shortwave Radiation' diagUnits = 'K/s ' diagCode = 'SM ML ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'LWCLR ' diagTitle = 'Clear Sky Temp. Tendency due to Longwave Radiation' diagUnits = 'K/s ' diagCode = 'SM ML ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'TSRCLR ' diagTitle = 'Clear Sky Top-of-atm. net Shortwave Radiation (+=dw)' diagUnits = 'W/m^2 ' diagCode = 'SM P U1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'OLRCLR ' diagTitle = 'Clear Sky Outgoing Longwave Radiation (+=up)' diagUnits = 'W/m^2 ' diagCode = 'SM P U1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'SWGCLR ' diagTitle = & 'Clear Sky Net Shortwave Radiation at the Ground (+=dw)' diagUnits = 'W/m^2 ' diagCode = 'SM P L1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'LWGCLR ' diagTitle = & 'Clear Sky Net Longwave Radiation at the Ground (+=up)' diagUnits = 'W/m^2 ' diagCode = 'SM L1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'UFLUX ' diagTitle = 'Zonal Wind Surface Stress (N/m^2)' diagUnits = 'N/m^2 ' WRITE(diagCode,'(A,I3.3,A)') 'UM ',diagNum+2,'L1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'VFLUX ' diagTitle = 'Meridional Wind Surface Stress (N/m^2)' diagUnits = 'N/m^2 ' WRITE(diagCode,'(A,I3.3,A)') 'VM ', diagNum ,'L1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) diagName = 'DTSIMPL ' diagTitle = 'Surf. Temp Change after 1 implicit time step' diagUnits = 'K ' diagCode = 'SM P L1 ' CALL DIAGNOSTICS_ADD2LIST( diagNum, I diagName, diagCode, diagUnits, diagTitle, myThid ) #endif /* ALLOW_DIAGNOSTICS */ RETURN END