netcdf scoats-smartex/2023v1/CCZ_MITgcm_20230528_03-05h.nc {
  dimensions:
    XC = 384;
    YC = 384;
    XG = 384;
    YG = 384;
    Z = 90;
    Zp1 = 91;
    Zu = 90;
    Zl = 90;
    time = 3;
  variables:
    float XC(XC=384);
      :_FillValue = NaNf; // float
      :standard_name = "longitude";
      :long_name = "longitude";
      :units = "degrees_east";
      :coordinate = "YC XC";
      :axis = "X";

    float YC(YC=384);
      :_FillValue = NaNf; // float
      :standard_name = "latitude";
      :long_name = "latitude";
      :units = "degrees_north";
      :coordinate = "YC XC";
      :axis = "Y";

    float XG(XG=384);
      :_FillValue = NaNf; // float
      :standard_name = "longitude_at_f_location";
      :long_name = "longitude";
      :units = "degrees_east";
      :coordinate = "YG XG";
      :axis = "X";
      :c_grid_axis_shift = -0.5; // double

    float YG(YG=384);
      :_FillValue = NaNf; // float
      :standard_name = "latitude_at_f_location";
      :long_name = "latitude";
      :units = "degrees_north";
      :coordinate = "YG XG";
      :axis = "Y";
      :c_grid_axis_shift = -0.5; // double

    float Z(Z=90);
      :_FillValue = NaNf; // float
      :standard_name = "depth";
      :long_name = "vertical coordinate of cell center";
      :units = "m";
      :positive = "down";
      :axis = "Z";

    float Zp1(Zp1=91);
      :_FillValue = NaNf; // float
      :standard_name = "depth_at_w_location";
      :long_name = "vertical coordinate of cell interface";
      :units = "m";
      :positive = "down";
      :axis = "Z";
      :c_grid_axis_shift = -0.5, 0.5; // double

    float Zu(Zu=90);
      :_FillValue = NaNf; // float
      :standard_name = "depth_at_upper_w_location";
      :long_name = "vertical coordinate of upper cell interface";
      :units = "m";
      :positive = "down";
      :axis = "Z";
      :c_grid_axis_shift = 0.5; // double

    float Zl(Zl=90);
      :_FillValue = NaNf; // float
      :standard_name = "depth_at_lower_w_location";
      :long_name = "vertical coordinate of lower cell interface";
      :units = "m";
      :positive = "down";
      :axis = "Z";
      :c_grid_axis_shift = -0.5; // double

    float rA(time=3, YC=384, XC=384);
      :coordinate = "YC XC";
      :units = "m2";
      :long_name = "cell area";
      :_FillValue = NaNf; // float
      :standard_name = "cell_area";

    float dxG(time=3, YG=384, XC=384);
      :_FillValue = NaNf; // float
      :standard_name = "cell_x_size_at_v_location";
      :long_name = "cell x size";
      :units = "m";
      :coordinate = "YG XC";

    float dyG(time=3, YC=384, XG=384);
      :_FillValue = NaNf; // float
      :standard_name = "cell_y_size_at_u_location";
      :long_name = "cell y size";
      :units = "m";
      :coordinate = "YC XG";

    float Depth(time=3, YC=384, XC=384);
      :_FillValue = NaNf; // float
      :standard_name = "ocean_depth";
      :long_name = "ocean depth";
      :units = "m";
      :coordinate = "XC YC";

    float rAz(time=3, YG=384, XG=384);
      :_FillValue = NaNf; // float
      :standard_name = "cell_area_at_f_location";
      :long_name = "cell area";
      :units = "m";
      :coordinate = "YG XG";

    float dxC(time=3, YC=384, XG=384);
      :_FillValue = NaNf; // float
      :standard_name = "cell_x_size_at_u_location";
      :long_name = "cell x size";
      :units = "m";
      :coordinate = "YC XG";

    float dyC(time=3, YG=384, XC=384);
      :_FillValue = NaNf; // float
      :standard_name = "cell_y_size_at_v_location";
      :long_name = "cell y size";
      :units = "m";
      :coordinate = "YG XC";

    float rAw(time=3, YC=384, XG=384);
      :_FillValue = NaNf; // float
      :standard_name = "cell_area_at_u_location";
      :long_name = "cell area";
      :units = "m2";
      :coordinate = "YG XC";

    float rAs(time=3, YG=384, XC=384);
      :_FillValue = NaNf; // float
      :standard_name = "cell_area_at_v_location";
      :long_name = "cell area";
      :units = "m2";
      :coordinate = "YG XC";

    float drC(time=3, Zp1=91);
      :_FillValue = NaNf; // float
      :standard_name = "cell_z_size_at_w_location";
      :long_name = "cell z size";
      :units = "m";

    float drF(time=3, Z=90);
      :_FillValue = NaNf; // float
      :standard_name = "cell_z_size";
      :long_name = "cell z size";
      :units = "m";

    float PHrefC(time=3, Z=90);
      :_FillValue = NaNf; // float
      :standard_name = "cell_reference_pressure";
      :long_name = "Reference Hydrostatic Pressure";
      :units = "m2 s-2";

    float PHrefF(time=3, Zp1=91);
      :_FillValue = NaNf; // float
      :standard_name = "cell_reference_pressure";
      :long_name = "Reference Hydrostatic Pressure";
      :units = "m2 s-2";

    float hFacC(time=3, Z=90, YC=384, XC=384);
      :_FillValue = NaNf; // float
      :standard_name = "cell_vertical_fraction";
      :long_name = "vertical fraction of open cell";

    float hFacW(time=3, Z=90, YC=384, XG=384);
      :_FillValue = NaNf; // float
      :standard_name = "cell_vertical_fraction_at_u_location";
      :long_name = "vertical fraction of open cell";

    float hFacS(time=3, Z=90, YG=384, XC=384);
      :_FillValue = NaNf; // float
      :standard_name = "cell_vertical_fraction_at_v_location";
      :long_name = "vertical fraction of open cell";

    byte maskC(time=3, Z=90, YC=384, XC=384);
      :standard_name = "sea_binary_mask_at_t_location";
      :long_name = "mask denoting wet point at center";
      :dtype = "bool";

    byte maskW(time=3, Z=90, YC=384, XG=384);
      :standard_name = "cell_vertical_fraction_at_u_location";
      :long_name = "mask denoting wet point at interface";
      :dtype = "bool";

    byte maskS(time=3, Z=90, YG=384, XC=384);
      :standard_name = "cell_vertical_fraction_at_v_location";
      :long_name = "mask denoting wet point at interface";
      :dtype = "bool";

    float rhoRef(time=3, Z=90);
      :_FillValue = NaNf; // float
      :standard_name = "reference_density_profile";
      :long_name = "1D, vertical reference density profile";
      :coordinate = "Z";
      :units = "kg m-3";

    float dxF(time=3, YC=384, XC=384);
      :_FillValue = NaNf; // float
      :standard_name = "cell_x_size_at_t_location";
      :long_name = "cell x size";
      :units = "m";
      :coordinate = "YC XC";

    float dyF(time=3, YC=384, XC=384);
      :_FillValue = NaNf; // float
      :standard_name = "cell_y_size_at_t_location";
      :long_name = "cell y size";
      :units = "m";
      :coordinate = "YC XC";

    float dxV(time=3, YG=384, XG=384);
      :_FillValue = NaNf; // float
      :standard_name = "cell_x_size_at_f_location";
      :long_name = "cell x size";
      :units = "m";
      :coordinate = "YG XG";

    float dyU(time=3, YG=384, XG=384);
      :_FillValue = NaNf; // float
      :standard_name = "cell_y_size_at_f_location";
      :long_name = "cell y size";
      :units = "m";
      :coordinate = "YG XG";

    byte maskInC(time=3, YC=384, XC=384);
      :standard_name = "interior_2d_mask";
      :long_name = "OBCS 2D interior mask at tracer location, zero beyond OB";
      :units = "";
      :dtype = "bool";

    byte maskInW(time=3, YC=384, XG=384);
      :standard_name = "interior_2d_mask_at_u_location";
      :long_name = "OBCS 2D interior mask at u location, zero on & beyond OB";
      :units = "";
      :dtype = "bool";

    byte maskInS(time=3, YG=384, XC=384);
      :standard_name = "interior_2d_mask_at_v_location";
      :long_name = "OBCS 2D interior mask at v location, zero on & beyond OB";
      :units = "";
      :dtype = "bool";

    long iter(time=3);
      :standard_name = "timestep";
      :long_name = "model timestep number";

    int time(time=3);
      :standard_name = "time";
      :long_name = "Time";
      :axis = "T";
      :units = "seconds since 2023-04-01 00:00:00";

    float U(time=3, Z=90, YC=384, XG=384);
      :_FillValue = NaNf; // float
      :standard_name = "sea_water_x_velocity";
      :mate = "V";
      :long_name = "Zonal Component of Velocity";
      :units = "m s-1";

    float S(time=3, Z=90, YC=384, XC=384);
      :_FillValue = NaNf; // float
      :standard_name = "sea_water_salinity";
      :long_name = "Salinity";
      :units = "g kg-1";

    float W(time=3, Zl=90, YC=384, XC=384);
      :_FillValue = NaNf; // float
      :standard_name = "sea_water_z_velocity";
      :long_name = "Vertical Component of Velocity";
      :units = "m s-1";

    float T(time=3, Z=90, YC=384, XC=384);
      :_FillValue = NaNf; // float
      :standard_name = "sea_water_potential_temperature";
      :long_name = "Potential Temperature";
      :units = "degree_Celcius";

    float KLviscAr(time=3, Zl=90, YC=384, XC=384);
      :_FillValue = NaNf; // float
      :standard_name = "KLviscAr";
      :long_name = "KL10 vertical eddy viscosity coefficient";
      :units = "m^2/s";

    float V(time=3, Z=90, YG=384, XC=384);
      :_FillValue = NaNf; // float
      :standard_name = "sea_water_y_velocity";
      :mate = "U";
      :long_name = "Meridional Component of Velocity";
      :units = "m s-1";

    float KLeps(time=3, Zl=90, YC=384, XC=384);
      :_FillValue = NaNf; // float
      :standard_name = "KLeps";
      :long_name = "KL10 Turbulent dissipation rate";
      :units = "m^2/s^3";

  // global attributes:
  :Conventions = "CF-1.6";
  :title = "netCDF wrapper of MITgcm MDS binary data";
  :source = "MITgcm";
  :history = "Created by calling `open_mdsdataset(data_dir=\'/home/sa01da/MITgcm_68/verification/CCZ_02km/run01_r1\', grid_dir=None, iters=None, prefix=[\'U\', \'V\', \'W\', \'T\', \'S\', \'KLeps\', \'KLviscAr\'], read_grid=True, delta_t=6, ref_date=\'2023-04-01 00:00:00\', calendar=\'gregorian\', levels=None, geometry=\'sphericalpolar\', grid_vars_to_coords=False, swap_dims=False, endian=\'>\', chunks={}, ignore_unknown_vars=True, default_dtype=None, nx=None, ny=None, nz=None, llc_method=\'smallchunks\', extra_metadata=None, extra_variables=None)`";
}