Attributes { ntimes { String long_name "number of long time-steps"; } ndtfast { String long_name "number of short time-steps"; } dt { String long_name "size of long time-steps"; String units "second"; } dtfast { String long_name "size of short time-steps"; String units "second"; } dstart { String long_name "time stamp assigned to model initilization"; String units "days since 1970-01-01 00:00:00"; } shuffle { String long_name "NetCDF-4/HDF5 file format shuffle filer flag"; } deflate { String long_name "NetCDF-4/HDF5 file format deflate filer flag"; } deflate_level { String long_name "NetCDF-4/HDF5 file format deflate level parameter"; } nHIS { String long_name "number of time-steps between history records"; } ndefHIS { String long_name "number of time-steps between the creation of history files"; } nRST { String long_name "number of time-steps between restart records"; } ntsAVG { String long_name "starting time-step for accumulation of time-averaged fields"; } nAVG { String long_name "number of time-steps between time-averaged records"; } ndefAVG { String long_name "number of time-steps between the creation of average files"; } nSTA { String long_name "number of time-steps between stations records"; } Falpha { String long_name "Power-law shape barotropic filter parameter"; } Fbeta { String long_name "Power-law shape barotropic filter parameter"; } Fgamma { String long_name "Power-law shape barotropic filter parameter"; } Akt_bak { String long_name "background vertical mixing coefficient for tracers"; String units "meter2 second-1"; } Akv_bak { String long_name "background vertical mixing coefficient for momentum"; String units "meter2 second-1"; } Akk_bak { String long_name "background vertical mixing coefficient for turbulent energy"; String units "meter2 second-1"; } Akp_bak { String long_name "background vertical mixing coefficient for length scale"; String units "meter2 second-1"; } rdrg { String long_name "linear drag coefficient"; String units "meter second-1"; } rdrg2 { String long_name "quadratic drag coefficient"; } Zob { String long_name "bottom roughness"; String units "meter"; } Zos { String long_name "surface roughness"; String units "meter"; } gls_p { String long_name "stability exponent"; } gls_m { String long_name "turbulent kinetic energy exponent"; } gls_n { String long_name "turbulent length scale exponent"; } gls_cmu0 { String long_name "stability coefficient"; } gls_c1 { String long_name "shear production coefficient"; } gls_c2 { String long_name "dissipation coefficient"; } gls_c3m { String long_name "buoyancy production coefficient (minus)"; } gls_c3p { String long_name "buoyancy production coefficient (plus)"; } gls_sigk { String long_name "constant Schmidt number for TKE"; } gls_sigp { String long_name "constant Schmidt number for PSI"; } gls_Kmin { String long_name "minimum value of specific turbulent kinetic energy"; } gls_Pmin { String long_name "minimum Value of dissipation"; } Charnok_alpha { String long_name "Charnok factor for surface roughness"; } Zos_hsig_alpha { String long_name "wave amplitude factor for surface roughness"; } sz_alpha { String long_name "surface flux from wave dissipation"; } CrgBan_cw { String long_name "surface flux due to Craig and Banner wave breaking"; } Znudg { String long_name "free-surface nudging/relaxation inverse time scale"; String units "day-1"; } M2nudg { String long_name "2D momentum nudging/relaxation inverse time scale"; String units "day-1"; } M3nudg { String long_name "3D momentum nudging/relaxation inverse time scale"; String units "day-1"; } Tnudg { String long_name "Tracers nudging/relaxation inverse time scale"; String units "day-1"; } FSobc_in { String long_name "free-surface inflow, nudging inverse time scale"; String units "second-1"; } FSobc_out { String long_name "free-surface outflow, nudging inverse time scale"; String units "second-1"; } M2obc_in { String long_name "2D momentum inflow, nudging inverse time scale"; String units "second-1"; } M2obc_out { String long_name "2D momentum outflow, nudging inverse time scale"; String units "second-1"; } Tobc_in { String long_name "tracers inflow, nudging inverse time scale"; String units "second-1"; } Tobc_out { String long_name "tracers outflow, nudging inverse time scale"; String units "second-1"; } M3obc_in { String long_name "3D momentum inflow, nudging inverse time scale"; String units "second-1"; } M3obc_out { String long_name "3D momentum outflow, nudging inverse time scale"; String units "second-1"; } rho0 { String long_name "mean density used in Boussinesq approximation"; String units "kilogram meter-3"; } gamma2 { String long_name "slipperiness parameter"; } LuvSrc { String long_name "momentum point sources and sink activation switch"; Int32 flag_values 0, 1; String flag_meanings ".FALSE. .TRUE."; } LwSrc { String long_name "mass point sources and sink activation switch"; Int32 flag_values 0, 1; String flag_meanings ".FALSE. .TRUE."; } LtracerSrc { String long_name "tracer point sources and sink activation switch"; Int32 flag_values 0, 1; String flag_meanings ".FALSE. .TRUE."; } LsshCLM { String long_name "sea surface height climatology processing switch"; Int32 flag_values 0, 1; String flag_meanings ".FALSE. .TRUE."; } Lm2CLM { String long_name "2D momentum climatology processing switch"; Int32 flag_values 0, 1; String flag_meanings ".FALSE. .TRUE."; } Lm3CLM { String long_name "3D momentum climatology processing switch"; Int32 flag_values 0, 1; String flag_meanings ".FALSE. .TRUE."; } LtracerCLM { String long_name "tracer climatology processing switch"; Int32 flag_values 0, 1; String flag_meanings ".FALSE. .TRUE."; } LnudgeM2CLM { String long_name "2D momentum climatology nudging activation switch"; Int32 flag_values 0, 1; String flag_meanings ".FALSE. .TRUE."; } LnudgeM3CLM { String long_name "3D momentum climatology nudging activation switch"; Int32 flag_values 0, 1; String flag_meanings ".FALSE. .TRUE."; } LnudgeTCLM { String long_name "tracer climatology nudging activation switch"; Int32 flag_values 0, 1; String flag_meanings ".FALSE. .TRUE."; } spherical { String long_name "grid type logical switch"; Int32 flag_values 0, 1; String flag_meanings "Cartesian spherical"; } xl { String long_name "domain length in the XI-direction"; String units "meter"; } el { String long_name "domain length in the ETA-direction"; String units "meter"; } Vtransform { String long_name "vertical terrain-following transformation equation"; } Vstretching { String long_name "vertical terrain-following stretching function"; } theta_s { String long_name "S-coordinate surface control parameter"; } theta_b { String long_name "S-coordinate bottom control parameter"; } Tcline { String long_name "S-coordinate surface/bottom layer width"; String units "meter"; } hc { String long_name "S-coordinate parameter, critical depth"; String units "meter"; } grid { String cf_role "grid_topology"; Int32 topology_dimension 2; String node_dimensions "xi_psi eta_psi"; String face_dimensions "xi_rho: xi_psi (padding: both) eta_rho: eta_psi (padding: both)"; String edge1_dimensions "xi_u: xi_psi eta_u: eta_psi (padding: both)"; String edge2_dimensions "xi_v: xi_psi (padding: both) eta_v: eta_psi"; String node_coordinates "lon_psi lat_psi"; String face_coordinates "lon_rho lat_rho"; String edge1_coordinates "lon_u lat_u"; String edge2_coordinates "lon_v lat_v"; String vertical_dimensions "s_rho: s_w (padding: none)"; } s_rho { String long_name "S-coordinate at RHO-points"; Float64 valid_min -1.000000000000000; Float64 valid_max 0.000000000000000; String positive "up"; String standard_name "ocean_s_coordinate_g2"; String formula_terms "s: s_rho C: Cs_r eta: zeta depth: h depth_c: hc"; String field "s_rho, scalar"; } s_w { String long_name "S-coordinate at W-points"; Float64 valid_min -1.000000000000000; Float64 valid_max 0.000000000000000; String positive "up"; String standard_name "ocean_s_coordinate_g2"; String formula_terms "s: s_w C: Cs_w eta: zeta depth: h depth_c: hc"; String field "s_w, scalar"; } Cs_r { String long_name "S-coordinate stretching curves at RHO-points"; Float64 valid_min -1.000000000000000; Float64 valid_max 0.000000000000000; String field "Cs_r, scalar"; } Cs_w { String long_name "S-coordinate stretching curves at W-points"; Float64 valid_min -1.000000000000000; Float64 valid_max 0.000000000000000; String field "Cs_w, scalar"; } h { String long_name "bathymetry at RHO-points"; String units "meter"; String grid "grid"; String location "face"; String coordinates "lon_rho lat_rho"; String field "bath, scalar"; } f { String long_name "Coriolis parameter at RHO-points"; String units "second-1"; String grid "grid"; String location "face"; String coordinates "lon_rho lat_rho"; String field "coriolis, scalar"; } pm { String long_name "curvilinear coordinate metric in XI"; String units "meter-1"; String grid "grid"; String location "face"; String coordinates "lon_rho lat_rho"; String field "pm, scalar"; } pn { String long_name "curvilinear coordinate metric in ETA"; String units "meter-1"; String grid "grid"; String location "face"; String coordinates "lon_rho lat_rho"; String field "pn, scalar"; } lon_rho { String long_name "longitude of RHO-points"; String units "degree_east"; String standard_name "longitude"; String field "lon_rho, scalar"; } lat_rho { String long_name "latitude of RHO-points"; String units "degree_north"; String standard_name "latitude"; String field "lat_rho, scalar"; } lon_u { String long_name "longitude of U-points"; String units "degree_east"; String standard_name "longitude"; String field "lon_u, scalar"; } lat_u { String long_name "latitude of U-points"; String units "degree_north"; String standard_name "latitude"; String field "lat_u, scalar"; } lon_v { String long_name "longitude of V-points"; String units "degree_east"; String standard_name "longitude"; String field "lon_v, scalar"; } lat_v { String long_name "latitude of V-points"; String units "degree_north"; String standard_name "latitude"; String field "lat_v, scalar"; } lon_psi { String long_name "longitude of PSI-points"; String units "degree_east"; String standard_name "longitude"; String field "lon_psi, scalar"; } lat_psi { String long_name "latitude of PSI-points"; String units "degree_north"; String standard_name "latitude"; String field "lat_psi, scalar"; } angle { String long_name "angle between XI-axis and EAST"; String units "radians"; String grid "grid"; String location "face"; String coordinates "lon_rho lat_rho"; String field "angle, scalar"; } mask_rho { String long_name "mask on RHO-points"; Float64 flag_values 0.000000000000000, 1.000000000000000; String flag_meanings "land water"; String grid "grid"; String location "face"; String coordinates "lon_rho lat_rho"; } mask_u { String long_name "mask on U-points"; Float64 flag_values 0.000000000000000, 1.000000000000000; String flag_meanings "land water"; String grid "grid"; String location "edge1"; String coordinates "lon_u lat_u"; } mask_v { String long_name "mask on V-points"; Float64 flag_values 0.000000000000000, 1.000000000000000; String flag_meanings "land water"; String grid "grid"; String location "edge2"; String coordinates "lon_v lat_v"; } mask_psi { String long_name "mask on psi-points"; Float64 flag_values 0.000000000000000, 1.000000000000000; String flag_meanings "land water"; String grid "grid"; String location "node"; String coordinates "lon_psi lat_psi"; } ocean_time { String long_name "time since initialization"; String units "seconds since 1970-01-01 00:00:00"; String calendar "gregorian"; String field "time, scalar, series"; } zeta { String long_name "free-surface"; String units "meter"; String time "ocean_time"; String grid "grid"; String location "face"; String coordinates "lon_rho lat_rho ocean_time"; String field "free-surface, scalar, series"; Float32 _FillValue 9.99999993e+36; } ubar { String long_name "vertically integrated u-momentum component"; String units "meter second-1"; String time "ocean_time"; String grid "grid"; String location "edge1"; String coordinates "lon_u lat_u ocean_time"; String field "ubar-velocity, scalar, series"; Float32 _FillValue 9.99999993e+36; } vbar { String long_name "vertically integrated v-momentum component"; String units "meter second-1"; String time "ocean_time"; String grid "grid"; String location "edge2"; String coordinates "lon_v lat_v ocean_time"; String field "vbar-velocity, scalar, series"; Float32 _FillValue 9.99999993e+36; } u { String long_name "u-momentum component"; String units "meter second-1"; String time "ocean_time"; String grid "grid"; String location "edge1"; String coordinates "lon_u lat_u s_rho ocean_time"; String field "u-velocity, scalar, series"; Float32 _FillValue 9.99999993e+36; } v { String long_name "v-momentum component"; String units "meter second-1"; String time "ocean_time"; String grid "grid"; String location "edge2"; String coordinates "lon_v lat_v s_rho ocean_time"; String field "v-velocity, scalar, series"; Float32 _FillValue 9.99999993e+36; } temp { String long_name "potential temperature"; String units "Celsius"; String time "ocean_time"; String grid "grid"; String location "face"; String coordinates "lon_rho lat_rho s_rho ocean_time"; String field "temperature, scalar, series"; Float32 _FillValue 9.99999993e+36; } salt { String long_name "salinity"; String time "ocean_time"; String grid "grid"; String location "face"; String coordinates "lon_rho lat_rho s_rho ocean_time"; String field "salinity, scalar, series"; Float32 _FillValue 9.99999993e+36; } AKv { String long_name "vertical viscosity coefficient"; String units "meter2 second-1"; String time "ocean_time"; String grid "grid"; String location "face"; String coordinates "lon_rho lat_rho s_w ocean_time"; String field "AKv, scalar, series"; } AKt { String long_name "temperature vertical diffusion coefficient"; String units "meter2 second-1"; String time "ocean_time"; String grid "grid"; String location "face"; String coordinates "lon_rho lat_rho s_w ocean_time"; String field "AKt, scalar, series"; } AKs { String long_name "salinity vertical diffusion coefficient"; String units "meter2 second-1"; String time "ocean_time"; String grid "grid"; String location "face"; String coordinates "lon_rho lat_rho s_w ocean_time"; String field "AKs, scalar, series"; } tke { String long_name "turbulent kinetic energy"; String units "meter2 second-2"; String time "ocean_time"; String grid "grid"; String location "face"; String coordinates "lon_rho lat_rho s_w ocean_time"; String field "tke, scalar, series"; } gls { String long_name "turbulent generic length scale"; String units "meter3 second-2"; String time "ocean_time"; String grid "grid"; String location "face"; String coordinates "lon_rho lat_rho s_w ocean_time"; String field "gls, scalar, series"; } NC_GLOBAL { String file "/cluster/work/users/ama133/metroms_run/arctic-4km/A4_long_run/2007/ocean_his_0238.nc"; String format "netCDF-4/HDF5 file"; String Conventions "CF-1.4, SGRID-0.3"; String type "ROMS/TOMS history file"; String title "ROMS 3.6 - Arctic-4km - Coupled ROMS-CICE"; String var_info "/cluster/projects/nn9824k/metroms_npi/metroms/apps/common/include/varinfo.dat_ERAatm"; String rst_file "ocean_rst.nc"; String his_base "/cluster/work/users/ama133/metroms_run/arctic-4km/A4_long_run/2007/ocean_his"; String avg_base "/cluster/work/users/ama133/metroms_run/arctic-4km/A4_long_run/2007/ocean_avg"; String sta_file "/cluster/work/users/ama133/metroms_run/arctic-4km/A4_long_run/2007/ocean_sta.nc"; String grd_file "/cluster/projects/nn9824k/metroms_npi/metroms/apps/common/grid/arctic4km_grd.nc"; String ini_file "/cluster/work/users/ama133/metroms_run/arctic-4km/ocean_ini.nc"; String frc_file_01 "/cluster/work/users/ama133/metroms_run/arctic-4km/tide.nc"; String frc_file_02 "/cluster/work/users/ama133/metroms_run/arctic-4km/era5_2007_intrp.nc"; String bry_file "/cluster/work/users/ama133/metroms_run/arctic-4km/ocean_bry_KLAR.nc"; String clm_file "/cluster/work/users/ama133/metroms_run/arctic-4km/ocean_clm_KLAR.nc_v2"; String script_file ""; String spos_file "stations.in"; String NLM_LBC " EDGE: WEST SOUTH EAST NORTH zeta: Cha Clo Cha Cha ubar: Fla Clo Fla Fla vbar: Fla Clo Fla Fla u: RadNud Clo RadNud RadNud v: RadNud Clo RadNud RadNud temp: RadNud Clo RadNud RadNud salt: RadNud Clo RadNud RadNud tke: Gra Clo Gra Gra"; String svn_url "https://www.myroms.org/svn/src/trunk"; String svn_rev "Unversioned directory"; String code_dir "/cluster/work/users/ama133/metroms_run/roms_src"; String header_dir "/cluster/projects/nn9824k/metroms_npi/metroms/apps/arctic-4km//include"; String header_file "arctic-4km.h"; String os "Linux"; String cpu "x86_64"; String compiler_system "ifort"; String compiler_command "/cluster/software/impi/2018.3.222-iccifort-2018.3.222-GCC-7.3.0-2.30/bin64/mpif9"; String compiler_flags "-xHost -I/cluster/work/users/ama133/metroms_run/roms_src/../MCT/include -I/cluster/work/users/ama133/metroms_run/roms_src/../arctic-4km/cice/rundir/compile -fr"; String tiling "016x024"; String history "ROMS/TOMS, Version 3.7, Wednesday - June 15, 2022 - 2:41:12 PM"; String ana_file "ROMS/Functionals/ana_btflux.h, ROMS/Functionals/ana_srflux.h"; String CPP_options "ARCTIC4KM, ADD_FSOBC, ADD_M2OBC, ALBEDO, ANA_BSFLUX, ANA_BTFLUX, ANA_SRFLUX, ASSUMED_SHAPE, ATM_PRESS, AVERAGES, BULK_FLUXES, CANUTO_A CHARNOK, CRAIG_BANNER, COOL_SKIN, CURVGRID, DEFLATE, DJ_GRADPS, DOUBLE_PRECISION, EMINUSP, GLS_MIXING, HDF5, LONGWAVE, MASKING, MCT_LIB, MPI, NONLINEAR, NONLIN_EOS, NO_LBC_ATT, N2S2_HORAVG, POWER_LAW, PROFILE, K_C4ADVECTION, RADIATION_2D, RAMP_TIDES, RI_SPLINES, !RST_SINGLE, SALINITY, SOLAR_SOURCE, SOLVE3D, SPLINES_VDIFF, SPLINES_VVISC, SSH_TIDES, STATIONS, STATIONS_CGRID, TS_U3HADVECTION, TS_C4VADVECTION, UV_ADV, UV_COR, UV_U3HADVECTION, UV_C4VADVECTION, UV_QDRAG, UV_TIDES, VAR_RHO_2D"; } DODS_EXTRA { String Unlimited_Dimension "ocean_time"; } }