! ! $Header$ ! c$OMP MASTER IF (ok_histNMC(2)) THEN c zstophy = dtime zstohf = ecrit_hf zstomth = ecrit_mth zout = freq_outNMC(2) c idayref = day_ref CALL ymds2ju(annee_ref, 1, idayref, 0.0, zjulian) c cym CALL gr_fi_ecrit(1,klon,iim,jjmp1,rlon,zx_lon) cym DO i = 1, iim cym zx_lon(i,1) = rlon(i+1) cym zx_lon(i,jjmp1) = rlon(i+1) cym ENDDO DO ll=1,klev znivsig(ll)=float(ll) ENDDO cym CALL gr_fi_ecrit(1,klon,iim,jjmp1,rlat,zx_lat) cym CALL histbeg("histNMC.nc", iim,zx_lon(:,1), jjmp1,zx_lat(1,:), cym . 1,iim,1,jjmp1, itau_phy, zjulian, dtime, cym . nhori, nid_daynmc) CALL histbeg_phy("histdayNMC",itau_phy, zjulian, dtime, . nhori, nid_daynmc) c IF(lev_histdayNMC.EQ.nlevSTD) THEN CALL histvert(nid_daynmc, "plev", "pressure", "mb", . nlevSTD, rlevSTD/100., nvert,"down") ELSE IF(lev_histdayNMC.EQ.nlevSTD8) THEN CALL histvert(nid_daynmc, "plev", "pressure", "mb", . nlevSTD8, rlevSTD8/100., nvert,"down") ENDIF c cIM Astuce MAF: remplacer inst par ave pour les variables NMC pour avoir cIM le time_counter et les bounds c ccc Champs 3D interpolles sur des niveaux de pression du NMC ccc c c ATTENTION : pour AMIP2 on interpole t,u,v,wphi,q,rh c sur les niveaux du NMC et on somme & moyenne c toutes les freq_moyNMC secondes par des routines undefSTD et c moy_undefSTD pour eliminer les valeurs "undef" c de la moyenne mensuelle c ======> le "inst(X)" ci-dessous est par consequence factice ! c IF(lev_histdayNMC.EQ.nlevSTD) THEN CALL histdef(nid_daynmc, "tnondef", . "Valeurs non-definies","-", . iim,jj_nb,nhori, nlevSTD,1,nlevSTD, nvert, 32, . "ave(X)", zout,zout) c CALL histdef(nid_daynmc, "ta", . "Air temperature","K", . iim,jj_nb,nhori, nlevSTD,1,nlevSTD, nvert, 32, . "ave(X)", zout,zout) c CALL histdef(nid_daynmc, "zg", . "Geopotential height", "m", . iim,jj_nb,nhori, nlevSTD,1,nlevSTD, nvert, 32, . "ave(X)", zout,zout) c CALL histdef(nid_daynmc, "hus", . "Specific humidity","1", . iim,jj_nb,nhori, nlevSTD,1,nlevSTD, nvert, 32, . "ave(X)", zout,zout) c CALL histdef(nid_daynmc, "hur", . "Relative humidity", "%", . iim,jj_nb,nhori, nlevSTD,1,nlevSTD, nvert, 32, . "ave(X)", zout,zout) c CALL histdef(nid_daynmc, "ua", . "Eastward wind","m s-1", . iim,jj_nb,nhori, nlevSTD,1,nlevSTD, nvert, 32, . "ave(X)", zout,zout) c CALL histdef(nid_daynmc, "va", . "Northward wind","m s-1", . iim,jj_nb,nhori, nlevSTD,1,nlevSTD, nvert, 32, . "ave(X)", zout,zout) c CALL histdef(nid_daynmc, "wap", . "Lagrangian tendency of air pressure","Pa s-1", . iim,jj_nb,nhori, nlevSTD,1,nlevSTD, nvert, 32, . "ave(X)", zout,zout) c ELSE IF(lev_histdayNMC.EQ.nlevSTD8) THEN c CALL histdef(nid_daynmc, "tnondef", . "Valeurs non-definies","-", . iim,jj_nb,nhori, nlevSTD8,1,nlevSTD8, nvert, 32, . "ave(X)", zout,zout) c CALL histdef(nid_daynmc, "ta", . "Air temperature","K", . iim,jj_nb,nhori, nlevSTD8,1,nlevSTD8, nvert, 32, . "ave(X)", zout,zout) c CALL histdef(nid_daynmc, "zg", . "Geopotential height", "m", . iim,jj_nb,nhori, nlevSTD8,1,nlevSTD8, nvert, 32, . "ave(X)", zout,zout) c CALL histdef(nid_daynmc, "hus", . "Specific humidity","1", . iim,jj_nb,nhori, nlevSTD8,1,nlevSTD8, nvert, 32, . "ave(X)", zout,zout) c CALL histdef(nid_daynmc, "hur", . "Relative humidity", "%", . iim,jj_nb,nhori, nlevSTD8,1,nlevSTD8, nvert, 32, . "ave(X)", zout,zout) c CALL histdef(nid_daynmc, "ua", . "Eastward wind","m s-1", . iim,jj_nb,nhori, nlevSTD8,1,nlevSTD8, nvert, 32, . "ave(X)", zout,zout) c CALL histdef(nid_daynmc, "va", . "Northward wind","m s-1", . iim,jj_nb,nhori, nlevSTD8,1,nlevSTD8, nvert, 32, . "ave(X)", zout,zout) c CALL histdef(nid_daynmc, "wap", . "Lagrangian tendency of air pressure","Pa s-1", . iim,jj_nb,nhori, nlevSTD8,1,nlevSTD8, nvert, 32, . "ave(X)", zout,zout) c ENDIF c CALL histend(nid_daynmc) c ENDIF !(ok_histNMC(2)) THEN c$OMP END MASTER