netcdf diag.2018-09-09_16.00.00 {
dimensions:
	StrLen = 64 ;
	Time = UNLIMITED ; // (1 currently)
	nCells = 2562 ;
	nVertices = 5120 ;
	nIsoLevelsT = 5 ;
	nIsoLevelsZ = 13 ;
variables:
	char initial_time(StrLen) ;
		initial_time:units = "YYYY-MM-DD_hh:mm:ss" ;
		initial_time:long_name = "Model initialization time" ;
	char xtime(Time, StrLen) ;
		xtime:units = "YYYY-MM-DD_hh:mm:ss" ;
		xtime:long_name = "Model valid time" ;
	float olrtoa(Time, nCells) ;
		olrtoa:units = "W m^{-2}" ;
		olrtoa:long_name = "top-of-atmosphere outgoing longwave radiation flux" ;
	float rainc(Time, nCells) ;
		rainc:units = "mm" ;
		rainc:long_name = "accumulated convective precipitation" ;
	float rainnc(Time, nCells) ;
		rainnc:units = "mm" ;
		rainnc:long_name = "accumulated total grid-scale precipitation" ;
	float refl10cm_max(Time, nCells) ;
		refl10cm_max:units = "dBZ" ;
		refl10cm_max:long_name = "10 cm maximum radar reflectivity" ;
	float refl10cm_1km(Time, nCells) ;
		refl10cm_1km:units = "dBZ" ;
		refl10cm_1km:long_name = "diagnosed 10 cm radar reflectivity at 1 km AGL" ;
	float refl10cm_1km_max(Time, nCells) ;
		refl10cm_1km_max:units = "dBZ" ;
		refl10cm_1km_max:long_name = "maximum diagnosed 10 cm radar reflectivity at 1 km AGL since last output time" ;
	float precipw(Time, nCells) ;
		precipw:units = "kg m^{-2}" ;
		precipw:long_name = "precipitable water" ;
	float u10(Time, nCells) ;
		u10:units = "m s^{-1}" ;
		u10:long_name = "10-meter zonal wind" ;
	float v10(Time, nCells) ;
		v10:units = "m s^{-1}" ;
		v10:long_name = "10-meter meridional wind" ;
	float q2(Time, nCells) ;
		q2:units = "kg kg^{-1}" ;
		q2:long_name = "2-meter specific humidity" ;
	float t2m(Time, nCells) ;
		t2m:units = "K" ;
		t2m:long_name = "2-meter temperature" ;
	float th2m(Time, nCells) ;
		th2m:units = "K" ;
		th2m:long_name = "2-meter potential temperature" ;
	float mslp(Time, nCells) ;
		mslp:units = "Pa" ;
		mslp:long_name = "Mean sea-level pressure" ;
	float relhum_200hPa(Time, nCells) ;
		relhum_200hPa:units = "percent" ;
		relhum_200hPa:long_name = "Relative humidity vertically interpolated to 200 hPa" ;
	float relhum_250hPa(Time, nCells) ;
		relhum_250hPa:units = "percent" ;
		relhum_250hPa:long_name = "Relative humidity vertically interpolated to 250 hPa" ;
	float relhum_500hPa(Time, nCells) ;
		relhum_500hPa:units = "percent" ;
		relhum_500hPa:long_name = "Relative humidity vertically interpolated to 500 hPa" ;
	float relhum_700hPa(Time, nCells) ;
		relhum_700hPa:units = "percent" ;
		relhum_700hPa:long_name = "Relative humidity vertically interpolated to 700 hPa" ;
	float relhum_850hPa(Time, nCells) ;
		relhum_850hPa:units = "percent" ;
		relhum_850hPa:long_name = "Relative humidity vertically interpolated to 850 hPa" ;
	float relhum_925hPa(Time, nCells) ;
		relhum_925hPa:units = "percent" ;
		relhum_925hPa:long_name = "Relative humidity vertically interpolated to 925 hPa" ;
	float dewpoint_200hPa(Time, nCells) ;
		dewpoint_200hPa:units = "K" ;
		dewpoint_200hPa:long_name = "Dewpoint temperature vertically interpolated to 200 hPa" ;
	float dewpoint_250hPa(Time, nCells) ;
		dewpoint_250hPa:units = "K" ;
		dewpoint_250hPa:long_name = "Dewpoint temperature vertically interpolated to 250 hPa" ;
	float dewpoint_500hPa(Time, nCells) ;
		dewpoint_500hPa:units = "K" ;
		dewpoint_500hPa:long_name = "Dewpoint temperature vertically interpolated to 500 hPa" ;
	float dewpoint_700hPa(Time, nCells) ;
		dewpoint_700hPa:units = "K" ;
		dewpoint_700hPa:long_name = "Dewpoint temperature vertically interpolated to 700 hPa" ;
	float dewpoint_850hPa(Time, nCells) ;
		dewpoint_850hPa:units = "K" ;
		dewpoint_850hPa:long_name = "Dewpoint temperature vertically interpolated to 850 hPa" ;
	float dewpoint_925hPa(Time, nCells) ;
		dewpoint_925hPa:units = "K" ;
		dewpoint_925hPa:long_name = "Dewpoint temperature vertically interpolated to 925 hPa" ;
	float temperature_200hPa(Time, nCells) ;
		temperature_200hPa:units = "K" ;
		temperature_200hPa:long_name = "Temperature vertically interpolated to 200 hPa" ;
	float temperature_250hPa(Time, nCells) ;
		temperature_250hPa:units = "K" ;
		temperature_250hPa:long_name = "Temperature vertically interpolated to 250 hPa" ;
	float temperature_500hPa(Time, nCells) ;
		temperature_500hPa:units = "K" ;
		temperature_500hPa:long_name = "Temperature vertically interpolated to 500 hPa" ;
	float temperature_700hPa(Time, nCells) ;
		temperature_700hPa:units = "K" ;
		temperature_700hPa:long_name = "Temperature vertically interpolated to 700 hPa" ;
	float temperature_850hPa(Time, nCells) ;
		temperature_850hPa:units = "K" ;
		temperature_850hPa:long_name = "Temperature vertically interpolated to 850 hPa" ;
	float temperature_925hPa(Time, nCells) ;
		temperature_925hPa:units = "K" ;
		temperature_925hPa:long_name = "Temperature vertically interpolated to 925 hPa" ;
	float height_200hPa(Time, nCells) ;
		height_200hPa:units = "m" ;
		height_200hPa:long_name = "Geometric height interpolated to 200 hPa" ;
	float height_250hPa(Time, nCells) ;
		height_250hPa:units = "m" ;
		height_250hPa:long_name = "Geometric height interpolated to 250 hPa" ;
	float height_500hPa(Time, nCells) ;
		height_500hPa:units = "m" ;
		height_500hPa:long_name = "Geometric height interpolated to 500 hPa" ;
	float height_700hPa(Time, nCells) ;
		height_700hPa:units = "m" ;
		height_700hPa:long_name = "Geometric height interpolated to 700 hPa" ;
	float height_850hPa(Time, nCells) ;
		height_850hPa:units = "m" ;
		height_850hPa:long_name = "Geometric height interpolated to 850 hPa" ;
	float height_925hPa(Time, nCells) ;
		height_925hPa:units = "m" ;
		height_925hPa:long_name = "Geometric height interpolated to 925 hPa" ;
	float uzonal_200hPa(Time, nCells) ;
		uzonal_200hPa:units = "m s^{-1}" ;
		uzonal_200hPa:long_name = "Reconstructed zonal wind at cell centers, vertically interpolated to 200 hPa" ;
	float uzonal_250hPa(Time, nCells) ;
		uzonal_250hPa:units = "m s^{-1}" ;
		uzonal_250hPa:long_name = "Reconstructed zonal wind at cell centers, vertically interpolated to 250 hPa" ;
	float uzonal_500hPa(Time, nCells) ;
		uzonal_500hPa:units = "m s^{-1}" ;
		uzonal_500hPa:long_name = "Reconstructed zonal wind at cell centers, vertically interpolated to 500 hPa" ;
	float uzonal_700hPa(Time, nCells) ;
		uzonal_700hPa:units = "m s^{-1}" ;
		uzonal_700hPa:long_name = "Reconstructed zonal wind at cell centers, vertically interpolated to 700 hPa" ;
	float uzonal_850hPa(Time, nCells) ;
		uzonal_850hPa:units = "m s^{-1}" ;
		uzonal_850hPa:long_name = "Reconstructed zonal wind at cell centers, vertically interpolated to 850 hPa" ;
	float uzonal_925hPa(Time, nCells) ;
		uzonal_925hPa:units = "m s^{-1}" ;
		uzonal_925hPa:long_name = "Reconstructed zonal wind at cell centers, vertically interpolated to 925 hPa" ;
	float umeridional_200hPa(Time, nCells) ;
		umeridional_200hPa:units = "m s^{-1}" ;
		umeridional_200hPa:long_name = "Reconstructed meridional wind at cell centers, vertically interpolated to 200 hPa" ;
	float umeridional_250hPa(Time, nCells) ;
		umeridional_250hPa:units = "m s^{-1}" ;
		umeridional_250hPa:long_name = "Reconstructed meridional wind at cell centers, vertically interpolated to 250 hPa" ;
	float umeridional_500hPa(Time, nCells) ;
		umeridional_500hPa:units = "m s^{-1}" ;
		umeridional_500hPa:long_name = "Reconstructed meridional wind at cell centers, vertically interpolated to 500 hPa" ;
	float umeridional_700hPa(Time, nCells) ;
		umeridional_700hPa:units = "m s^{-1}" ;
		umeridional_700hPa:long_name = "Reconstructed meridional wind at cell centers, vertically interpolated to 700 hPa" ;
	float umeridional_850hPa(Time, nCells) ;
		umeridional_850hPa:units = "m s^{-1}" ;
		umeridional_850hPa:long_name = "Reconstructed meridional wind at cell centers, vertically interpolated to 850 hPa" ;
	float umeridional_925hPa(Time, nCells) ;
		umeridional_925hPa:units = "m s^{-1}" ;
		umeridional_925hPa:long_name = "Reconstructed meridional wind at cell centers, vertically interpolated to 925 hPa" ;
	float w_200hPa(Time, nCells) ;
		w_200hPa:units = "m s^{-1}" ;
		w_200hPa:long_name = "Vertical velocity vertically interpolated to 200 hPa" ;
	float w_250hPa(Time, nCells) ;
		w_250hPa:units = "m s^{-1}" ;
		w_250hPa:long_name = "Vertical velocity vertically interpolated to 250 hPa" ;
	float w_500hPa(Time, nCells) ;
		w_500hPa:units = "m s^{-1}" ;
		w_500hPa:long_name = "Vertical velocity vertically interpolated to 500 hPa" ;
	float w_700hPa(Time, nCells) ;
		w_700hPa:units = "m s^{-1}" ;
		w_700hPa:long_name = "Vertical velocity vertically interpolated to 700 hPa" ;
	float w_850hPa(Time, nCells) ;
		w_850hPa:units = "m s^{-1}" ;
		w_850hPa:long_name = "Vertical velocity vertically interpolated to 850 hPa" ;
	float w_925hPa(Time, nCells) ;
		w_925hPa:units = "m s^{-1}" ;
		w_925hPa:long_name = "Vertical velocity vertically interpolated to 925 hPa" ;
	float vorticity_200hPa(Time, nVertices) ;
		vorticity_200hPa:units = "s^{-1}" ;
		vorticity_200hPa:long_name = "Relative vorticity vertically interpolated to 200 hPa" ;
	float vorticity_250hPa(Time, nVertices) ;
		vorticity_250hPa:units = "s^{-1}" ;
		vorticity_250hPa:long_name = "Relative vorticity vertically interpolated to 250 hPa" ;
	float vorticity_500hPa(Time, nVertices) ;
		vorticity_500hPa:units = "s^{-1}" ;
		vorticity_500hPa:long_name = "Relative vorticity vertically interpolated to 500 hPa" ;
	float vorticity_700hPa(Time, nVertices) ;
		vorticity_700hPa:units = "s^{-1}" ;
		vorticity_700hPa:long_name = "Relative vorticity vertically interpolated to 700 hPa" ;
	float vorticity_850hPa(Time, nVertices) ;
		vorticity_850hPa:units = "s^{-1}" ;
		vorticity_850hPa:long_name = "Relative vorticity vertically interpolated to 850 hPa" ;
	float vorticity_925hPa(Time, nVertices) ;
		vorticity_925hPa:units = "s^{-1}" ;
		vorticity_925hPa:long_name = "Relative vorticity vertically interpolated to 925 hPa" ;
	float t_isobaric(Time, nCells, nIsoLevelsT) ;
		t_isobaric:units = "K" ;
		t_isobaric:long_name = "Temperature interpolated to isobaric surfaces defined in t_iso_levels" ;
	float t_iso_levels(nIsoLevelsT) ;
		t_iso_levels:units = "Pa" ;
		t_iso_levels:long_name = "Levels for vertical interpolation of temperature to isobaric surfaces" ;
	float z_isobaric(Time, nCells, nIsoLevelsZ) ;
		z_isobaric:units = "m" ;
		z_isobaric:long_name = "Height interpolated to isobaric surfaces defined in z_iso_levels" ;
	float z_iso_levels(nIsoLevelsZ) ;
		z_iso_levels:units = "Pa" ;
		z_iso_levels:long_name = "Levels for vertical interpolation of height to isobaric surfaces" ;
	float meanT_500_300(Time, nCells) ;
		meanT_500_300:units = "K" ;
		meanT_500_300:long_name = "Mean temperature in the 300 hPa - 500 hPa layer" ;
	float cape(Time, nCells) ;
		cape:units = "J kg^{-1}" ;
		cape:long_name = "Convective available potential energy" ;
	float cin(Time, nCells) ;
		cin:units = "J kg^{-1}" ;
		cin:long_name = "Convective inhibition" ;
	float lcl(Time, nCells) ;
		lcl:units = "m" ;
		lcl:long_name = "Lifted condensation level" ;
	float lfc(Time, nCells) ;
		lfc:units = "m" ;
		lfc:long_name = "Level of free convection" ;
	float srh_0_1km(Time, nCells) ;
		srh_0_1km:units = "m^2 s^{-2}" ;
		srh_0_1km:long_name = "Storm relative helicity, 0-1 km AGL" ;
	float srh_0_3km(Time, nCells) ;
		srh_0_3km:units = "m^2 s^{-2}" ;
		srh_0_3km:long_name = "Storm relative helicity, 0-3 km AGL" ;
	float uzonal_surface(Time, nCells) ;
		uzonal_surface:units = "m s^{-1}" ;
		uzonal_surface:long_name = "Zonal wind component at midpoint of lowest model layer" ;
	float uzonal_1km(Time, nCells) ;
		uzonal_1km:units = "m s^{-1}" ;
		uzonal_1km:long_name = "Zonal wind component at 1 km AGL" ;
	float uzonal_6km(Time, nCells) ;
		uzonal_6km:units = "m s^{-1}" ;
		uzonal_6km:long_name = "Zonal wind component at 6 km AGL" ;
	float umeridional_surface(Time, nCells) ;
		umeridional_surface:units = "m s^{-1}" ;
		umeridional_surface:long_name = "Meridional wind component at midpoint of lowest model layer" ;
	float umeridional_1km(Time, nCells) ;
		umeridional_1km:units = "m s^{-1}" ;
		umeridional_1km:long_name = "Meridional wind component at 1 km AGL" ;
	float umeridional_6km(Time, nCells) ;
		umeridional_6km:units = "m s^{-1}" ;
		umeridional_6km:long_name = "Meridional wind component at 6 km AGL" ;
	float temperature_surface(Time, nCells) ;
		temperature_surface:units = "K" ;
		temperature_surface:long_name = "Temperature at midpoint of lowest model layer" ;
	float dewpoint_surface(Time, nCells) ;
		dewpoint_surface:units = "K" ;
		dewpoint_surface:long_name = "Dewpoint temperature at midpoint of lowest model layer" ;
	float updraft_helicity_max(Time, nCells) ;
		updraft_helicity_max:units = "m^2 s^{-2}" ;
		updraft_helicity_max:long_name = "Maximum updraft helicity since last output" ;
	float w_velocity_max(Time, nCells) ;
		w_velocity_max:units = "m s^{-1}" ;
		w_velocity_max:long_name = "Maximum column w velocity since last output" ;
	float wind_speed_level1_max(Time, nCells) ;
		wind_speed_level1_max:units = "m s^{-1}" ;
		wind_speed_level1_max:long_name = "Maximum wind speed in lowest model level since last output" ;
	float t_oml(Time, nCells) ;
		t_oml:units = "K" ;
		t_oml:long_name = "ocean mixed layer temperature" ;
	float t_oml_initial(Time, nCells) ;
		t_oml_initial:units = "K" ;
		t_oml_initial:long_name = "ocean mixed layer temperature at initial time" ;
	float t_oml_200m_initial(Time, nCells) ;
		t_oml_200m_initial:units = "K" ;
		t_oml_200m_initial:long_name = "ocean mixed layer 200 m mean temperature at initial time" ;
	float h_oml(Time, nCells) ;
		h_oml:units = "m" ;
		h_oml:long_name = "ocean mixed layer depth" ;
	float h_oml_initial(Time, nCells) ;
		h_oml_initial:units = "m" ;
		h_oml_initial:long_name = "ocean mixed layer depth at initial time" ;
	float hu_oml(Time, nCells) ;
		hu_oml:units = "m^2 s^{-1}" ;
		hu_oml:long_name = "ocean mixed layer integrated u (zonal velocity)" ;
	float hv_oml(Time, nCells) ;
		hv_oml:units = "m^2 s^{-1}" ;
		hv_oml:long_name = "ocean mixed layer integrated v (meridional velocity)" ;

// global attributes:
		:model_name = "mpas" ;
		:core_name = "atmosphere" ;
		:source = "MPAS" ;
		:Conventions = "MPAS" ;
		:git_version = "unknown" ;
		:on_a_sphere = "YES" ;
		:sphere_radius = 6371229.f ;
		:is_periodic = "NO" ;
		:x_period = 0.f ;
		:y_period = 0.f ;
		:history = "mpirun -n 4 ./atmosphere_model" ;
		:parent_id = "1apklzsq65\n",
			"yz9xgb2ngx\n",
			"" ;
		:mesh_spec = "0.0" ;
		:config_time_integration = "SRK3" ;
		:config_time_integration_order = 2 ;
		:config_dt = 1800.f ;
		:config_calendar_type = "gregorian" ;
		:config_start_time = "2018-09-05_00:00:00" ;
		:config_stop_time = "none" ;
		:config_run_duration = "16_00:00:00" ;
		:config_split_dynamics_transport = "YES" ;
		:config_number_of_sub_steps = 2 ;
		:config_dynamics_split_steps = 3 ;
		:config_h_mom_eddy_visc2 = 0.f ;
		:config_h_mom_eddy_visc4 = 0.f ;
		:config_v_mom_eddy_visc2 = 0.f ;
		:config_h_theta_eddy_visc2 = 0.f ;
		:config_h_theta_eddy_visc4 = 0.f ;
		:config_v_theta_eddy_visc2 = 0.f ;
		:config_horiz_mixing = "2d_smagorinsky" ;
		:config_len_disp = 480000.f ;
		:config_visc4_2dsmag = 0.05f ;
		:config_del4u_div_factor = 10.f ;
		:config_w_adv_order = 3 ;
		:config_theta_adv_order = 3 ;
		:config_scalar_adv_order = 3 ;
		:config_u_vadv_order = 3 ;
		:config_w_vadv_order = 3 ;
		:config_theta_vadv_order = 3 ;
		:config_scalar_vadv_order = 3 ;
		:config_scalar_advection = "YES" ;
		:config_positive_definite = "NO" ;
		:config_monotonic = "YES" ;
		:config_coef_3rd_order = 0.25f ;
		:config_smagorinsky_coef = 0.125f ;
		:config_mix_full = "YES" ;
		:config_epssm = 0.1f ;
		:config_smdiv = 0.1f ;
		:config_apvm_upwinding = 0.5f ;
		:config_h_ScaleWithMesh = "YES" ;
		:config_num_halos = 2 ;
		:config_zd = 22000.f ;
		:config_xnutr = 0.2f ;
		:config_restart_timestamp_name = "restart_timestamp" ;
		:config_pio_num_iotasks = 0 ;
		:config_pio_stride = 1 ;
		:config_block_decomp_file_prefix = "x1.2562.graph.info.part." ;
		:config_number_of_blocks = 0 ;
		:config_explicit_proc_decomp = "NO" ;
		:config_proc_decomp_file_prefix = "graph.info.part." ;
		:config_do_restart = "NO" ;
		:config_do_DAcycling = "NO" ;
		:config_print_global_minmax_vel = "YES" ;
		:config_print_detailed_minmax_vel = "NO" ;
		:config_print_global_minmax_sca = "NO" ;
		:config_IAU_option = "off" ;
		:config_IAU_window_length_s = 21600.f ;
		:input_soil_data = "STAS" ;
		:input_soil_temperature_lag = 140 ;
		:num_soil_layers = 4 ;
		:months = 12 ;
		:noznlev = 59 ;
		:naerlev = 29 ;
		:camdim1 = 4 ;
		:config_frac_seaice = "YES" ;
		:config_sfc_albedo = "YES" ;
		:config_sfc_snowalbedo = "YES" ;
		:config_sst_update = "NO" ;
		:config_sstdiurn_update = "NO" ;
		:config_deepsoiltemp_update = "NO" ;
		:config_o3climatology = "NO" ;
		:config_microp_re = "NO" ;
		:config_ysu_pblmix = "NO" ;
		:config_n_microp = 1 ;
		:config_radtlw_interval = "00:05:00" ;
		:config_radtsw_interval = "00:05:00" ;
		:config_conv_interval = "none" ;
		:config_pbl_interval = "none" ;
		:config_camrad_abs_update = "06:00:00" ;
		:config_greeness_update = "24:00:00" ;
		:config_bucket_update = "none" ;
		:config_physics_suite = "mesoscale_reference" ;
		:config_microp_scheme = "mp_wsm6" ;
		:config_convection_scheme = "cu_ntiedtke" ;
		:config_lsm_scheme = "noah" ;
		:config_pbl_scheme = "bl_ysu" ;
		:config_gwdo_scheme = "bl_ysu_gwdo" ;
		:config_radt_cld_scheme = "cld_fraction" ;
		:config_radt_lw_scheme = "rrtmg_lw" ;
		:config_radt_sw_scheme = "rrtmg_sw" ;
		:config_sfclayer_scheme = "sf_monin_obukhov" ;
		:config_gfconv_closure_deep = 0 ;
		:config_gfconv_closure_shallow = 8 ;
		:config_bucket_radt = 1.e+09f ;
		:config_bucket_rainc = 100.f ;
		:config_bucket_rainnc = 100.f ;
		:config_oml1d = "NO" ;
		:config_oml_hml0 = 30.f ;
		:config_oml_gamma = 0.14f ;
		:config_oml_relaxation_time = 864000.f ;
		:config_sounding_interval = "none" ;
		:file_id = "pc44pty5pr" ;
}