{\footnotesize
\begin{verbatim}
netcdf diagfi {
dimensions:
        Time = UNLIMITED ; // (12 currently)
        index = 100 ;
        rlonu = 65 ;
        latitude = 49 ;
        longitude = 65 ;
        rlatv = 48 ;
        interlayer = 26 ;
        altitude = 25 ;
        subsurface_layers = 18 ;
variables:
        float Time(Time) ;
                Time:long_name = "Time" ;
                Time:units = "days since 0000-00-0 00:00:00" ;
        float controle(index) ;
                controle:title = "Control parameters" ;
        float rlonu(rlonu) ;
                rlonu:title = "Longitudes at u nodes" ;
        float latitude(latitude) ;
                latitude:units = "degrees_north" ;
                latitude:long_name = "North latitude" ;
        float longitude(longitude) ;
                longitude:long_name = "East longitude" ;
                longitude:units = "degrees_east" ;
        float altitude(altitude) ;
                altitude:long_name = "pseudo-alt" ;
                altitude:units = "km" ;
                altitude:positive = "up" ;
        float rlatv(rlatv) ;
                rlatv:title = "Latitudes at v nodes" ;
        float aps(altitude) ;
                aps:title = "hybrid pressure at midlayers" ;
                aps:units = "Pa" ;
        float bps(altitude) ;
                bps:title = "hybrid sigma at midlayers" ;
                bps:units = "" ;
        float ap(interlayer) ;
                ap:title = "hybrid pressure at interlayers" ;
                ap:units = "Pa" ;
        float bp(interlayer) ;
                bp:title = "hybrid sigma at interlayers" ;
                bp:units = "" ;
        float soildepth(subsurface_layers) ;
                soildepth:long_name = "Soil mid-layer depth" ;
                soildepth:units = "m" ;
                soildepth:positive = "down" ;
        float cu(latitude, rlonu) ;
                cu:title = "Conversion coefficients cov <--> natural" ;
        float cv(rlatv, longitude) ;
                cv:title = "Conversion coefficients cov <--> natural" ;
        float aire(latitude, longitude) ;
                aire:title = "Mesh area" ;
        float phisinit(latitude, longitude) ;
                phisinit:title = "Geopotential at the surface" ;
        float emis(Time, latitude, longitude) ;
                emis:title = "Surface emissivity" ;
                emis:units = "w.m-1" ;
        float tsurf(Time, latitude, longitude) ;
                tsurf:title = "Surface temperature" ;
                tsurf:units = "K" ;
        float ps(Time, latitude, longitude) ;
                ps:title = "surface pressure" ;
                ps:units = "Pa" ;
        float co2ice(Time, latitude, longitude) ;
                co2ice:title = "co2 ice thickness" ;
                co2ice:units = "kg.m-2" ;
        float mtot(Time, latitude, longitude) ;
                mtot:title = "total mass of water vapor" ;
                mtot:units = "kg/m2" ;
        float icetot(Time, latitude, longitude) ;
                icetot:title = "total mass of water ice" ;
                icetot:units = "kg/m2" ;
        float tauTES(Time, latitude, longitude) ;
                tauTES:title = "tau abs 825 cm-1" ;
                tauTES:units = "" ;
        float h2o_ice_s(Time, latitude, longitude) ;
                h2o_ice_s:title = "surface h2o_ice" ;
                h2o_ice_s:units = "kg.m-2" ;
}
\end{verbatim}
}