&NACIETEO / &NACOBS / &NACTAN / &NACTEX / &NACVEG / &NADOCK / &NAEAEM7 / &NAEAER / &NAECOAPHY / &NAEPHLI / &NAEPHY / &NAERAD LRRTM=.FALSE., LSRTM=.FALSE., NMCICA=0, / &NAEVOL / &NAIMPO / &NALORI / &NAMAFN GFP_10U%IBITS=12, GFP_10V%IBITS=12, GFP_2T%IBITS=12, GFP_CAPE%IBITS=16, GFP_CCC%IBITS=16, GFP_CCP%IBITS=16, GFP_CCSF%IBITS=16, GFP_CLSP%IBITS=16, GFP_CLSS%IBITS=16, GFP_HCC%IBITS=8, GFP_LCC%IBITS=8, GFP_MCC%IBITS=8, GFP_TCC%IBITS=8, GFP_X10U%IBITS=12, GFP_X10V%IBITS=12, GFP_X2RH%IBITS=12, GFP_X2T%IBITS=12, GFP_XCAPE%IBITS=16, GFP_XCCC%IBITS=16, GFP_XCLPH%IBITS=12, GFP_XHCC%IBITS=8, GFP_XLCC%IBITS=8, GFP_XMCC%IBITS=8, GFP_XMOCO%IBITS=16, GFP_XN2T%IBITS=12, GFP_XTCC%IBITS=8, GFP_XUGST%IBITS=12, GFP_XVGST%IBITS=12, TFP_ETH%IBITS=12, TFP_FGST%IBITS=12, TFP_HCLP%CLNAME='CLPMHAUT.MOD.XFU', TFP_HU%CLNAME='HUMI_RELATIVE', TFP_HU%IBITS=12, TFP_MSL%CLNAME='MSLPRESSURE', TFP_MSL%IBITS=12, TFP_PV%IBITS=16, TFP_T%CLNAME='TEMPERATURE', TFP_T%IBITS=12, TFP_THPW%CLNAME='THETA_PRIM_W', TFP_THPW%IBITS=12, TFP_U%CLNAME='VENT_ZONAL', TFP_U%IBITS=12, TFP_V%CLNAME='VENT_MERIDIEN', TFP_V%IBITS=12, TFP_VV%CLNAME='VITESSE_VERTICALE', TFP_VV%IBITS=16, TFP_Z%CLNAME='GEOPOTENTIEL', TFP_Z%IBITS=16, TFP_RCLS%CLNAME='CLSHUMI.RELATIVE', TFP_QCLS%CLNAME='CLSHUMI.SPECIFIQ' TFP_TCLS%CLNAME='CLSTEMPERATURE', TFP_TCLS%IBITS=12, TFP_TN%CLNAME='CLSMINI.TEMPERAT', TFP_TN%IBITS=12, TFP_TX%CLNAME='CLSMAXI.TEMPERAT', TFP_TX%IBITS=12, TFP_TN%CLNAME='CLSMINI.TEMPERAT', TFP_TN%IBITS=12, TFP_TX%CLNAME='CLSMAXI.TEMPERAT', TFP_TX%IBITS=12, TFP_UCLS%CLNAME='CLSVENT.ZONAL', TFP_UCLS%IBITS=12, TFP_VCLS%CLNAME='CLSVENT.MERIDIEN', TFP_VCLS%IBITS=12, TFP_UGST%CLNAME='CLSU.RAF.MOD.XFU', TFP_UGST%IBITS=12, TFP_V%IBITS=12, TFP_VGST%CLNAME='CLSV.RAF.MOD.XFU', TFP_VGST%IBITS=12, TFP_VOR%ZFK=32., TFP_VV%ZFK=32., !GFP_CSOD%CLNAME='SURFRAYT SOLA DE', !GFP_CSSR%CLNAME='SURFFLU.RAY.SOLA' !GFP_DST%CLNAME='PROFTEMPERATURE', !GFP_CSOD%CLNAME='SURFRAYT DIFF DE', !GFP_CTHD%CLNAME='SURFRAYT THER DE', / &NAMARPHY / &NAMCA / &NAMCAPE GCAPEPSD=5000., / &NAMCFU LCUMFU=.TRUE., LSTRD=.TRUE., LSTRT=.TRUE., LFPLC=.TRUE., LFPLS=.TRUE., LFR=.TRUE., LFSF=.TRUE., LRAYD=.TRUE., LRAYS=.TRUE., / &NAMCHEM / &NAMCHET / &NAMCHK / &NAMCLA / &NAMCLDP / &NAMCLI / &NAMCLOP15 / &NAMCLTC / &NAMCOK / &NAMCOM / &NAMCOSJO / &NAMCOUPLO4 / &NAMCT0 LSPRT=.TRUE., LRPLANE=.TRUE., LTWOTL=.TRUE., LREGETA=.FALSE., LVFE_REGETA=.TRUE., NFPOS=1, !NFPOS=0, NFRHIS=1, NHISTS(0)=-79,-0,-1,-2,-3,-4,-5,-6,-7,-8,-9,-10,-11,-12,-13,-14,-15,-16,-17,-18,-19,-20,-21,-22,-23,-24,-25,-26,-27,-28,-29,-30,-31,-32,-33,-34,-35,-36,-37,-38,-39,-40,-41,-42,-43,-44,-45,-46,-47,-48,-49,-50,-51,-52,-53,-54,-55,-56,-57,-58,-59,-60,-61,-62,-63,-64,-65,-66,-67,-68,-69,-70,-71,-72,-73,-74,-75,-76,-77,-78, NFRPOS=1, NPOSTS=-79,-0,-1,-2,-3,-4,-5,-6,-7,-8,-9,-10,-11,-12,-13,-14,-15,-16,-17,-18,-19,-20,-21,-22,-23,-24,-25,-26,-27,-28,-29,-30,-31,-32,-33,-34,-35,-36,-37,-38,-39,-40,-41,-42,-43,-44,-45,-46,-47,-48,-49,-50,-51,-52,-53,-54,-55,-56,-57,-58,-59,-60,-61,-62,-63,-64,-65,-66,-67,-68,-69,-70,-71,-72,-73,-74,-75,-76,-77,-78, NFRSDI=12, NFRGDI=1, NFRISP=1, LFBDAP=.TRUE., NPRINTLEV=1, LOPT_SCALAR=.TRUE., !SB / &NAMCT1 LRFILAF=.FALSE., N1ISP=0, N1RES=0, / &NAMCUMF / &NAMCUMFS / &NAMCVER LVERTFE=.TRUE., NVSCH=3, / &NAMCVMNH / &NAMDDH / &NAMDFI / &NAMDIM NPROMA=-15, / &NAMDIMO / &NAMDPHY / &NAMDYN RRDXTAU=123., RDAMPT=1., RDAMPDIV=1., RDAMPDIVS=10., ! local enhancing coefficient for HDS diffusion of divergence RDAMPVOR=1., RDAMPVORS=10., ! local enhancing coefficient for HDS diffusion of vorticity RDAMPQ=0., REXPDH=2., SLEVDH=0.1, SLEVDHS=1., ZSLHDP1=1.7, SLHDA0=0.25, SLHDB=4., SLHDD00=6.5E-05, ZSLHDP3=0.6, SDRED=1., NITMP=2, LQMHW=.FALSE., LQMHT=.FALSE., LQMP=.FALSE., LADVF=.TRUE., LSETTLS=.TRUE., NTLAG=3, NVLAG=3, NWLAG=3, REPS1=0., REPS2=0., REPSM1=0., REPSM2=0., REPSP1=0., SITR=300., VESL=0., XIDT=0., VMAX2=280., / &NAMDYNA LAPRXPK=.TRUE., LSLHD_W=.TRUE., LSLHD_T=.TRUE., LSLHD_GFL=.TRUE., LSLHD_OLD=.FALSE., SLHDEPSH=0.016, SLHDEPSV=0.016, SLHDKMAX=6., SLHDKMIN=-0.6, / &NAMDYNCORE / &NAMEMIS_CONF / &NAMENKF / &NAMFA NVGRIB=2, NBITCS=-1, NBITPG=-1, NSTRON=-1, / &NAMFPC CFPFMT='LALON', CFPDOM(1)='LALO', LFPMOIS=.FALSE., NFPCLI=3, NFPGRIB=1, CFP2DF(01)='SURFPRESSION', CFP2DF(02)='MSLPRESSURE', CFP2DF(03)='SPECSURFGEOPOTEN', CFP2DF(04)='SURFCAPE.POS.F00', CFP2DF(05)='SURFCIEN.POS.F00', CFP3DF(01)='GEOPOTENTIEL', CFP3DF(02)='TEMPERATURE', CFP3DF(03)='VENT_ZONAL', CFP3DF(04)='VENT_MERIDIEN', CFP3DF(05)='HUMI_RELATIVE', CFP3DF(06)='PRESSURE', CFP3DF(07)='VITESSE_VERTICALE', CFP3DF(08)='VORTICITY', CFP3DF(09)='DIVERGENCE', CFP3DF(10)='THETA_EQUIVAL', CFP3DF(11)='POT_VORTICITY', CFP3DF(12)='ABS_VORTICITY', CFP3DF(13)='TEMPE_POTENT', CFP3DF(14)='TKE', CFP3DF(15)='THETA_PRIM_W' !CFP3DF(15)='RAIN', !CFP3DF(16)='SNOW', !CFP3DF(17)='SOLID_WATER', !CFP3DF(18)='LIQUID_WATER', CFPCFU(01)='SURFPREC.EAU.GEC', CFPCFU(02)='SURFPREC.EAU.CON', CFPCFU(03)='SURFPREC.NEI.GEC', CFPCFU(04)='SURFPREC.NEI.CON', CFPCFU(05)='SURFRAYT THER DE', CFPCFU(06)='SURFRAYT DIR SUR', CFPCFU(07)='SURFFLU.RAY.SOLA' CFPCFU(08)='SURFRAYT SOLA DE', CFPPHY(01)='SURFGEOPOTENTIEL', CFPPHY(02)='SURFIND.TERREMER', CFPXFU(01)='CLSVENT.ZONAL', CFPXFU(02)='CLSVENT.MERIDIEN', CFPXFU(03)='CLSTEMPERATURE', CFPXFU(04)='CLSHUMI.RELATIVE', CFPXFU(05)='CLSU.RAF.MOD.XFU', CFPXFU(06)='CLSV.RAF.MOD.XFU', CFPXFU(07)='CLSMAXI.TEMPERAT', CFPXFU(08)='CLSMINI.TEMPERAT', CFPXFU(09)='SURFNEBUL.TOTALE', CFPXFU(10)='SURFNEBUL.CONVEC', CFPXFU(11)='SURFNEBUL.HAUTE', CFPXFU(12)='SURFNEBUL.MOYENN', CFPXFU(13)='SURFNEBUL.BASSE', CFPXFU(14)='CLPMOCON.MOD.XFU', CFPXFU(15)='CLPMHAUT.MOD.XFU', CFPXFU(16)='SURFCAPE.MOD.XFU', RFP3P(01)=10000., RFP3P(02)=20000., RFP3P(03)=25000., RFP3P(04)=30000., RFP3P(05)=40000., RFP3P(06)=50000., RFP3P(07)=60000., RFP3P(08)=70000., RFP3P(09)=85000., RFP3P(10)=92500., RFP3P(11)=95000., RFP3P(12)=100000., RFP3H(01)=80., RFP3H(02)=2., !RFP3H(03)=30., !RFP3H(04)=50., !RFP3H(05)=100., !RFP3H(06)=150., !RFP3PV(1)=1.5E-6, !RFP3PV(2)=2.E-6, !LFITV=.TRUE., LFPCAPEX=.T., NFPCAPE=3, RFPVCAP=7000., !LFITP=.TRUE., / &NAMFPD NLAT=201, NLON=201, RLONC(1)=25.5, RLATC(1)=45.5, RDELX(1)=0.085, RDELY(1)=0.06, / &NAMFPDY2 / &NAMFPDYF / &NAMFPDYH / &NAMFPDYI / &NAMFPDYP / &NAMFPDYS / &NAMFPDYT / &NAMFPDYV / &NAMFPF / &NAMFPG / &NAMFPIOS NFPXFLD=200, / &NAMFPMOVE / &NAMFPPHY / &NAMFPSC2 / &NAMFPSC2_DEP / &NAMGEM REFLKUO=5000., / &NAMGFL YQ_NL%LSP=.TRUE., ! Specific humidity YQ_NL%LGP=.FALSE., YQ_NL%LGPINGP=.FALSE., YQ_NL%LADV=.TRUE., YQ_NL%LREQOUT=.TRUE., YQ_NL%LSLHD=.TRUE., YQ_NL%LQM=.FALSE., YQ_NL%LQMH=.FALSE., YQ_NL%LHV=.FALSE., YQ_NL%LVSPLIP=.FALSE., YTKE_NL%LSP=.FALSE., YTKE_NL%LGP=.TRUE., ! Turbulent Kinetic Energy YTKE_NL%LGPINGP=.FALSE., YTKE_NL%LADV=.TRUE., YTKE_NL%NREQIN=-1, YTKE_NL%REFVALI=0., YTKE_NL%LREQOUT=.FALSE., YTKE_NL%NCOUPLING=0, YTKE_NL%LSLHD=.TRUE., YTKE_NL%LCDERS=.FALSE., YTKE_NL%LHV=.FALSE., YTKE_NL%LT5=.FALSE., YTKE_NL%LQM=.FALSE., YTKE_NL%LQMH=.FALSE., YTKE_NL%LVSPLIP=.FALSE., YL_NL%LSP=.FALSE., YL_NL%LGP=.TRUE., ! Liquid water YL_NL%LGPINGP=.FALSE., YL_NL%LADV=.TRUE., YL_NL%NREQIN=-1, YL_NL%REFVALI=0., YL_NL%LREQOUT=.FALSE., YL_NL%NCOUPLING=0, YL_NL%LSLHD=.TRUE., YL_NL%LQM=.FALSE., YL_NL%LQMH=.FALSE., YI_NL%LSP=.FALSE., YI_NL%LGP=.TRUE., ! Ice water YI_NL%LGPINGP=.FALSE., YI_NL%LADV=.TRUE., YI_NL%NREQIN=-1, YI_NL%REFVALI=0., YI_NL%LREQOUT=.FALSE., YI_NL%NCOUPLING=0, YI_NL%LSLHD=.TRUE., YI_NL%LQM=.FALSE., YI_NL%LQMH=.FALSE., YR_NL%LSP=.FALSE., YR_NL%LGP=.TRUE., ! Rain YR_NL%LGPINGP=.FALSE., YR_NL%LADV=.TRUE., YR_NL%NREQIN=-1, YR_NL%REFVALI=0., YR_NL%LREQOUT=.FALSE., YR_NL%NCOUPLING=0, YR_NL%LSLHD=.FALSE., YR_NL%LQM=.FALSE., YR_NL%LQMH=.FALSE., YS_NL%LSP=.FALSE., YS_NL%LGP=.TRUE., ! Snow YS_NL%LGPINGP=.FALSE., YS_NL%LADV=.TRUE., YS_NL%NREQIN=-1, YS_NL%REFVALI=0., YS_NL%LREQOUT=.FALSE., YS_NL%NCOUPLING=0, YS_NL%LSLHD=.FALSE., YS_NL%LQM=.FALSE., YS_NL%LQMH=.FALSE., YUOM_NL%LGP=.TRUE., ! Updraught vert velocity YUOM_NL%LADV=.TRUE., YUOM_NL%NREQIN=-1, YUOM_NL%REFVALI=0., YUOM_NL%LREQOUT=.FALSE., YUOM_NL%LSLHD=.FALSE., YUOM_NL%LQM=.FALSE., YUOM_NL%LQMH=.FALSE., YUAL_NL%LGP=.TRUE., ! Updraught mesh fraction YUAL_NL%LADV=.TRUE., YUAL_NL%NREQIN=-1, YUAL_NL%REFVALI=0., YUAL_NL%LREQOUT=.FALSE., YUAL_NL%LSLHD=.FALSE., YUAL_NL%LQM=.FALSE., YUAL_NL%LQMH=.FALSE., YDOM_NL%LGP=.TRUE., ! Downdraught vert velocity YDOM_NL%LADV=.TRUE., YDOM_NL%NREQIN=-1, YDOM_NL%REFVALI=0., YDOM_NL%LREQOUT=.FALSE., YDOM_NL%LSLHD=.FALSE., YDOM_NL%LQM=.FALSE., YDOM_NL%LQMH=.FALSE., YDAL_NL%LGP=.TRUE., ! Downdraught mesh fraction YDAL_NL%LADV=.TRUE., YDAL_NL%NREQIN=-1, YDAL_NL%REFVALI=0., YDAL_NL%LREQOUT=.FALSE., YDAL_NL%LSLHD=.FALSE., YDAL_NL%LQM=.FALSE., YDAL_NL%LQMH=.FALSE., YSPF_NL%NREQIN=0, ! Stratiform precipitation flux YCPF_NL%NREQIN=0, ! Convective precipitation flux YUNEBH_NL%LGP=.TRUE., ! Pseudi Hist Conv cloud fraction YUNEBH_NL%NREQIN=-1, YUNEBH_NL%REFVALI=0., YUNEBH_NL%LREQOUT=.FALSE., YUNEBH_NL%LADV=.TRUE., YUEN_NL%LADV=.F., YUEN_NL%LGP=.T., ! Updraught entrainment YUEN_NL%LREQOUT=.F., YUEN_NL%NREQIN=-1, YUEN_NL%REFVALI=0., / &NAMGRIB / &NAMGWD / &NAMGWWMS / &NAMICE / &NAMINI LDFI=.F., !NEINI=0, / &NAMIOMI / &NAMIOS / &NAMIO_SERV / &NAMJBCODES / &NAMJFH / &NAMJG / &NAMLCZ / &NAMLSFORC / &NAMMARS / &NAMMCC / &NAMMCUF / &NAMMKODB / &NAMMODERR / &NAMMTS / &NAMMWAVE / &NAMNPROF / &NAMNUD / &NAMOBS / &NAMONEDVAR / &NAMOPH LINC=.TRUE., CFNHWF='ECHALAD', NCADFORM=1, / &NAMOPTCMEM / &NAMPAR0 LMPOFF=.T., MBX_SIZE=992000000, NPROC=36, NPRGPNS=12, NPRGPEW=3, NPRTRW=12, NPRTRV=3, !NPRGPNS=12, !NPRGPEW=3, !NPRTRW=12, !NPRTRV=3, MP_TYPE=2, NOUTPUT=1, / &NAMPAR1 LEQ_REGIONS=.F., LSLONDEM=.T., LSPLIT=.F., NCOMBFLEN=1800000, NSTRIN=36, NSTROUT=12, !NSTROUT=1, / &NAMPARAR / &NAMPHMSE / &NAMPHY NPHYREP=-4, ! reproducibility switch L3MT=.TRUE., ! switch for 3MT scheme - general LCVRA=.FALSE., ! old convection scheme (ACCVIMP, ACCVIMPD) LSTRA=.FALSE., ! old stratiform precipitation scheme ACPLUIE LCVPRO=.TRUE., ! prognostic updraft in 3MT LCDDPRO=.TRUE., ! prognostic downdraft in 3MT LCVGQD=.FALSE., ! only dynamic moisture convergence: convection closure LCVGQM=.TRUE., ! modulation of moisture convergence closure LRCVOTT=.FALSE., ! protection of convective rain against evap. – obsolete LNEBCV=.TRUE., ! protection of convective cloudiness in adjustment: 3MT NIMELIT=2, ! convective condensation - iteration of melting effect LSCMF=.TRUE., ! significant mesh fractions - ACCVUD LENTCH=.TRUE., ! adaptive detrainment with memory LDIFCONS=.TRUE., ! vertical diffusion of conservative variable LCONDWT=.TRUE., ! prognostic cloud condensates LSTRAPRO=.FALSE.,! prognostic stratiform precipitation, convection treated differently, no 3MT LXRCDEV=.TRUE., ! Xu-Randall condensation scheme LVOIGT=.TRUE., ! radiation scheme ACRANEB - Voigt effect LVFULL=.FALSE., ! radiation scheme ACRANEB - full Voigt effect LPTKE=.TRUE., ! pseudo-prognostic TKE scheme LFPCOR=.TRUE., ! smoothing convective precipitation flux for use in convective cloudiness computation; inactive in 3MT, needed with ACCVIMP LNOIAS=.TRUE., ! convective scheme - no activity when dry instability LNEWSTAT=.TRUE., ! statistics for radiation NER scheme (ACRANEB) LREWS=.TRUE., ! radiation scheme ACRANEB - Exchange with surface LNEBNXR=.TRUE., ! Xu-Randall radiation cloudiness LRMIX=.TRUE., ! radiation scheme ACRANEB LRPROX=.TRUE., ! radiation scheme ACRANEB LRSTAB=.TRUE., ! radiation scheme ACRANEB LRTDL=.TRUE., ! radiation scheme ACRANEB LRTPP=.TRUE., ! radiation scheme ACRANEB LRNUMX=.TRUE., ! radiation scheme - maximum-random overlap LNEWD=.TRUE., ! gravity wave drag - new scheme ((2004) LGLT=.TRUE., ! gravity wave drag - mountain lift LRRGUST=.TRUE., ! moist gustiness LRAYLU=.FALSE., ! moonlight LQXRTGH=.TRUE., ! saturation TANH asymptot curve in Xu-Randall radiation LHUCN=.TRUE., ! saturation TANH asymptot curve in Xu-Randall radiation LPRGML=.TRUE., ! PBL-height dependent mixing length LCLSATUR=.TRUE., ! radiation treatment of clouds CGMIXLEN='AY', ! mixing length choice in turbulence LACPANMX=.TRUE., ! switch for mixed cloud overlap (diagnostics only) LPHSPSH=.TRUE., ! sensible heat of precipitation taken into account LVGSN=.TRUE., ! soil scheme - combine vegetation and snow LO3ABC=.TRUE., ! Ozone profiles LRSTAER=.FALSE., ! aerosols - we use new aerosols! LAERODES=.TRUE., ! aerosols - radiation LAEROLAN=.TRUE., ! aerosols - radiation LAEROSEA=.TRUE., ! aerosols - radiation LAEROSOO=.TRUE., ! aerosols - radiation / &NAMPHY0 GDDEVF=0.12, ! Downdraught: FOR ACMODO, CFR GDDEVA IN ACCVIMP RAUTEFR=1.E-03, ! Microphysique Lopez: EFFICIENCY FOR AUTOCONVERSION OF WATER->RAIN RAUTEFS=1.E-03, ! Microphysique Lopez: EFFICIENCY FOR AUTOCONVERSION OF ICE->SNOW RQLCR=3.E-04, ! CRITICAL LIQUID WATER CONTENT FOR AUTOCONVERSION OF STRATIFORM CLOUD WATER RQICRMAX=5.E-05, ! MAXIMUM CRITICAL ICE CONTENT FOR AUTOCONVERSION OF STRATIFORM ICE RQICRMIN=8.E-07, ! MINIMUM CRITICAL ICE CONTENT FOR AUTOCONVERSION OF STRATIFORM ICE SCLESPR=248000., ! For ALARO-0: CRITICAL LENGTH SCALE FOR CLOUD-DEPENDENT LIQUID COND. SCLESPS=15500., ! For ALARO-0: CRITICAL LENGTH SCALE FOR CLOUD-DEPENDENT SOLID COND. HUCRED=1., ! For ALARO-0: REDUCTION COEFFICIENT TO CRITICAL RELATIVE HUMIDITY DEFICIT NUPTKE=0.52, ! TOUCANS / (eventually pTKE): TUNABLE VALUE FOR PSEUDO TKE SCHEME FOLLOWING ! REDELSBERGER, MAHE & CARLOTTI (2001) EQUAL TO ( C_k * C_{epsilon} )^{1/4}) ALMAV=200., ! MOMENTUM EXCHANGE ASYMPTOTIC MIXING LENGTH BEDIFV=0.1, ! FORM COEFFICIENT FOR THE VERTICAL DIFFUSION PROFILE QSSC=400., ! DRY STATIC ENERGY THRESHOLD FOR SHALLOW CONVECTION COMPUTATIONS QSSUSC=0.75, ! DEFINING CONDENSATED WATER FROM CONVECTIVE PRECIPITATION QSSUSS=0.4, ! DEFINING CONDENSATED WATER FROM SUPERSATURATION QSUSXC=0.0002, ! MAXIMUM QL+QI AT THE GRID-POINT SCALE, DEEP CONVECTION PART QSUSXS=0.0003, ! MAXIMUM QL+QI AT THE GRID-POINT SCALE, RESOLVED AND SHALLOW CONVECTION PART QSSUSV=250., ! DEFINING CONDENSATED WATER FROM SUPERSATURATION QXRAL=130., ! XU ET RANDALL CLOUDINESS COMPUTATION (ACNEBXR) QXRDEL=0.5, ! XU ET RANDALL CLOUDINESS COMPUTATION (ACNEBXR) QXRR=0.25, ! XU ET RANDALL CLOUDINESS COMPUTATION (ACNEBXR) GWDCD=5.4, ! DRAG COEFFICIENT FOR FOR THE LOW LEVEL G.W.D. GWDLT=1., ! SURFACE LIFT COEFF. FOR THE G.W.D. GWDSE=0.02, ! ASPECT RATIO TYPE COEFF. AT THE SURF. FOR THE G.W.D. GWDVALI=0.5, ! VALLEYS DECOUPLING COEFF. FOR THE G.W.D. VZ0CM=1.0E-04, ! (NEUTRAL) MINIMUM ROUGHNESS LENGTH OVER THE OCEAN VZIUSTAR0=12., ! SCALING INVERSE ROUGHNESS VELOCITY EDD=1., ! DETERMINES CD AND CH IN THE ASYMPTOTIC STABLE REGIME USURICL=4., ! COEFFICIENT RELATING RICHARDSON NUMBER COMPUTATION TO HEIGHT TDDGP=0.8, ! Downdraught Horizontal Grad p effect coefficient (Kershaw & Gregory) TENTR=5.E-06, ! CONVECTIVE UPDRAFT'S ENTRAINMENT RATE TENTRX=1.6E-04, ! MAXIMUM CONVECTIVE UPDRAFT'S ENTRAINMENT RATE GCVNU=1.E-05, ! ENTRAINMENT RATE TO COMPUTE DILUTE PLUME BUOYANCY GCVALFA=4.5E-05, ! COEFFICIENT TO COMPUTE ENTRAINMENT RATE FROM CLOUD BUOYANCY GCVPSI=1., ! ADIMENSIONAL COEFFICIENT TO GO FROM A LOCAL USE OF TURBULENT FLUXES (IF 1) TO AN INTEGRAL ONE (IF 0) GCVPSIE=1., ! THE NORMALIZATION INTEGRAL OF TURBULENT FLUXES, UNDER LCVLIS SWITCH (IF 0 => PQSAT IS USED, IF 1 => PQSAT*P**GCVPSIE) GCVTAUDE=900., ! TIME CONSTANT FOR CONVECTIVE CLOUDINESS HUCOE=1.4, ! FIRST COEFFICIENT IN THE SIGMA COORD.'S FUNCTION DEFINING PHUC(KLEV) RPHI0=1250., ! TUNING OF THE COOLING INSIDE AN INVERSION FOR COMPUTATION OF LOW-LEVEL STRATUS CLOUDINESS USURID=0.048, ! INVERSE TRANSITION RICHARDSON NUMBER TO COMPUTE THE CONVERGENCE ORDER OF THE RICHARDSON NUMBER TO THE CRITICAL RICHARDSON NUMBER USURIDE=0.25, ! EXPONENT IN THE COMPUTATION OF THE LOCAL CRITICAL RICHARDSON NUMBER USURIC=1., ! INVERSE CRITICAL RICHARDSON NUMBER USURICE=0.5, ! HEIGHT EXPONENT IN RICHARDSON NUMBER COMPUTATION RCVEVAP=0.25, ! MODULATION FACTOR FOR CONVECTIVE EVAPORATION REVGSL=15., ! RATIO OF THE SPEED OF EVAP. OF PRECIP. "ICE/WATER" RCIN=1., ! MODULATION IN THE CONVECTIVE CLOUD PROFILE COMPUTATION WMXOV=0.8, ! WEIGHT OF MAXIMUM CLOUD OVERLAP COMPUTATION IN ACNPART GCISMIN=5.5E-04, ! MINIMUM VALUE OF SHEAR USED IN TURBULENT COMPUTATIONS GCOMOD=0., ! EXPONENT USED IN MODULATION OF MOISTURE CONVERGENCE AND CAPE CONSUMPTION (DEEP CONVECTION) GCVACHI=20., ! Activity History, absolute minimum draught advected velocity to declare continued activity whichever be ZKUO GENVSRH=1., ! Updraught: ENTRAINMENT DEPENDENCY ON RELATIVE HUMIDITY RATIO BETWEEN CLOUD AND ENVIRONMENT - DRIVING PARAMETER GPEFDC=0.18, ! Updraught: SCALING FACTOR OF PROGNOSTIC ENTRAINMENT QXRTGH=1.6, ! XU ET RANDALL CLOUDINESS COMPUTATION (ACNEBXR) RHCEXPDX=0.3, ! Microphysique Lopez: DX-MODULATION OF CRITICAL RELATIVE HUMIDITY COMPUTATION - XU-RANDALL RMULACVG=15., ! MODULATION OF THE CVGQ CLOSURE RWBF1=1600., ! For ALARO-0: FIRST TUNING CONSTANT FOR BERGERON FINDEISEN PROCESS TDDFR=0.0012, ! Prognostic convection scheme: DOWNDRAUGHT DISSIPATION COEFFICIENT TENTRD=1.6E-04, ! DOWNDRAUGHT ENTRAINMENT RATE (s^2/m^2) / &NAMPHY1 / &NAMPHY2 XDAMP=1., ! DAMPING FACTOR USED IN THE NEW TREATMENT OF SHALLOW CONVECTION: IF ZERO => OLD TREATMENT; IF /= 0 => XMUCVPP SHOULD BE ZERO LMULAF=.TRUE., ! CONTROL "ANTI-FIBRIL." ON VERTICAL XMULAF=-1.85, ! "ANTI-FIBRIL." FACTOR (1. RECOMMENDED IF ACTIVATED) FACRAF=10., ! COEFFICIENT FOR THE COMPUTATION OF TURBULENT GUSTS / &NAMPHY3 / &NAMPHYDS / &NAMPONG / &NAMPPC LMOVPH=.FALSE., / &NAMPPVI / &NAMPRE / &NAMRAD15 / &NAMRADCMEM / &NAMRCF / &NAMRCOEF / &NAMRES / &NAMRGRI / &NAMRINC / &NAMRIP / &NAMRLX / &NAMSATS / &NAMSCC / &NAMSCEN / &NAMSCM / &NAMSEKF / &NAMSENS / &NAMSIMPHL / &NAMSPNG / &NAMSPSDT / &NAMSTA / &NAMSTOPH / &NAMSWE / &NAMTESTVAR / &NAMTHLIM / &NAMTOPH ETCVIM=0., ETNEBU=0., ETPLUI=0., XDRMTK=6.E-08, XDRMTP=800., XDRMUK=3.E-07, XDRMUP=800., / &NAMTRAJP / &NAMTRANS / &NAMTS / &NAMVAR / &NAMVARBC / &NAMVARBC_AIREP / &NAMVARBC_ALLSKY / &NAMVARBC_GBRAD / &NAMVARBC_RAD / &NAMVARBC_SFCOBS / &NAMVARBC_TCWV / &NAMVARBC_TO3 / &NAMVAREPS / &NAMVDOZ / &NAMVOLCANO / &NAMVRTL / &NAMVV0 / &NAMVV1 / &NAMVWRK / &NAMWAVELETJB / &NAMXFU LTXNEB=.TRUE., LXCLP=.TRUE., LXCLS=.TRUE., LXFU=.TRUE. LXICV=.TRUE., LXNEBTT=.TRUE., LXNEBPA=.TRUE., LXPLC=.TRUE., LXPLS=.TRUE., LXQCLS=.TRUE., LXR=.TRUE., LXSOIL=.TRUE., LXTGST=.TRUE., LXTRC=.TRUE., LXTRD=.TRUE., LXTRT=.TRUE., LXTTCLS=.TRUE., / &NAM_CANAPE / &NAM_DISTRIBUTED_VECTORS / &NAPHLC / &NEMCT0 / &NEMDIM / &NEMDYN / &NEMELBC0A LQCPL=.TRUE., NBICOP=2, NBICOT=2, NBICOU=2, NECRIPL=1, / &NEMELBC0B TEFRCL=10800., / &NEMFPEZO / &NEMGEO / &NEMJK / &NEMVAR / &NEMWAVELET / &NAMARG CNMEXP='OPER', NCONF=1, LELAM=.TRUE., LECMWF=.FALSE., ! CUSTOP='h78', ! Forecast range CUSTOP='h78', ! Forecast range TSTEP=240, LSLAG=.TRUE., NSUPERSEDE=1, ! date and geometry are read in intial file / &NAMINTFLEX /