&NACIETEO / &NACOBS / &NACTAN / &NACTEX / &NACVEG / &NADOCK / &NAEAEM7 / &NAEAER / &NAECOAPHY / &NAEPHLI / &NAEPHY / &NAERAD LRRTM=.F., LSRTM=.F., NMCICA=0, NRADFR=1, / &NAEVOL / &NAIMPO / &NALORI / &NAMAFN / &NAMARPHY / &NAMCA / &NAMCAPE / &NAMCFU LCUMFU=.T., LFPLC=.T., LFPLS=.T., LFR=.T., LFRRC=.T., LFSF=.T., LRAYD=.T., LRAYS=.T., LSTRD=.T., LSTRT=.T., / &NAMCHEM / &NAMCHET / &NAMCHK / &NAMCLA / &NAMCLDP / &NAMCLI / &NAMCLOP15 / &NAMCLTC / &NAMCOK / &NAMCOM / &NAMCOSJO / &NAMCOUPLO4 / &NAMCT0 LFBDAP=.T., LOPT_SCALAR=.T., LSPRT=.T., LREGETA=.F., ! Regular ETA levels spacing off in SL interpolators LRPLANE=.T., LTWOTL=.T., LVFE_REGETA=.T., ! Regular ETA levels in VFE operators NFRHIS=1, NFRSDI=5, NFRGDI=5, NHISTS(0)=__NHISTS__, NPRINTLEV=0, NSPPR=0, / &NAMCT1 LRFILAF=.F., N1ISP=0, N1RES=0, / &NAMCUMF / &NAMCUMFS / &NAMCVER LVERTFE=.T., ! VFE main switch NVSCH=3, ! Hermit cubic functions VFE basis / &NAMCVMNH / &NAMDDH / &NAMDFI / &NAMDIM NPROMA=-50, / &NAMDIMO / &NAMDPHY / &NAMDYN RDAMPQ=0., ! Spectral HD of water vapor put off, RDAMPT=1., ! Spectral HD of temperature with the reference strength, RDAMPVOR=1., ! Spectral HD of vorticity with the reference strength, RDAMPVORS=10., ! Support Spectral HD of vort. 10 times weaker; to be used with SLHD, RDAMPDIV=1., ! Spectral HD of divergence with the reference strength RDAMPDIVS=10., ! Support Spectral HD of divg. 10 times weaker; to be used with SLHD, SLEVDH=0.1, ! SLHD parameter for vertical profile threshold of Spectral HD, SLEVDHS=1., ! SLHD parameter for vertical profile threshold of Spectral HD, ZSLHDP1=1.7, ! SLHD parameter SLHDA0=0.25, ! SLHD parameter SLHDB=4., ! SLHD parameter SLHDD00=6.5E-05, ! SLHD parameter ZSLHDP3=0.6, ! SLHD parameter SDRED=1., ! SLHD parameter to control vertical profile of Spectral HD NITMP=2, ! Number of iterations computing SL trajectory LQMHW=.FALSE., ! Quasi-monotonous horizontal interpolators off for wind LQMHT=.FALSE., ! Quasi-monotonous horizontal interpolators off for temperature LQMP=.FALSE., ! Quasi-monotonous interpolators off for continuity eq LADVF=.TRUE., ! advection of Coriolis parameter in 2TL-SL LSETTLS=.TRUE., ! Stable extrapolation algorithm in 2TL-SL for source terms LSETTLST=.TRUE., ! Stable extrapolation algorithm in 2TL-SL for trajectory search NTLAG=3, ! SL discretization type for temperature NVLAG=3, ! SL discretization type for continuity eq NWLAG=3, ! SL discretization type for wind REPS1=0., ! Asselin filtr coefficient for t-dt REPS2=0., ! Asselin filtr coefficient for t+dt REPSM1=0., ! Asselin filtr coefficient for t-dt - moisture variables REPSM2=0., ! Asselin filtr coefficient for t+dt - moisture variables REPSP1=0., ! Asselin filtr coefficient for t-dt - surface fields REXPDH=2., ! Spectral HD order SITR=300., ! SI reference temperature VESL=0., ! SL decentering parameter XIDT=0.0, ! SL second order decentering parameter VMAX2=280., ! Threshold for aborting SL when wind too strong / &NAMDYNA LSLHD_GFL=.T., ! SLHD used for at least one GFL field LSLHD_OLD=.F., ! SLHD "old" interpolators LSLHD_T=.T., ! SLHD used for temperature LSLHD_W=.T., ! SLHD used for wind SLHDEPSH=0.016, ! SLHD horizontal "smoother" SLHDEPSV=0.0, ! SLHD vertical "smoother" (removed both ALARO-0 and 1) SLHDKMAX=6., ! SLHD parameter SLHDKMIN=-0.6, ! SLHD parameter LAPRXPK=.T., ! algorithm to compute full level pressures / &NAMDYNCORE / &NAMEMIS_CONF / &NAMENKF / &NAMFA NBITCS=-1, NBITPG=-1, NSTRON=-1, / &NAMFPC / &NAMFPD / &NAMFPDY2 / &NAMFPDYF / &NAMFPDYH / &NAMFPDYI / &NAMFPDYP / &NAMFPDYS / &NAMFPDYT / &NAMFPDYV / &NAMFPF / &NAMFPG / &NAMFPIOS NFPXFLD=200, / &NAMFPMOVE / &NAMFPPHY / &NAMFPSC2 NFPROMA=-50, / &NAMFPSC2_DEP NFPROMA_DEP=-50, / &NAMGEM REFLKUO=5000., / &NAMGFL YQ_NL%LSP=.T., YQ_NL%LGP=.F., YQ_NL%LGPINGP=.F., YQ_NL%LADV=.T., YQ_NL%LREQOUT=.T., YQ_NL%LSLHD=.T., YQ_NL%LQM=.F., YQ_NL%LQMH=.F., YQ_NL%LHV=.F., YQ_NL%LVSPLIP=.F., YTKE_NL%LSP=.F., !ALARO-0: pTKE YTKE_NL%LGP=.T., !ALARO-0: pTKE YTKE_NL%LGPINGP=.F., !ALARO-0: pTKE YTKE_NL%LADV=.T., !ALARO-0: pTKE YTKE_NL%NREQIN=1, !ALARO-0: pTKE; to by cycled in assim YTKE_NL%LREQOUT=.T., !ALARO-0: pTKE; to by cycled in assim YTKE_NL%NCOUPLING=0, !ALARO-0: pTKE YTKE_NL%LSLHD=.T., !ALARO-0: pTKE YTKE_NL%LCDERS=.F., !ALARO-0: pTKE YTKE_NL%LHV=.F., !ALARO-0: pTKE YTKE_NL%LT5=.F., !ALARO-0: pTKE YTKE_NL%LQM=.F., !ALARO-0: pTKE YTKE_NL%LQMH=.F., !ALARO-0: pTKE YTKE_NL%LVSPLIP=.F., !ALARO-0: pTKE YL_NL%LSP=.F., !ALARO-0: liquid cloud water YL_NL%LGP=.T., !ALARO-0: liquid cloud water YL_NL%LGPINGP=.F., !ALARO-0: liquid cloud water YL_NL%LADV=.T., !ALARO-0: liquid cloud water YL_NL%NREQIN=1, !ALARO-0: liquid cloud water; to by cycled in assim YL_NL%LREQOUT=.F., !ALARO-0: liquid cloud water; to by cycled in assim YL_NL%NCOUPLING=0, !ALARO-0: liquid cloud water YL_NL%LSLHD=.T., !ALARO-0: liquid cloud water YL_NL%LQM=.F., !ALARO-0: liquid cloud water YL_NL%LQMH=.F., !ALARO-0: liquid cloud water YI_NL%LSP=.F., !ALARO-0: solid cloud water YI_NL%LGP=.T., !ALARO-0: solid cloud water YI_NL%LGPINGP=.F., !ALARO-0: solid cloud water YI_NL%LADV=.T., !ALARO-0: solid cloud water YI_NL%NREQIN=1, !ALARO-0: solid cloud water; to by cycled in assim YI_NL%LREQOUT=.F., !ALARO-0: solid cloud water; to by cycled in assim YI_NL%NCOUPLING=0, !ALARO-0: solid cloud water YI_NL%LSLHD=.T., !ALARO-0: solid cloud water YI_NL%LQM=.F., !ALARO-0: solid cloud water YI_NL%LQMH=.F., !ALARO-0: solid cloud water YR_NL%LSP=.F., !ALARO-0: microphysics rain YR_NL%LGP=.T., !ALARO-0: microphysics rain YR_NL%LGPINGP=.F., !ALARO-0: microphysics rain YR_NL%LADV=.T., !ALARO-0: microphysics rain YR_NL%NREQIN=1, !ALARO-0: microphysics rain; to by cycled in assim YR_NL%LREQOUT=.F., !ALARO-0: microphysics rain; to by cycled in assim YR_NL%NCOUPLING=0, !ALARO-0: microphysics rain YR_NL%LSLHD=.F., !ALARO-0: microphysics rain YR_NL%LQM=.F., !ALARO-0: microphysics rain YR_NL%LQMH=.F., !ALARO-0: microphysics rain YS_NL%LSP=.F., !ALARO-0: microphysics snow YS_NL%LGP=.T., !ALARO-0: microphysics snow YS_NL%LGPINGP=.F., !ALARO-0: microphysics snow YS_NL%LADV=.T., !ALARO-0: microphysics snow YS_NL%NREQIN=1, !ALARO-0: microphysics snow; to by cycled in assim YS_NL%LREQOUT=.F., !ALARO-0: microphysics snow; to by cycled in assim YS_NL%NCOUPLING=0, !ALARO-0: microphysics snow YS_NL%LSLHD=.F., !ALARO-0: microphysics snow YS_NL%LQM=.F., !ALARO-0: microphysics snow YS_NL%LQMH=.F., !ALARO-0: microphysics snow YUOM_NL%LGP=.T., !ALARO-0: updraft velocity YUOM_NL%LADV=.T., !ALARO-0: updraft velocity YUOM_NL%NREQIN=1, !ALARO-0: updraft velocity; to be cycled in assim YUOM_NL%LREQOUT=.F., !ALARO-0: updraft velocity; to be cycled in assim YUOM_NL%LSLHD=.F., !ALARO-0: updraft velocity YUOM_NL%LQM=.F., !ALARO-0: updraft velocity YUOM_NL%LQMH=.F., !ALARO-0: updraft velocity YUAL_NL%LGP=.T., !ALARO-0: updraft mesh fraction YUAL_NL%LADV=.T., !ALARO-0: updraft mesh fraction YUAL_NL%NREQIN=1, !ALARO-0: updraft mesh fraction; to be cycled in assim YUAL_NL%LREQOUT=.F., !ALARO-0: updraft mesh fraction; to be cycled in assim YUAL_NL%LSLHD=.F., !ALARO-0: updraft mesh fraction YUAL_NL%LQM=.F., !ALARO-0: updraft mesh fraction YUAL_NL%LQMH=.F., !ALARO-0: updraft mesh fraction YDOM_NL%LGP=.T., !ALARO-0: downdraft velocity YDOM_NL%LADV=.T., !ALARO-0: downdraft velocity YDOM_NL%NREQIN=1, !ALARO-0: downdraft velocity; to be cycled in assim YDOM_NL%LREQOUT=.F., !ALARO-0: downdraft velocity; to be cycled in assim YDOM_NL%LSLHD=.F., !ALARO-0: downdraft velocity YDOM_NL%LQM=.F., !ALARO-0: downdraft velocity YDOM_NL%LQMH=.F., !ALARO-0: downdraft velocity YSHTUR_NL%LADV=.F., !ALARO-1 TOUCANS: shear source term YSHTUR_NL%LGP=.T., !ALARO-1 TOUCANS: shear source term YSHTUR_NL%LREQOUT=.F., !ALARO-1 TOUCANS: shear source term YSHTUR_NL%NREQIN=0, !ALARO-1 TOUCANS: shear source term YFQTUR_NL%LADV=.F., !ALARO-1 TOUCANS: moisture flux source term YFQTUR_NL%LGP=.T., !ALARO-1 TOUCANS: moisture flux source term YFQTUR_NL%LREQOUT=.F., !ALARO-1 TOUCANS: moisture flux source term YFQTUR_NL%NREQIN=0, !ALARO-1 TOUCANS: moisture flux source term YFSTUR_NL%LADV=.F., !ALARO-1 TOUCANS: heat flux source term YFSTUR_NL%LGP=.T., !ALARO-1 TOUCANS: heat flux source term YFSTUR_NL%LREQOUT=.F., !ALARO-1 TOUCANS: heat flux source term YFSTUR_NL%NREQIN=0, !ALARO-1 TOUCANS: heat flux source term YDAL_NL%LGP=.T., !ALARO-0: downdraft mesh fraction YDAL_NL%LADV=.T., !ALARO-0: downdraft mesh fraction YDAL_NL%NREQIN=1, !ALARO-0: downdraft mesh fraction; to be cycled in assim YDAL_NL%LREQOUT=.F., !ALARO-0: downdraft mesh fraction; to be cycled in assim YDAL_NL%LSLHD=.F., !ALARO-0: downdraft mesh fraction YDAL_NL%LQM=.F., !ALARO-0: downdraft mesh fraction YDAL_NL%LQMH=.F., !ALARO-0: downdraft mesh fraction YSPF_NL%NREQIN=0, YCPF_NL%NREQIN=0, YUEN_NL%LADV=.F., !ALARO-0: Updraft entrainment YUEN_NL%LGP=.T., !ALARO-0: Updraft entrainment YUEN_NL%LREQOUT=.F., !ALARO-0: Updraft entrainment; to be cycled in assim YUEN_NL%NREQIN=1, !ALARO-0: Updraft entrainment; to be cycled in assim YUNEBH_NL%LADV=.T., !ALARO-0: pseudohistoric nebul. YUNEBH_NL%LGP=.T., !ALARO-0: pseudohistoric nebul. YUNEBH_NL%LREQOUT=.F., !ALARO-0: pseudohistoric nebul.; to be cycled in assim YUNEBH_NL%NREQIN=1, !ALARO-0: pseudohistoric nebul.; to be cycled in assim YTTE_NL%LADV=.T., !ALARO-1 TOUCANS: Total Turbulent Energy YTTE_NL%LGP=.T., !ALARO-1 TOUCANS: Total Turbulent Energy YTTE_NL%LREQOUT=.F., !ALARO-1 TOUCANS: Total Turbulent Energy; to be cycled in assim YTTE_NL%NREQIN=1, !ALARO-1 TOUCANS: Total Turbulent Energy; to be cycled in assim / &NAMGRIB / &NAMGWD / &NAMGWWMS / &NAMIAU / &NAMICE / &NAMINI LDFI=.F., / &NAMINTFLEX / &NAMIOMI / &NAMIOS / &NAMIO_SERV / &NAMJBCODES / &NAMJFH N_VMASS=0 / &NAMJG / &NAMLCZ / &NAMLSFORC / &NAMMARS / &NAMMCC / &NAMMCUF / &NAMMKODB / &NAMMODERR / &NAMMTS / &NAMMWAVE / &NAMNPROF / &NAMNUD / &NAMOBS / &NAMONEDVAR / &NAMOOPS / &NAMOPH CFNHWF='ECHALAD', LINC=.T., / &NAMOPTCMEM / &NAMPAR0 LMPOFF=__LMPOFF__, MBX_SIZE=__MBX_SIZE__, MP_TYPE=2, NOUTPUT=1, NPRGPEW=__NPRGPEW__, NPRGPNS=__NPRGPNS__, NPROC=__NPROC__, NPRTRV=__NPRTRV__, NPRTRW=__NPRTRW__, / &NAMPAR1 LEQ_REGIONS=.F., LSPLIT=.F., NCOMBFLEN=8000000, NSTRIN=__NPROC__, NSTROUT=__NPROC__, / &NAMPARAR / &NAMPHMSE / &NAMPHY CGMIXLEN='EL0', !ALARO-1 TOUCANS: equivalent of 'AY' in ALARO-0 CGTURS='MD2', !ALARO-1 TOUCANS: turbulence model II L3MT=.T., !ALARO-0: 3MT main switch LA0MPS=.T., !ALARO-0: microphysics LAB12=.T., !ALARO-1 microphysics: Abel-Boutle 2012 (independed of ACRANEB2 and TOUCANS) LACPANMX=.T., !ALARO-0: clouds combined overlap - diagnostics only LAERODES=.T., !ALARO-0: aerosols desert LAEROLAN=.T., !ALARO-0: aerosols land LAEROSEA=.T., !ALARO-0: aerosols sea LAEROSOO=.T., !ALARO-0: aerosols soot LARPMPS=.F., LCDDPRO=.T., !ALARO-0: prognostic downdraft LCLSATUR=.T., !ALARO-0: cloud optical depth saturation model LCOEFKSURF=.T., !ALARO-1 TOUCANS: screen lev. params. computations; needed also in CANARI LCOEFKTKE=.T., !ALARO-1 TOUCANS: main switch LCOEFK_F1=.T., !ALARO-1 TOUCANS: stability functions at the surface LCOEFK_FLX=.T., !ALARO-1 TOUCANS: flux form of source terms (e.g. GFLs) LCOEFK_PTTE=.T., !ALARO-1 TOUCANS: Prognostic Total Turbulent Energy (on top of TKE) LCOEFK_SCQ=.T., !ALARO-1 TOUCANS: Skewness influence in moist BVF computations LCOEFK_TOMS=.T., !ALARO-1 TOUCANS: Third order moments LCONDWT=.T., !ALARO-0: prognostic condensed cloud water main switch LCVGQM=.T., !ALARO-0: modulation of humidity convergence closure LCVPPKF=.F., LCVPRO=.T., !ALARO-0: prognostic updraft LCVRA=.F., !ALARO-0: old moist deep convection off LDIFCONS=.T., !ALARO-1 TOUCANS: Activation of Betts transforms (as in ALARO-0, in combination with NDIFFNEB) LENTCH=.T., !ALARO-0: memory in adaptive detrainment LFPCOR=.T., !ALARO-0: switch with LCVRA, neutral for L3MT LFSFIX=.F., LFSVAR=.T., !ALARO-0: variable fall speed of falling species LGLT=.T., !ALARO-0: mountain lift computation in GWD LHUCN=.T., !ALARO-0: critical RH profile computation LNEBCV=.T., !ALARO-0: reevaporation of deep cloud water protection if L3MT=.T. LNEBNXR=.T., !ALARO-0: Xu-Randall scheme LNEB_FP=.F., LNEWD=.T., !ALARO-0: new gravity wave drag scheme LNEWSTAT=.T., !ALARO-0: ACRANEB1 use new stat. model for NER computations LNOIAS=.T., !ALARO-0: stop convection in case of absolute dry instability LO3ABC=.T., !ALARO-0: climatological O3 profiles LPHSPSH=.T., !ALARO-0: peudohist. surface precip. heat LPRGML=.T., !ALARO-0: situation-dependent mixing length LPTKE=.T., !ALARO-1 TOUCANS: common computations with pTKE scheme LQXRTGH=.T., !ALARI-0: RH computations using TANH curve LRAY=.T., !ALARO-0: main ACRANEB1 switch LRAYFM=.F., LRAYLU=.F., !ALARO-0: moonlight off LRNUMX=.T., !ALARO-0: cloud geometry maximum random overlap LRPROX=.F., !NER computations; used for previous ACRANEB in ALARO-0 LRRGUST=.T., !ALARO-0: moist gustiness LRSTAER=.F., !ALARO-0: standard aerosols off LRTPP=.T., !ALARO-1: ACRANEB2 assumes isothermal layers due to LRPROX=.F., but with LRTPP=.T. lowest model layer is nonisothermal when exchanging with surface LSCMF=.T., !ALARO-0: mesh fraction's influence on the entrainment rate LSEDCL=.T., !ALARO-0: sedimentation of claude water and ice LSEDLAG=.F., LSEDSTA=.T., !ALARO-0: statistical sedimentation LSTRA=.F., !ALARO-0: old stratiform prec. off LSTRAPRO=.F., !ALARO: stratiform prognostic microphysics off needed when L3MT LVFULL=.F., LVGSN=.T., !ALARO-0: vegetation+snow in ISBA, irrelevant for SURFEX LVOIGT=.T., !ALARO-0: ACRANEB1 Voight profile activated LXRCDEV=.T., !ALARO-0: Xu-Randall used in adjustment NDIFFNEB=1, !ALARO-1 TOUCANS: option to diffuse cloud water NIMELIT=2, !ALARO-0: no/ of iterations of microphysics call within updraft NPHYREP=-4, !physics reproducibility; 1 for validation, -4 recommended for CPU savings, both A:ARO-0 & 1 NRAUTOEV=3, !ALARO-1 ACRANEB2: freq. of exact NER comp=3h (NRAUTOEV*NTHRAYFR) NRAY=2, !ALARO-1 ACRANEB2: main switch NSORAYFR=-1, !ALARO-1 ACRANEB2: solar band transm. intermittency (in hours) NTHRAYFR=-1, !ALARO-1 ACRANEB2: therm band transm. intermittency (in hours) / &NAMPHY0 ALMAV=200., !ALARO-0: mixing length of wind BEDIFV=0.1, !ALARO-0: vert.diff. profile form coeff. C3TKEFREE=1.183, !ALARO-1 TOUCANS C_EPSILON=0.871, !ALARO-1 TOUCANS EDD=1., !ALARO-0: asymptotic stable regime coeff. ETKE_BETA_EPS=0.05, !ALARO-1 TOUCANS ETKE_LAM0=0.29, !ALARO-1 TOUCANS ETKE_OLAM=0.29, !ALARO-1 TOUCANS GCISMIN=5.5E-04, !ALARO-0: min. value of shear in turbulence GCOMOD=0., !ALARO-0: mandatory with L3MT=.T. GCVACHI=20., !ALARO-0: minimum updraft w to cross stable layer GCVALFA=4.5E-05, !ALARO-0: coeff for buoyancy-modulation of entrainment GCVNU=1.E-05, !ALARO-0: coeff for convective cloud profile when LENTCH GCVPSI=1., GCVPSIE=1., GCVTAUDE=900., !ALARO-0: convective cloud decay GDDEVF=0.12, !ALARO-0: efficiency coef of downdraft GENVSRH=1., !ALARO-0: coeff driving use of RH integral in entrainment GPEFDC=0.18, !ALARO-0: coeff of cold pool effect with LENTCH GWDCD=5.4, !ALARO-0: GWD mean envelope GWDLT=1., !ALARO-0: GWD mean envelope GWDSE=0.02, !ALARO-0: GWD mean envelope GWDVALI=0.5, !ALARO-0: GWD mean envelope HUCOE=1.4, !ALARO-0: LHUCN tuning HUCRED=1., !ALARO-0: critical RH profile parameter NUPTKE=0.5265, !ALARO-1 TOUCANS QSMODC=4., !ALARO-1 tuning: strat.clouds opacity (Xu-Randall) QSSC=400., !ALARO-0: cloud scheme tuning QSSUSC=0.75, !ALARO-0: cloud scheme tuning QSSUSS=0.4, !ALARO-0: cloud scheme tuning QSSUSV=250., !ALARO-0: cloud scheme tuning QSUSXC=0.0002, !ALARO-0: cloud scheme tuning QSUSXS=0.0003, !ALARO-0: cloud scheme tuning QXRAL=150., !ALARO-1 tuning (Xu-Randall) QXRAL_ADJ=150., !ALARO-1 tuning (Xu-Randall) QXRDEL=0.5, !ALARO-0: Xu-Randall tuning QXRR=0.25, !ALARO-0: Xu-Randall tuning QXRTGH=1.6, !ALARO-0: Xu-Randall tuning (for 87levs, 2be tuned according to vertical levels!) RAUTEFR=0.5E-03, !ALARO-1 tuning: autoconversion to rain RAUTEFS=2.E-03, !ALARO-1 tuning: autoconversion to snow RCIN=1., !ALARO-0: coeff of cloud profile computation RCVEVAP=0.25, REVASX=2.E-07, REVGSL=15., RMULACVG=-25., !both ALARO-0 and ALARO-1 tuning (automatic setup since ALARO-1 patch in CY38T1_bf3 & CY40T1 ownwards) RPHI0=1250., !ALARO-0: cloud scheme tuning RQICRMAX=5.E-05, !ALARO-0 tuning: max critical ice content for ice autoconversion RQICRMIN=8.E-07, !ALARO-0 tuning: min critical ice content for ice autoconversion RQLCR=3.E-04, !ALARO-0 tuning: critical liquid w.c. for liquid cloud w. autoconv. RWBF1=1600., !ALARO-0 tuning: WBF process param. TDDFR=0.0012, !ALARO-0: downdraft friction coeff. TDDGP=0.8, TENTR=5.E-06, !ALARO-0: minimum updraft entrainment coeff TENTRD=1.6E-04, !ALARO-0: downdraft entrainment coeff TENTRX=1.6E-04, !ALARO-0: maximum updraft entrainment coeff TFVI=0.08, !ALARO-0 tuning: sedimentation speed of cloud ice TFVL=0.02, !ALARO-0 tuning: sedimentation speed of cloud water TKEMULT=1., !ALARO-1 TOUCANS: TKE length scale multiplier USURIC=1., !ALARO-0: inverse of Ric USURICE=0.5, !ALARO-0: height exponent in Ri computation USURICL=4., !ALARO-0: coeff relating Ri comp. with the height USURID=0.048, !ALARO-0: inverse Ri transition number (Ri->Ric) USURIDE=0.25, !ALARO-0: exponent to compute Rid local VZ0CM=1.0E-04, !ALARO-0: Z0 on sea for gustiness VZIUSTAR0=12., !ALARO-0: scaling inverse roughness velocity for moist gust. WMXOV=0.8, !ALARO-0: scaling coeff. for maximum random overlap clouds comp. (2be tuned!) / &NAMPHY1 LCLS_HS=.TRUE., RCTVEG(3)=1.1E-05, !ISBA tuning: thermal resistence of low vegetation; both ALARO-0 and ALARO-1; also in CANARI / &NAMPHY2 FACRAF=10., !ALARO-0: wind gust diagnostics coeff. (2be tuned!) XDAMP=1., !ALARO-1 TOUCANS: anti-fibrillations as in pTKE LMULAF=.T., !ALARO-0: anti-fibrillation scheme XMULAF=-1.85, !ALARO-0: anti-fibrillation coeff. / &NAMPHY3 FCM_NU_DI=0., !ALARO-1 ACRANEB2: scattering saturation for ice clouds FCM_NU_DL=0., !ALARO-1 ACRANEB2: scattering saturation for liquid clouds RLAMB_SOLID=0.6, !ALARO-1 ACRANEB2: prop of Lambertian reflection for solid surf. / &NAMPHYDS / &NAMPONG / &NAMPPC LMOVPH=.F., / &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 LXFU=.T., LXCLS=.T., LXNEBTT=.T., LXNEBPA=.T., LXICV=.T., LXTGST=.T., LXCLP=.T., LXQCLS=.T., LXTTCLS=.T., NFRRAZ=1, NRAZTS=__NHISTS__, / &NAM_CANAPE / &NAM_DISTRIBUTED_VECTORS / &NAPHLC / &NEMCT0 / &NEMDIM / &NEMDYN / &NEMELBC0A LQCPL=.T., NBICOP=2, NBICOT=2, NBICOU=2, NECRIPL=1, / &NEMELBC0B TEFRCL=__TEFRCL__, / &NEMFPEZO / &NEMGEO / &NEMJK / &NEMVAR / &NEMWAVELET / &NAMARG CNMEXP='__CNMEXP__', NCONF=1, LELAM=.T., LECMWF=.F., CUSTOP='h__TSTOP__', TSTEP=180., LSLAG=.T., NSUPERSEDE=1, /