TMPDIR IS >>>>>> /gpfs/home/acad/ucl-elic/adelhass/scratch_limhr/sosie/TMP_7 <<<<<<< 1983 19831231 Two files were found for the time stamp 19831231! ========================================================== S O S I E version 3.0 ========================================================== * namelist = namelist GET_ARGUMENTS() OK Opening namelist "namelist" The current field is NOT a component of a vector! Source grid is declared as irregular Target grid is declared as irregular Source file: mask_in_nh-19831231.nc Method for 2D interoplation: bilin Time record name in source file: time File containing the source grid: mask_in_nh-19831231.nc Longitude name: lon Latitude name: lat Source grid mask: missing_value Source mask variable: Variable to be treated:mask Level to treat: 1 Name of variable on the output file:tmask Units of variable to be treated: Long name of variable to be treated:tmask Target grid: /gpfs/home/acad/ucl-elic/adelhass/git/EnKF/conversion_uf/mask-ORCA1.nc Longitude on target grid: nav_lon Latitude on target grid: nav_lat Longitude name in target file: nav_lon Latitude name in target file: nav_lat Target land-sea mask file: /gpfs/home/acad/ucl-elic/adelhass/git/EnKF/conversion_uf/mask-ORCA1.nc Name of land-sea mask variable on target grid: tmask Output file: ./tmask_OSI-SAF-450-ORCA1_19831231.nc Shall we use DROWN on source fields: T => about DROWN action: -> continental penetration in # of pixels: 100 -> # of time to apply a smoothing on continents after DROWN: 50 -> is the mask on the source field is changing with time : F East west periodicity of source grid: 0 Masking output file: T Value for masked points in output file: -100000000. East west periodicity of target grid: 2 Time is not controlled and will be the same than in source file! --------------------- Starting interpolation for config "OSI-SAF-450-ORCA1"... Read namelist OK Setting for logical flags OK Variable is 2D with time axis Opening irregular grid lon, lat in file: mask_in_nh-19831231.nc rd_grid: get var2D lon in the else HELLO GETVAR_2D_R8 --- GETVAR_2D: opening file mask_in_nh-19831231.nc for lon ! --- GETVAR_2D: closing file mask_in_nh-19831231.nc ! rd_grid: get var2D lon OK in the else rd_grid: get var2D lat in the else HELLO GETVAR_2D_R8 --- GETVAR_2D: opening file mask_in_nh-19831231.nc for lat ! --- GETVAR_2D: closing file mask_in_nh-19831231.nc ! rd_grid: get var2D lat in the else OK *** Minimum longitude on source domain before reorg. : -179.867065 *** Maximum longitude on source domain before reorg. : 179.867065 *** Minimum longitude on source domain now: 0.132936612 *** Maximum longitude on source domain now: 359.867065 Looks like global setup (longitude-wise at least...) --- GETVAR_3D_R4: opening file mask_in_nh-19831231.nc for mask ! --- GETVAR_3D_R4: closing file mask_in_nh-19831231.nc ! Opening land-sea mask "source" from missing_value of source field "mask"! *** CHECK_4_MISS: found missing value attribute _FillValue for mask ! ( into mask_in_nh-19831231.nc) => value = -32768.0000 MODULE mod_grids, getting source domain and metrics OK Will CALL GETVAR_ATTRIBUTES(cf_x_src, cv_lon_src, nb_att_lon_src, vatt_info_lon_src) GETVAR_ATTRIBUTES LON OK Will CALL GETVAR_ATTRIBUTES(cf_x_src, cv_lat_src, nb_att_lat_src, vatt_info_lat_src) GETVAR_ATTRIBUTES LAT OK Will CALL know_dim_trg() ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Target grid dimension is 362 x 292 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ know_dim_trg OK Will call get_trg_conf in the ELSE get_trg_conf: enter in cmethod /= no_xy get_trg_conf: Will call rd_grid in the else Opening irregular grid nav_lon, nav_lat in file: /gpfs/home/acad/ucl-elic/adelhass/git/EnKF/conversion_uf/mask-ORCA1.nc rd_grid: get var2D lon in the else HELLO GETVAR_2D_R8 --- GETVAR_2D: opening file /gpfs/home/acad/ucl-elic/adelhass/git/EnKF/conversion_uf/mask-ORCA1.nc for nav_lon ! Resources Used Total Memory used - MEM : 96KiB Total CPU Time - CPU_Time : 00:00:16 Execution Time - Wall_Time : 00:00:16 total programme cpu time - Total_CPU : 00:14.987 Total_CPU / CPU_Time (%) - ETA : 87% Number of alloc CPU - NCPUS : 1 Number of Mobilized Resources per Job - NCPUS_EQUIV_PJOB : 67 Mobilized Resources x Execution Time - R_Wall_Time : 00:17:52 CPU_Time / R_Wall_Time (%) - ALPHA : 1%