Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230600.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230600.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201200.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. ******************************************************* * Storm Surge Calculation System (SSCS) * ******************************************************* Now is : 2020-08-23 12:31:09.803870 UTC inp1= 20200820.15 ncores= 2 var= rain lw= aa.txt stormname!!!!!!!!!!!!!!!= 1000701/NOAA dtBullHolland= 6 submitting calc 2020-08-20 15:00:00 2020-08-23 09:00:00 delft3d -98.0 -75.0 12.0 32.0 4.0 holland 72 15 True GDACS/1000701/2_holland 6 1 False False 2 aa.txt 20200820.15 1000701/NOAA 6 rain False *************---------------------****************** forcing GDACS home dir /mnt/output/SSCS/2020/GDACS/1000701/2_holland/ ret 0 classifications ============================================ 1. Set INPUT/OUTPUT ============================================ startdate 2020-08-20 15:00:00 currdate 2020-08-23 09:00:00 ndt: 66 delta: 6 nt1=delta 6 nt 72 alldate: DatetimeIndex(['2020-08-20 15:00:00', '2020-08-20 21:00:00', '2020-08-21 03:00:00', '2020-08-21 09:00:00', '2020-08-21 15:00:00', '2020-08-21 21:00:00', '2020-08-22 03:00:00', '2020-08-22 09:00:00', '2020-08-22 15:00:00', '2020-08-22 21:00:00', '2020-08-23 03:00:00', '2020-08-23 09:00:00'], dtype='datetime64[ns]', freq='6H') ============================================ 2. Processing meteo files: nc2tif ============================================ >> 2.1. Process curr + past files lon0,lon1,lat0,lat1 -98.0 -75.0 12.0 32.0 processing curr bull... 2020-08-23 09:00:00 /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/ /mnt/input/etrap/2020/1000701/ **** 2020082309 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082306*.tif /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230600.06.tif storm name MARCO input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230600.06.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082309/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082309/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082309/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082309/all_inpData.txt currDate 2020-08-23 09:00:00 f 12 nt-1 5 nt 6 currDate1 2020-08-23 09:00:00 2020-08-23 15:00:00 sdate 2020-08-23 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TD'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0.jpg /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/ /mnt/input/etrap/2020/1000701/ **** 2020082309 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082306*.tif /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230600.06.tif storm name MARCO input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230600.24.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082309/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082309/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082309/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082309/all_inpData.txt currDate 2020-08-23 09:00:00 f 12 nt-1 23 nt 24 currDate1 2020-08-23 09:00:00 2020-08-24 09:00:00 sdate 2020-08-24 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TD'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.jpg processing all past bull only if Past=True... True itdate, istime 2020-08-20 15:00:00 20200820.15 /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/ /mnt/input/etrap/2020/1000701/ **** 2020082015 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082012*.tif /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201200.06.tif storm name FOURTEEN input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201200.06.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082015/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082015/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082015/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082015/all_inpData.txt currDate 2020-08-20 15:00:00 f 1 nt-1 5 nt 6 currDate1 2020-08-20 15:00:00 2020-08-20 21:00:00 sdate 2020-08-20 21:00:00 -2 CAT ['TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0.jpg /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/ /mnt/input/etrap/2020/1000701/ **** 2020082015 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082012*.tif /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201200.06.tif storm name FOURTEEN inpuCreating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201200.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201800.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201800.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210000.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. t file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201200.24.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082015/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082015/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082015/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082015/all_inpData.txt currDate 2020-08-20 15:00:00 f 1 nt-1 23 nt 24 currDate1 2020-08-20 15:00:00 2020-08-21 15:00:00 sdate 2020-08-21 15:00:00 -2 CAT ['TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.jpg itdate, istime 2020-08-20 21:00:00 20200820.21 /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/ /mnt/input/etrap/2020/1000701/ **** 2020082021 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082018*.tif /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201800.06.tif storm name FOURTEEN input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201800.06.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082021/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082021/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082021/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082021/all_inpData.txt currDate 2020-08-20 21:00:00 f 2 nt-1 5 nt 6 currDate1 2020-08-20 21:00:00 2020-08-21 03:00:00 sdate 2020-08-21 03:00:00 -2 CAT ['TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0.jpg /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/ /mnt/input/etrap/2020/1000701/ **** 2020082021 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082018*.tif /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201800.06.tif storm name FOURTEEN input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201800.24.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08201800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082021/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082021/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082021/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082021/all_inpData.txt currDate 2020-08-20 21:00:00 f 2 nt-1 23 nt 24 currDate1 2020-08-20 21:00:00 2020-08-21 21:00:00 sdate 2020-08-21 21:00:00 -2 CAT ['TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.jpg itdate, istime 2020-08-21 03:00:00 20200821.03 /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/ /mnt/input/etrap/2020/1000701/ **** 2020082103 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082100*.tif /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210000.06.tif storm name FOURTEEN input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210000.06.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082103/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082103/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082103/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082103/all_inpData.txt currDate 2020-08-21 03:00:00 f 3 nt-1 5 nt 6 currDate1 2020-08-21 03:00:00 2020-08-21 09:00:00 sdate 2020-08-21 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'TS', 'TS', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0.jpg /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/ /mnt/input/etrap/2020/1000701/ *Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210000.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210600.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210600.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211200.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. *** 2020082103 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082100*.tif /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210000.06.tif storm name FOURTEEN input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210000.24.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082103/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082103/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082103/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082103/all_inpData.txt currDate 2020-08-21 03:00:00 f 3 nt-1 23 nt 24 currDate1 2020-08-21 03:00:00 2020-08-22 03:00:00 sdate 2020-08-22 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'TS', 'TS', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.jpg itdate, istime 2020-08-21 09:00:00 20200821.09 /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/ /mnt/input/etrap/2020/1000701/ **** 2020082109 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082106*.tif /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210600.06.tif storm name FOURTEEN input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210600.06.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082109/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082109/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082109/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082109/all_inpData.txt currDate 2020-08-21 09:00:00 f 4 nt-1 5 nt 6 currDate1 2020-08-21 09:00:00 2020-08-21 15:00:00 sdate 2020-08-21 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0.jpg /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/ /mnt/input/etrap/2020/1000701/ **** 2020082109 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082106*.tif /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210600.06.tif storm name FOURTEEN input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210600.24.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08210600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082109/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082109/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082109/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082109/all_inpData.txt currDate 2020-08-21 09:00:00 f 4 nt-1 23 nt 24 currDate1 2020-08-21 09:00:00 2020-08-22 09:00:00 sdate 2020-08-22 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.jpg itdate, istime 2020-08-21 15:00:00 20200821.15 /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/ /mnt/input/etrap/2020/1000701/ **** 2020082115 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082112*.tif /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211200.06.tif storm name FOURTEEN input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211200.06.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082115/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082115/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082115/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082115/all_inpData.txt currDate 2020-08-21 15:00:00 f 5 nt-1 5 nt 6 currDate1 2020-08-21 15:00:00 2020-08-21 21:00:00 sdate 2020-08-21 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'TS'] savemap /mnt/output/SSCCreating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211200.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211800.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211800.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220000.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. S/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0.jpg /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/ /mnt/input/etrap/2020/1000701/ **** 2020082115 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082112*.tif /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211200.06.tif storm name FOURTEEN input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211200.24.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082115/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082115/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082115/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082115/all_inpData.txt currDate 2020-08-21 15:00:00 f 5 nt-1 23 nt 24 currDate1 2020-08-21 15:00:00 2020-08-22 15:00:00 sdate 2020-08-22 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.jpg itdate, istime 2020-08-21 21:00:00 20200821.21 /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/ /mnt/input/etrap/2020/1000701/ **** 2020082121 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082118*.tif /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211800.06.tif storm name FOURTEEN input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211800.06.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082121/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082121/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082121/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082121/all_inpData.txt currDate 2020-08-21 21:00:00 f 6 nt-1 5 nt 6 currDate1 2020-08-21 21:00:00 2020-08-22 03:00:00 sdate 2020-08-22 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0.jpg /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/ /mnt/input/etrap/2020/1000701/ **** 2020082121 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082118*.tif /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211800.06.tif storm name FOURTEEN input file /mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211800.24.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020FOURTEEN.pmqpf.08211800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082121/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082121/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082121/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082121/all_inpData.txt currDate 2020-08-21 21:00:00 f 6 nt-1 23 nt 24 currDate1 2020-08-21 21:00:00 2020-08-22 21:00:00 sdate 2020-08-22 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.jpg itdate, istime 2020-08-22 03:00:00 20200822.03 /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/ /mnt/input/etrap/2020/1000701/ **** 2020082203 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082200*.tif /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220000.06.tif storm name MARCO input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220000.06.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082203/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082203/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082203/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082203/all_inpDataCreating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220000.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220600.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220600.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221200.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. .txt currDate 2020-08-22 03:00:00 f 7 nt-1 5 nt 6 currDate1 2020-08-22 03:00:00 2020-08-22 09:00:00 sdate 2020-08-22 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0.jpg /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/ /mnt/input/etrap/2020/1000701/ **** 2020082203 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082200*.tif /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220000.06.tif storm name MARCO input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220000.24.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082203/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082203/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082203/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082203/all_inpData.txt currDate 2020-08-22 03:00:00 f 7 nt-1 23 nt 24 currDate1 2020-08-22 03:00:00 2020-08-23 03:00:00 sdate 2020-08-23 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.jpg itdate, istime 2020-08-22 09:00:00 20200822.09 /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/ /mnt/input/etrap/2020/1000701/ **** 2020082209 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082206*.tif /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220600.06.tif storm name MARCO input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220600.06.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082209/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082209/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082209/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082209/all_inpData.txt currDate 2020-08-22 09:00:00 f 8 nt-1 5 nt 6 currDate1 2020-08-22 09:00:00 2020-08-22 15:00:00 sdate 2020-08-22 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0.jpg /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/ /mnt/input/etrap/2020/1000701/ **** 2020082209 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082206*.tif /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220600.06.tif storm name MARCO input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220600.24.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08220600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082209/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082209/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082209/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082209/all_inpData.txt currDate 2020-08-22 09:00:00 f 8 nt-1 23 nt 24 currDate1 2020-08-22 09:00:00 2020-08-23 09:00:00 sdate 2020-08-23 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.jpg itdate, istime 2020-08-22 15:00:00 20200822.15 /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/ /mnt/input/etrap/2020/1000701/ **** 2020082215 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082212*.tif /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221200.06.tif storm name MARCO input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221200.06.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082215/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOACreating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221200.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221800.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221800.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230000.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. A/2020082215/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082215/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082215/all_inpData.txt currDate 2020-08-22 15:00:00 f 9 nt-1 5 nt 6 currDate1 2020-08-22 15:00:00 2020-08-22 21:00:00 sdate 2020-08-22 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0.jpg /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/ /mnt/input/etrap/2020/1000701/ **** 2020082215 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082212*.tif /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221200.06.tif storm name MARCO input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221200.24.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082215/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082215/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082215/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082215/all_inpData.txt currDate 2020-08-22 15:00:00 f 9 nt-1 23 nt 24 currDate1 2020-08-22 15:00:00 2020-08-23 15:00:00 sdate 2020-08-23 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.jpg itdate, istime 2020-08-22 21:00:00 20200822.21 /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/ /mnt/input/etrap/2020/1000701/ **** 2020082221 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082218*.tif /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221800.06.tif storm name MARCO input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221800.06.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082221/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082221/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082221/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082221/all_inpData.txt currDate 2020-08-22 21:00:00 f 10 nt-1 5 nt 6 currDate1 2020-08-22 21:00:00 2020-08-23 03:00:00 sdate 2020-08-23 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0.jpg /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/ /mnt/input/etrap/2020/1000701/ **** 2020082221 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082218*.tif /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221800.06.tif storm name MARCO input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221800.24.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08221800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082221/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082221/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082221/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082221/all_inpData.txt currDate 2020-08-22 21:00:00 f 10 nt-1 23 nt 24 currDate1 2020-08-22 21:00:00 2020-08-23 21:00:00 sdate 2020-08-23 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.jpg itdate, istime 2020-08-23 03:00:00 20200823.03 /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/ /mnt/input/etrap/2020/1000701/ **** 2020082303 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082300*.tif /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230000.06.tif storm name MARCO input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230000.06.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823Creating output file that is 767P x 667L. Processing input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230000.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 230P x 200L. Processing /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. 0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done 0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done 0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done 0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done 0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done 0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done 0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done 0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done 0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done 0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done 0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done Creating output file that is 230P x 200L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif. Using internal nodata values (e.g. 1.17549e-38) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final_res.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. .03_rain_stept0.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082303/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082303/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082303/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082303/all_inpData.txt currDate 2020-08-23 03:00:00 f 11 nt-1 5 nt 6 currDate1 2020-08-23 03:00:00 2020-08-23 09:00:00 sdate 2020-08-23 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0.jpg /mnt/input/etrap/2020/1000701/ /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/ /mnt/input/etrap/2020/1000701/ **** 2020082303 /mnt/input/etrap/2020/1000701/2020*.pmqpf.082300*.tif /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230000.06.tif storm name MARCO input file /mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230000.24.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -98.0 12.0 -75.0 32.0 -dstnodata 0 "/mnt/input/etrap/2020/1000701/2020MARCO.pmqpf.08230000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.tif dd: 0.030000000000001137 (-97.985, 0.030000000000001137, 0, 31.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082303/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082303/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082303/all_inpData.txt -97.985 -75.005 12.004999999999999 31.985 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082303/all_inpData.txt currDate 2020-08-23 03:00:00 f 11 nt-1 23 nt 24 currDate1 2020-08-23 03:00:00 2020-08-24 03:00:00 sdate 2020-08-24 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.jpg >> 2.2. Process final data files compfile /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/20200823.09_Final_completed_rain.txt FINAL alldate: DatetimeIndex(['2020-08-20 15:00:00', '2020-08-20 21:00:00', '2020-08-21 03:00:00', '2020-08-21 09:00:00', '2020-08-21 15:00:00', '2020-08-21 21:00:00', '2020-08-22 03:00:00', '2020-08-22 09:00:00', '2020-08-22 15:00:00', '2020-08-22 21:00:00', '2020-08-23 03:00:00', '2020-08-23 09:00:00'], dtype='datetime64[ns]', freq='6H') alldate.shape 12 date: 2020-08-20 21:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0.tif -B /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif --calc="(A+B)" date: 2020-08-21 03:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif --calc="(A+B)" date: 2020-08-21 09:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif --calc="(A+B)" date: 2020-08-21 15:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif --calc="(A+B)" date: 2020-08-21 21:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif --calc="(A+B)" date: 2020-08-22 03:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif --calc="(A+B)" date: 2020-08-22 09:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif --calc="(A+B)" date: 2020-08-22 15:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif --calc="(A+B)" date: 2020-08-22 21:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif --calc="(A+B)" date: 2020-08-23 03:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif --calc="(A+B)" date: 2020-08-23 09:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif --calc="(A+B)" max file created /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif create json /usr/bin/gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.json fieldname rainmm stormname 1000701/NOAA stormname 1000701/NOAA TCbullsource NOAA >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082309/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082309/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082309/all_inpData.txt -97.97 -74.98999999999913 11.989999999999242 31.97 lon 767 lat 667 read TC track /mnt/output/GDACS/TC/TCTrack/1000701/NOAA/2020082309/all_inpData.txt currDate 2020-08-23 09:00:00 f 12 nt-1 23 nt 24 currDate1 2020-08-23 09:00:00 2020-08-24 09:00:00 sdate 2020-08-24 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TD'] savemap /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_FINAL.jpg ret: 0 ============================================ 3. Classify meteo + GDACS index score ============================================ >> 3.1. Classify curr + past forecast Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15//rain_res_stept0.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21//rain_res_stept0.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03//rain_res_stept0.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15//rain_popfile_stept0_clipped.tif. 0..Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21//rain_popfile_stept0_clipped.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03//rain_popfile_stept0_clipped.tif. 0.10.........2010.10.....30.....2020..40.......30.30.50......40...6040......50...7050......60..80...60....70.90.....70...80.....8090......90...100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15//rain_countryfile_stept0_clipped.tif. ..Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21//rain_countryfile_stept0_clipped.tif. .Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03//rain_countryfile_stept0_clipped.tif. ..10.......101020.........30.2020......40....3030...50......4040...60......5050...70.......606080.........707090.........8080......9090......100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15/rain_popDensValues_stept0.xml outDir created popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15//rain_popfile_stept0_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03/rain_popDensValues_stept0.xml outDir created popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03//rain_popfile_stept0_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21/rain_popDensValues_stept0.xml outDir created popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21//rain_popfile_stept0_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21//rain_res_stept0.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15//rain_res_stept0.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09//rain_res_stept0.tif. 0.........101010........20.20.20.......3030...30......4040...40......5050...50......6060...60......7070...70......8080...80......9090...90.......100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15//rain_popfile_stept0_clipped.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09//rain_popfile_stept0_clipped.tif. 0....Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21//rain_popfile_stept0_clipped.tif. 0..1010.........202010........3030.....20...4040........305050.........604060.........705070.........806080.........909070.........80...90...100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15//rain_countryfile_stept0_clipped.tif. .Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21//rain_countryfile_stept0_clipped.tif. ..Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09//rain_countryfile_stept0_clipped.tif. ...10...10....10.20....20....30.20....30...40.....3040...50......4050...60......50.60.70........607080.........807090.........9080......90...100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21/rain_popDensValues_stept0.xml outDir created popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21//rain_popfile_stept0_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15/rain_popDensValues_stept0.xml outDir created popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15//rain_popfile_stept0_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09/rain_popDensValues_stept0.xml outDir created popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09//rain_popfile_stept0_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15//rain_res_stept0.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09//rain_res_stept0.tif. 0.Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03//rain_res_stept0.tif. 0.......1010....10....2020.......20.30.30........304040.........405050.........605060.........707060.........808070.........909080.........90...100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09//rain_popfile_stept0_clipped.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15//rain_popfile_stept0_clipped.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03//rain_popfile_stept0_clipped.tif. 0.........101010.........202020.........303030.........404040........50.50.50.......60.60..60......7070...70......8080...80......9090...90.......100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15//rain_countryfile_stept0_clipped.tif. .Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09//rain_countryfile_stept0_clipped.tif. ..Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03//rain_countryfile_stept0_clipped.tif. ...10...10....10.20....20....30..20...30..40......30.40.50.......40.50.60........506070.........607080.........807090.........9080......90...100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15/rain_popDensValues_stept0.xml outDir created popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15//rain_popfile_stept0_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09/rain_popDensValues_stept0.xml outDir created popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09//rain_popfile_stept0_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03/rain_popDensValues_stept0.xml outDir created popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03//rain_popfile_stept0_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09//rain_res_stept0.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03//rain_res_stept0.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21//rain_res_stept0.tif. 0.........101010........2020...20......3030...30......4040...40......5050...50......6060...60......7070...70......8080...80......9090...90.......100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09//rain_popfile_stept0_clipped.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21//rain_popfile_stept0_clipped.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03//rain_popfile_stept0_clipped.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........8080.80.......9090...90.......100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09//rain_countryfile_stept0_clipped.tif. ..Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21//rain_countryfile_stept0_clipped.tif. .Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03//rain_countryfile_stept0_clipped.tif. ....10....1010.20.........302020.......40...3030......50...4040......60....5050...70......6060...80.......707090.........8080......9090......100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21/rain_popDensValues_stept0.xml outDir created popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21//rain_popfile_stept0_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09/rain_popDensValues_stept0.xml outDir created popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09//rain_popfile_stept0_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03/rain_popDensValues_stept0.xml outDir created popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03//rain_popfile_stept0_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03/rain_popDensValues_stept0.xml >> 7. remove files done lim core t0 completed Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21//rain_res_all.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15//rain_res_all.tif. 0.Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03//rain_res_all.tif. 0......10...1010......20...2020......30...3030......40...4040......50...5050......60...6060......70...7070......80...8080......90...9090........100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15//rain_popfile_all_clipped.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03//rain_popfile_all_clipped.tif. 0....Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21//rain_popfile_all_clipped.tif. 0..10.10........202010........3030....20....4040........305050.........406060.........705070.........808060........90.90.70........80...90...100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21//rain_countryfile_all_clipped.tif. ..Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03//rain_countryfile_all_clipped.tif. .Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15//rain_countryfile_all_clipped.tif. ...10......101020.........302020.......40...30.30...50......4040...60......5050...70......60.6080.........707090.........8080......9090......100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15/rain_popDensValues_all.xml popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15//rain_popfile_all_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21/rain_popDensValues_all.xml popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21//rain_popfile_all_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03/rain_popDensValues_all.xml popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03//rain_popfile_all_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15//rain_res_all.tif. 0..Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21//rain_res_all.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09//rain_res_all.tif. 0...10.......101020.........203020.........403030........5040...40......6050...50......7060...60......8070...70......9080...80......90..90.....100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09//rain_popfile_all_clipped.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15//rain_popfile_all_clipped.tif. 0....Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21//rain_popfile_all_clipped.tif. 0..10.10........202010........30.30.20.......4040....30....50.50....40.....6060....50....70.70....60....80.80....70....9090.......80....90...100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15//rain_countryfile_all_clipped.tif. .Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09//rain_countryfile_all_clipped.tif. ..Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21//rain_countryfile_all_clipped.tif. .....1010....10..20...20......3020...30....40....30.40....50.....4050....60.....5060...70......7060...80......80.7090.........9080......90...100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21/rain_popDensValues_all.xml popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21//rain_popfile_all_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15/rain_popDensValues_all.xml popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15//rain_popfile_all_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09/rain_popDensValues_all.xml popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09//rain_popfile_all_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09//rain_res_all.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03//rain_res_all.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15//rain_res_all.tif. 0........10.10.10.......20.20.20.......30.30.30.......40.40.40.......50.50.50.......60.60.60.......70.70.70.......80.80.80.......90.90.90........100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09//rain_popfile_all_clipped.tif. 0.Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15//rain_popfile_all_clipped.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03//rain_popfile_all_clipped.tif. 0......10...10...1020.....20..30.......3040..20....40....50...3050.....60....40.60....70...50...70....80.60....80....90.70....90.....80....90...100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09//rain_countryfile_all_clipped.tif. .Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03//rain_countryfile_all_clipped.tif. .Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15//rain_countryfile_all_clipped.tif. ......10.10.10......20.20.....20...3030........304040.........505040.........606050........70.70.60.......80.80.70.....90...90....80.....90...100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09/rain_popDensValues_all.xml popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09//rain_popfile_all_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03/rain_popDensValues_all.xml popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03//rain_popfile_all_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15/rain_popDensValues_all.xml popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15//rain_popfile_all_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03//rain_res_all.tif. 0.Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21//rain_res_all.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09//rain_res_all.tif. 0......10...1010.....20....20.20....30....30.30....40....40.40....50...50...50..60....60....60.70....70....70.80....80.....8090...90......90....100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09//rain_popfile_all_clipped.tif. 0Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03//rain_popfile_all_clipped.tif. 0..Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21//rain_popfile_all_clipped.tif. 0.....1010........102020.........302030........40.30.40.......50.40.50......60..50...60...70...60.....7080...70......90..80.80.......9090......100 - done. 100 - done. 100 - done. Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09//rain_countryfile_all_clipped.tif. .Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21//rain_countryfile_all_clipped.tif. ...Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03//rain_countryfile_all_clipped.tif. ....1010.....10..20.20........203030.........4040..30......5050...40......6060...50.....70.70.....60...8080......70..9090.........80...90...100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09/rain_popDensValues_all.xml popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09//rain_popfile_all_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03/rain_popDensValues_all.xml popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03//rain_popfile_all_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21/rain_popDensValues_all.xml popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21//rain_popfile_all_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21/rain_popDensValues_all.xml >> 7. remove files done lim core t0 completed ============================================ 4. Copy files ============================================ check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.15/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.15/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.15/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.15/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.15/20200820.15_rain.json in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.15/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.15/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.15/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.15/20200820.15_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.21/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200820.21/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.21/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.21/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200820.21/20200820.21_rain.json in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.21/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.21/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.21/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200820.21/20200820.21_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.03/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.03/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.03/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.03/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.03/20200821.03_rain.json in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.03/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.03/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.03/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.03/20200821.03_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.09/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.09/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.09/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.09/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.09/20200821.09_rain.json in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.09/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.09/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.09/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.09/20200821.09_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.15/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.15/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.15/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.15/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.15/20200821.15_rain.json in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.15/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.15/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.15/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.15/20200821.15_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.21/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200821.21/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.21/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.21/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200821.21/20200821.21_rain.json in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.21/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.21/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.21/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200821.21/20200821.21_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.03/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.03/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.03/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.03/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.03/20200822.03_rain.json in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.03/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.03/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.03/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.03/20200822.03_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.09/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.09/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.09/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.09/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.09/20200822.09_rain.json in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.09/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.09/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.09/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.09/20200822.09_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.15/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.15/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.15/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.15/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.15/20200822.15_rain.json in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.15/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.15/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.15/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.15/20200822.15_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.21/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200822.21/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.21/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.21/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200822.21/20200822.21_rain.json in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.21/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.Creating output file that is 2761P x 2401L. Processing input file /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif. Using internal nodata values (e.g. 1.17549e-38) for image /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/final//rain_res_final.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 2761P x 2401L. Processing input file /mnt/output/GDACS/DATA/lspop20141.tif. Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif. Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/final//rain_popfile_final_clipped.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 2761P x 2401L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif. Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/final//rain_countryfile_final_clipped.tif. ...10...20...30...40...50...60...70...80...90...100 - done. 21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.21/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.21/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200822.21/20200822.21_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.03/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.03/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.03/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.03/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.03/20200823.03_rain.json in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.03/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.03/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.03/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.03/20200823.03_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.09/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/20200823.09/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.09/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.09/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/20200823.09/20200823.09_rain.json in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.09/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.09/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.09/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/20200823.09/20200823.09_copy_completed_rain.txt >> 3.2. Classify final folder /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/final/20200823.09_final_completed_rain.txt input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/final// PopFile: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/final//rain_popfile_final_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/final//rain_countryfile_final_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/final/rain_popDensValues_final.xml outDir created popfile: LandScan popCellSize= 0.00833333333333 projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]] >> 1. resample the tif file to the resolution and proj of pop density 0.00833333333333 deg >> 2. read the charactristics of the input file >> 3a. extract a piece of pop. file corresponding to the required bounding box split,rastershift False -1 -97.985 11.9766666667 -74.9766666667 31.985 holland /usr/bin/gdalwarp -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/final//rain_popfile_final_clipped.tif" >> 3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density gdalwarp -r near -tr 0.00833333333333 0.00833333333333 -te -97.985 11.9766666667 -74.9766666667 31.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/final//rain_countryfile_final_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333332 cellsize 0.00833333333333 >> 5. count the popolation in each cell and assign to the class and write to output >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/final/rain_popDensValues_final.xml >> 7. remove files done copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/class/final/rain_popDensValues_final.xml in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/final/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_FINAL.jpg in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/final/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/tif/final/rain_final.json in: /mnt/output/SSCS/2020/GDACS/1000701/2_holland/delft3d/final/rain.json ******************************************************* * Case Completed * ******************************************************* Case starterd at: 2020-08-23 12:31:09.803870 UTC Case completed at: 2020-08-23 12:37:21.341905 UTC **********E N D O F J O B*********************** ******************************************************* * Storm Surge Calculation System (SSCS) * ******************************************************* Now is : 2020-08-23 12:41:13.190850 UTC inp1= 20200820.15 ncores= 2 var= rain lw= aa.txt stormname!!!!!!!!!!!!!!!= 1000701/NOAA dtBullHolland= 6 submitting calc 2020-08-20 15:00:00 2020-08-23 09:00:00 delft3d -98.0 -75.0 12.0 32.0 4.0 holland 72 15 True GDACS/1000701/2_holland 6 1 False False 2 aa.txt 20200820.15 1000701/NOAA 6 rain False *************---------------------****************** forcing GDACS home dir /mnt/output/SSCS/2020/GDACS/1000701/2_holland/ ret 0 classifications ============================================ 1. Set INPUT/OUTPUT ============================================ startdate 2020-08-20 15:00:00 currdate 2020-08-23 09:00:00 ndt: 66 delta: 6 nt1=delta 6 nt 72 alldate: DatetimeIndex(['2020-08-20 15:00:00', '2020-08-20 21:00:00', '2020-08-21 03:00:00', '2020-08-21 09:00:00', '2020-08-21 15:00:00', '2020-08-21 21:00:00', '2020-08-22 03:00:00', '2020-08-22 09:00:00', '2020-08-22 15:00:00', '2020-08-22 21:00:00', '2020-08-23 03:00:00', '2020-08-23 09:00:00'], dtype='datetime64[ns]', freq='6H') ============================================ 2. Processing meteo files: nc2tif ============================================ >> 2.1. Process curr + past files lon0,lon1,lat0,lat1 -98.0 -75.0 12.0 32.0 processing curr bull... 2020-08-23 09:00:00 ********** no new data check copy copy ok copy ok copy ok copy ok copy ok copy ok copy ok copy ok copy ok copy ok copy ok copy ok no new data ******************************************************* * Case Completed * ******************************************************* Case starterd at: 2020-08-23 12:41:13.190850 UTC Case completed at: 2020-08-23 12:41:13.726877 UTC **********E N D O F J O B***********************