netcdf CESMA/QAqu_qupT/clim/QAqu_qupT.cam.h0.clim20.nc_interp.nc {
  dimensions:
    time = 1;
    lev_p = 35;
    lat = 96;
    lon = 144;
    ilev = 27;
  variables:
    float T(time=1, lev_p=35, lat=96, lon=144);
      :_FillValue = 9.96921E36f; // float

    double time(time=1);
      :cell_methods = "time: mean";
      :bounds = "time_bnds";
      :calendar = "noleap";
      :units = "days since 0001-01-01 00:00:00";
      :long_name = "time";

    float lev_p(lev_p=35);

    double lat(lat=96);
      :units = "degrees_north";
      :long_name = "latitude";

    double lon(lon=144);
      :units = "degrees_east";
      :long_name = "longitude";

    float Q(time=1, lev_p=35, lat=96, lon=144);
      :_FillValue = 9.96921E36f; // float

    float V(time=1, lev_p=35, lat=96, lon=144);
      :_FillValue = 9.96921E36f; // float

    float TMQ(time=1, lat=96, lon=144);
      :units = "kg/m2";
      :long_name = "Total (vertically integrated) precipitable water";
      :cell_methods = "time: mean time: mean";

    float TS(time=1, lat=96, lon=144);
      :units = "K";
      :long_name = "Surface temperature (radiative)";
      :cell_methods = "time: mean time: mean";

    float PS(time=1, lat=96, lon=144);
      :units = "Pa";
      :long_name = "Surface pressure";
      :cell_methods = "time: mean time: mean";

    double ilev(ilev=27);
      :long_name = "hybrid level at interfaces (1000*(A+B))";
      :units = "level";
      :positive = "down";
      :standard_name = "atmosphere_hybrid_sigma_pressure_coordinate";
      :formula_terms = "a: hyai b: hybi p0: P0 ps: PS";

}