!namelist !############################### Change Log ################################## ! 1.0.0.0 ! ! $Author: pkubota $ ! $Date: 2009/03/03 16:36:38 $ ! $Revision: 1.13 $ ! ! !############################################################################# ! ! trunc =021,vert =09,dt =1800.0, ! trunc =062,vert =28,dt =1200.0, ! trunc =126,vert =28,dt =600.0 ! trunc =170,vert =42,dt =450.0 ! trunc =213,vert =42,dt =360.0 ! trunc =254,vert =64,dt =300.0 ! trunc =341,vert =64,dt =200.0 !!!teste=225.0 !############################################################################ &MODEL_RES trunc =${trunc}, !TRC : three-digit triangular truncation vert =${LV}, !LV : two-digit number of vertical sigma-layers dt =${dt_atmos}, ! : delta t IDATEI =${LABELI:8},${LABELI:6:2},${LABELI:4:2},${LABELI:0:4}, !LABELI: initial forecasting label IDATEW =${LABELC:8},${LABELC:6:2},${LABELC:4:2},${LABELC:0:4}, !LABELC: final forecasting label for cold IDATEF =${LABELF:8},${LABELF:6:2},${LABELF:4:2},${LABELF:0:4}, !LABELF: final forecasting label for warm ! if cold, then LABELF=LABELC NMSST ='sstaoi', !NMSST : sst file name NMSNOW ='snowaoi', !NMSNOW: snow file name ! snowwkl :-- > daily (NCEP file) ! for weekly run mean of snow for ! the week finished at initial day ! minus one (original 1x1 degree) ! snowaoi :-- > for optimum interpolated SST ! climatology DHFCT =24, !DHFCT : > 0 interval in hours to output diagnostics ! = 0 to use default list of interval in hours ! < 0 interval in months to output diagnostics DHRES =0, !DHRES : interval in hours to output restart, ! equal zero to use default list DHDHN =24, !DHDHN : interval in hours to output DHN diagnostic NHDHN =0, !NHDHN : time in hours to stop DHN diagnostics, ! equal zero to not execute DHN diagnostics DHEXT =${DHEXT}, !DHEXT : interval in hours to output extra diagnostics NHEXT =${NHEXT}, !NHEXT : time in hours to stop extra diagnostics, ! equal zero to not execute extra diagnostics DOGRH =.FALSE., !DOGRH : logical (T or F) to do grid history for ! selected points DOPRC =.FALSE., !DOPRC : logical (T or F) to do time step output ! of global precipitation PREFX ='NMC', !PREFX : preffix for name of output files PREFY ='NMC', !PREFY : preffix for name of input files TABLE ='c', !TABLE : indicator of the desire table: ! n => for desirtable (default) ! p => for desirtable.pnt ! c => for desirtable.clm ! LABELx: hhddmmyyyy ! yyyy = four digit year ! mm = two digit month ! dd = two digit day ! hh = two digit hour !NMSST !sstaoi : for optimum interpolated SST ! climatology (original 1x1 degree) !sstanp : for optimum interpolated SST ! climatology plus persisted SST anomaly !sstwkl : for weekly run mean of SST for ! the week finished at initial day ! minus one (original 1x1 degree) !sstwkd : for weekly run mean of SST ! direct access file (original 1x1 degree) !sstmtd : for monthly run mean of SST ! direct access file (original 1x1 degree) !sstdyd : for daily run mean of SST ! direct access file (original 1x1 degree) path_in='${rootexp}/model/datain' ! com lsmk = gebco dirfNameOutput='${workdir}/model/dataout/TQ${TRUNC}L${LEV}' dirRstOutput='${workdir}/model/dataout/TQ${TRUNC}L${LEV}' / &MODEL_IN slagr =.FALSE., ! Semi-Lagrangian option (.FALSE. for Eulerian Model) slhum =.TRUE., ! Humidit should be lagrangian ? (Eulerian Model) microphys =.TRUE. ! Microphysics requires slhum to be true SL_twotime_scheme =.FALSE.,! Two-time level SL scheme nlnminit =.TRUE., ! do normal mode non linear initialization diabatic =.TRUE., ! diabatic or not initialization (.FALSE. if nlnminit=.FALSE.) eigeninit =.FALSE., ! eigenInit --> .FALSE. rsettov =.TRUE., ! rsettov --> .TRUE. intcosz =.TRUE., ! ntcosz --> .TRUE. Model1D =.FALSE., ! .TRUE. when using 1D Model. mgiven =.TRUE., ! mgiven --> .FALSE. gaussgiven =.TRUE., ! gaussgiven --> .FALSE. reducedGrid =.TRUE., ! reduced --> .TRUE. linearGrid =.FALSE., ! lineargrid --> .FALSE. GenAssFiles =.FALSE., ! .TRUE. flag to generate assimilation files GenRestFiles =.TRUE., ! .TRUE. to generate restart files. rmRestFiles =.FALSE., ! .TRUE. to remove restart files after read them. MasCon =.TRUE., ! .TRUE. to do Mass Conservation: ln(ps) MasCon_ps =.FALSE., ! .TRUE. to do Mass Conservation: ps nscalars =0, ! Number of passive variables tamBlock =128, ! quantidade de fft enviadas por bloco ibdim_size =192, ! tamanho de bloco basico (ibmax) givenfouriergroups =.FALSE.,! False if processor division should be automatic nproc_vert =28, ! Number of processors to be used in the vertical / &PHYSPROC !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! ixxxx=yes the physical process included ! ixxxx=no the physical process excluded !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ISWRAD ='CRD' ! iswrad = NON: don't do sw radiation, LCH: lacis & hansen ! CRD: clirad UKM: ukmet office ! CRDTF RRTMG ILWRAD ='HRS' ! ilwrad = NON: don't do lwradiation, HRS: Harshvardhan ! CRD: clirad UKM: ukmet office ! CRDTF RRTMG ICCON ='GRE', ! iccon=KUO:cumulus convection(kuo) ! iccon=ARA:cumulus convection(ARAKAWA) ! iccon=GRE:cumulus convection(grell4.1) ! iccon=ZMC:cumulus convection(Zhang-McFarlane) ! iccon=NON:without cumulus convection ! iccon=GEC:cumulus converction(grell4.0) ISCON ='TIED', ! iscon=TIED:shallow convection this process follows cumulus convection (tiedke) ! iscon=SOUZ:shallow convection this process follows cumulus convection (souza) ! iscon=JHK:shallow convection this process follows cumulus convection (Hack) ! iscon=UW:shallow convection this process follows cumulus convection (U.Washington) ! ! Not available still. iscon=SOUZ:cumulus heating and moistening tendencies ! Enio Pereira de Souza 12/Jul/2001 ! The option souza (SOUZ) for shallow convection has problem in the ! mass conservation, generates wrong resulted for climate ! ILCON ='HGFS', ! ilcon=yes:large scale condensation ! 'NON' ! 'YES' ! 'LSC' ! 'MIC' ! 'HWRF' ! 'HGFS' ! 'UKMO' ! 'MORR' ! 'HUMO' ! IQDIF ='YES', ! iqdif=yes:horizontal diffusion of moisture IGWD ='YES', ! igwd =NON:gravity wave ! igwd =YES:gravity wave ! igwd =CAM:gravity wave ! igwd =USS:gravity wave ! igwd =GMB ! ISIMP ='NO ', ! isimp=yes:simplified physics version. ENHDIF ='YES', ! enhdif=yes: enhance diffusion on higher levels ) ! specific for clirad ASOLC =0.22, ! continental: total column aerosol in the first 2km ASOLM =0.14, ! maritime: total column aerosol in the first 2km CRDCLD =1, ! cloud scheme =1 (old) =4 (ccm3) =5 (cam5) =6 (gfs) ! specific for grell grepar1 =1, ! integer: 0 ensemble 1 GRE 4 OMG 7 KUO 10 Chappel 13 ARA 24 ensemble2 grepar2 =3, ! integer: number eff-ensemble(1,2,3) grepar3 =120., ! cpmax grepar4 =30., ! cpmax-diff iglsm_w = 0 , sfcpbl = 1 , ! 1 pbl Mellor Yamada 2.0 atmpbl = 3 , ! 1 pbl Mellor Yamada 2.0 ! 2 pbl Mellor Yamada 2.5 ! 3 pbl Hostlag Boville 1992 PBLEntrain=.false., ! schemes = 1 , ! 1 ssib; 2 sib2; 3 ibis OCFLUX = 'WGFS', ! OCFLUX = 'COLA', ! OCFLUX = 'UKME', ! OCFLUX = 'WGFS', SLABOCEAN = 'SLAB', ! SLABOCEAN = 'COLA' ! SLABOCEAN = 'SLAB' ICEMODEL = 'COLA', ! SLABOCEAN = 'COLA' ! SLABOCEAN = 'SSIB' omlmodel=.FALSE., ! oml_hml0=60.0, ! Wgh1=0.00, ! pbl Hostlag Boville Wgh2=1.00, ! pbl Mellor Yamada 2.0 Wgh3=0.00, ! pbl Mellor Yamada 2.5 / &PHYSCS !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! the following are vertical resolution dependent cloud parameters ! used in cldgen. correct settings for these parameters need to be ! determined experimentally. !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! mxrdcc =.true., ! use maximum random converage for radiative conv. clouds lcnvl =2, ! the lowest layer index where non-convective clouds can ! occur (ben says this should be 2 or more) lthncl =80, ! minimum depth in mb of non-zero low level cloud rccmbl =3.0, ! radiative convective cloud minimum base layer index swint =1.000000,! short wave radiation call interval in hours swint=1.0e0 trint =3.000000,! ir subr. call interval in hours trint=3.0e0 ! long wave radiation call interval in hours ! physical constants for simple physics options icld =1, ! inalb =2, ! mxiter =200, ! co2val =280.0, ! co2val is wgne standard value in ppm ! co2val=345.0 old value ! co2val=370.0 new value STHICK =0.65e0, ! sthick; upper limit for originating air for lcl. ! replaces kthick. SACUM =0.46e0, ! sacum; top level for integrated moisture ! convergence test. replaces ! kacum ACUM0 =-2.0e-8, ! acum0; threshold moisture convergence such that ! integrated moisture ! convergence > - acum0 for convection to occur. TBASE =273.15e00, MLRG =0, ! mlrg=1 ;output of pre-adjusted & post adjusted ! temp. & s.h. in lrgscl IS =1, ! is ;start i-point KI =1 ! ki ; lowest level from which parcels can be ! lifted to find lcl cflric =0.10 ! parameter used by relaxed arakawa-schubert / &COMCON !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ! files ! ifxxx=0 xxx is not processed ! ifxxx=1 xxx is set to month=idatec(2) in the first call, ! but not processed from the subsequent calls. ! ifxxx is set to zero after interpolation ! ifxxx=2 xxx is interpolated to current day and time every fint ! hours synchronized to 00z regardless of initial time. ! interpolation is continuous (every time step) if fint<0. ! ifxxx=3 xxx is interpolated to current day and time when ifday=0 ! and tod=0.0 but not processed otherwise ! ( appropriate only when xxx is predicted ) ! ! the following are for sst only (fint applies as in ! ifxxx=2): !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! initlz =2, ! nitlz =2 diabatic normal mode initialization ! =1 diabatic with no normal mode initialization ! =0 adiabatic with no normal mode initialization ! <0 same as >0 with sib variables read in instead of ! initialized nstep =1, ! number of steps in getting diabatic heating rate ! in diaten if nstep=1,nstep is set equal to 7 in Model. fint =6, ! surface boundary calling interval in hours intsst =-1, ! sst data set interval in days (if > 0) ! sst data set is in calendar months if < 0. ndord =4, ! order (even) of horizontal diffusion del operator filta =0.92e0,! time filter constant percut =27502.,! percut cut off period in sec in nlnmi ! modes are to be read. varcut =1.6e5, ! cut off height variance in m**2 for gravity wave drag ifsst =-1, ! ifsst=4 sst is linearly interpolated from continuous ! direct access data set to current day and ! time.data set is assumed to be spaced every ! intsst days or every calendar month is ! intsst < 0. ! ifsst=5 sst is expanded from piecewise cubic ! coefficients in direct access data set to ! current day and time. data set ! is assumed to be spaced every intsst days. ifsnw =3, ifalb =0, ifslm =3, ifco2 =0, ! default=0 co2val Using a single global value for co2 concentration ! ifco2 =-1 with variable co2val following 2nd order fit to Mauna Loa data (1958-04) ! Mauna Loa data (1958-04)dpercu =27502. ! ifco2 = 2 with variable co2 following RCP4.5 ! ifco2 = 3 with variable co2 following RCP8.5 ! ifco2 = 4 with variable co2 following RCP4.5 with CMIP database ! ifco2 = 5 with variable co2 following RCP8.5 with CMIP database iftsi=.FALSE. ! .FALSE. for tsi=1365.00e0_r8 ! .TRUE. for tsi=f(year) sflyr=2 !sflyr=1 --> Paul Arya (1988) / Paulson (1970) Surface layer scheme !sflyr=2 --> Jimenez et al (2012) Surface layer scheme !sflyr=3 --> ECMWF surface layer scheme cpldlev=3 !cpldlev=1 --> Coupling at the first sigma level of atmosphere !cpldlev=2 --> Coupling at 10m using temperature and humidity at 2m !cpldlev=3 --> Coupling at 10m using temperature and humidity at 10m ifozone =1, !"OZONE field is constant" iftracer=0, !"TRACER field" allghf =.false.,! it is possible to select all available grid history ! fields: ! ! allghf=.TRUE.- all available fields are required dpercu =27502. vcrit =85.0, ! critical velocity (m/s) at which damping kicks in ! (for troposphere) alpha =2.50, dodyn =.false.,! logical flag to output ! first level of divergence, vorticity, ! virtual temperature, specific humidity ! and log of surface pressure ! at every time step / 17 ! number of output forecast 6.0 12.0 18.0 24.0 30.0 36.0 42.0 48.0 54.0 60.0 66.0 72.0 84.0 96.0 120.0 144.0 168.0