{\footnotesize \begin{verbatim} netcdf startfi { dimensions: index = 100 ; physical_points = 738 ; subsurface_layers = 18 ; nlayer_plus_1 = 19 ; number_of_advected_fields = 3 ; variables: float controle(index) ; controle:title = "Control parameters" ; float soildepth(subsurface_layers) ; soildepth:title = "Soil mid-layer depth" ; float longitude(physical_points) ; longitude:title = "Longitudes of physics grid" ; float latitude(physical_points) ; latitude:title = "Latitudes of physics grid" ; float area(physical_points) ; area:title = "Mesh area" ; float phisfi(physical_points) ; phisfi:title = "Geopotential at the surface" ; float albedodat(physical_points) ; albedodat:title = "Albedo of bare ground" ; float ZMEA(physical_points) ; ZMEA:title = "Relief: mean relief" ; float ZSTD(physical_points) ; ZSTD:title = "Relief: standard deviation" ; float ZSIG(physical_points) ; ZSIG:title = "Relief: sigma parameter" ; float ZGAM(physical_points) ; ZGAM:title = "Relief: gamma parameter" ; float ZTHE(physical_points) ; ZTHE:title = "Relief: theta parameter" ; float co2ice(physical_points) ; co2_ice:title = "CO2 ice cover" ; float inertiedat(subsurface_layers, physical_points) ; inertiedat:title = "Soil thermal inertia" ; float tsurf(physical_points) ; tsurf:title = "Surface temperature" ; float tsoil(subsurface_layers, physical_points) ; tsoil:title = "Soil temperature" ; float emis(physical_points) ; emis:title = "Surface emissivity" ; float q2(nlayer_plus_1, physical_points) ; q2:title = "pbl wind variance" ; float h2o_ice(physical_points) ; h2o_ice:title = "tracer on surface" ; // global attributes: :title = "Physics start file" ; } \end{verbatim} }