Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09230000.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09230000.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09121800.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. ******************************************************* * Storm Surge Calculation System (SSCS) * ******************************************************* Now is : 2020-10-07 15:32:21.319900 UTC inp1= 20200912.21 ncores= 2 var= rain lw= aa.txt stormname!!!!!!!!!!!!!!!= 1000714/NOAA dtBullHolland= 6 submitting calc 2020-09-12 21:00:00 2020-09-23 03:00:00 delft3d -70.0 -30.0 10.0 55.0 4.0 holland 72 15 True GDACS/1000714/5_holland_new2 6 1 False False 2 aa.txt 20200912.21 1000714/NOAA 6 rain False *************---------------------****************** forcing GDACS home dir /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/ ret 0 classifications ============================================ 1. Set INPUT/OUTPUT ============================================ startdate 2020-09-12 21:00:00 currdate 2020-09-23 03:00:00 ndt: 246 delta: 6 nt1=delta 6 nt 72 alldate: DatetimeIndex(['2020-09-12 21:00:00', '2020-09-13 03:00:00', '2020-09-13 09:00:00', '2020-09-13 15:00:00', '2020-09-13 21:00:00', '2020-09-14 03:00:00', '2020-09-14 09:00:00', '2020-09-14 15:00:00', '2020-09-14 21:00:00', '2020-09-15 03:00:00', '2020-09-15 09:00:00', '2020-09-15 15:00:00', '2020-09-15 21:00:00', '2020-09-16 03:00:00', '2020-09-16 09:00:00', '2020-09-16 15:00:00', '2020-09-16 21:00:00', '2020-09-17 03:00:00', '2020-09-17 09:00:00', '2020-09-17 15:00:00', '2020-09-17 21:00:00', '2020-09-18 03:00:00', '2020-09-18 09:00:00', '2020-09-18 15:00:00', '2020-09-18 21:00:00', '2020-09-19 03:00:00', '2020-09-19 09:00:00', '2020-09-19 15:00:00', '2020-09-19 21:00:00', '2020-09-20 03:00:00', '2020-09-20 09:00:00', '2020-09-20 15:00:00', '2020-09-20 21:00:00', '2020-09-21 03:00:00', '2020-09-21 09:00:00', '2020-09-21 15:00:00', '2020-09-21 21:00:00', '2020-09-22 03:00:00', '2020-09-22 09:00:00', '2020-09-22 15:00:00', '2020-09-22 21:00:00', '2020-09-23 03:00:00'], dtype='datetime64[ns]', freq='6H') ============================================ 2. Processing meteo files: nc2tif ============================================ >> 2.1. Process curr + past files lon0,lon1,lat0,lat1 -70.0 -30.0 10.0 55.0 processing curr bull... 2020-09-23 03:00:00 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/ /mnt/input/etrap/2020/1000714/ **** 2020092303 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092300*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09230000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09230000.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09230000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092303/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092303/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092303/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092303/all_inpData.txt currDate 2020-09-23 03:00:00 f 43 nt-1 5 nt 6 currDate1 2020-09-23 03:00:00 2020-09-23 09:00:00 sdate 2020-09-23 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/ /mnt/input/etrap/2020/1000714/ **** 2020092303 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092300*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09230000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09230000.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09230000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092303/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092303/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092303/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092303/all_inpData.txt currDate 2020-09-23 03:00:00 f 43 nt-1 23 nt 24 currDate1 2020-09-23 03:00:00 2020-09-24 03:00:00 sdate 2020-09-24 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.jpg processing all past bull only if Past=True... True itdate, istime 2020-09-12 21:00:00 20200912.21 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/ /mnt/input/etrap/2020/1000714/ **** 2020091221 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091218*.tif /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09121800.06.tif storm name TWENTY input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09121800.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09121800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09121800.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130000.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130000.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. /GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091221/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091221/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091221/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091221/all_inpData.txt currDate 2020-09-12 21:00:00 f 1 nt-1 5 nt 6 currDate1 2020-09-12 21:00:00 2020-09-13 03:00:00 sdate 2020-09-13 03:00:00 -2 CAT ['TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/ /mnt/input/etrap/2020/1000714/ **** 2020091221 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091218*.tif /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09121800.06.tif storm name TWENTY input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09121800.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09121800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091221/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091221/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091221/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091221/all_inpData.txt currDate 2020-09-12 21:00:00 f 1 nt-1 23 nt 24 currDate1 2020-09-12 21:00:00 2020-09-13 21:00:00 sdate 2020-09-13 21:00:00 -2 CAT ['TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.jpg itdate, istime 2020-09-13 03:00:00 20200913.03 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/ /mnt/input/etrap/2020/1000714/ **** 2020091303 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091300*.tif /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130000.06.tif storm name TWENTY input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130000.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091303/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091303/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091303/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091303/all_inpData.txt currDate 2020-09-13 03:00:00 f 2 nt-1 5 nt 6 currDate1 2020-09-13 03:00:00 2020-09-13 09:00:00 sdate 2020-09-13 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/ /mnt/input/etrap/2020/1000714/ **** 2020091303 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091300*.tif /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130000.06.tif storm name TWENTY input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130000.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091303/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091303/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091303/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091303/all_inpData.txt currDate 2020-09-13 03:00:00 f 2 nt-1 23 nt 24 currDate1 2020-09-13 03:00:00 2020-09-14 03:00:00 sdate 2020-09-14 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.jpg itdate, istime 2020-09-13 09:00:00 20200913.09 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/ /mnt/input/etrap/2020/1000714/ **** 2020091309 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091306*.tif /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130600.06.tif storm name TWENTY input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130600.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0.tiCreating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130600.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130600.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131200.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131200.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. f" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091309/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091309/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091309/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091309/all_inpData.txt currDate 2020-09-13 09:00:00 f 3 nt-1 5 nt 6 currDate1 2020-09-13 09:00:00 2020-09-13 15:00:00 sdate 2020-09-13 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/ /mnt/input/etrap/2020/1000714/ **** 2020091309 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091306*.tif /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130600.06.tif storm name TWENTY input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130600.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09130600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091309/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091309/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091309/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091309/all_inpData.txt currDate 2020-09-13 09:00:00 f 3 nt-1 23 nt 24 currDate1 2020-09-13 09:00:00 2020-09-14 09:00:00 sdate 2020-09-14 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.jpg itdate, istime 2020-09-13 15:00:00 20200913.15 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/ /mnt/input/etrap/2020/1000714/ **** 2020091315 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091312*.tif /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131200.06.tif storm name TWENTY input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131200.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091315/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091315/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091315/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091315/all_inpData.txt currDate 2020-09-13 15:00:00 f 4 nt-1 5 nt 6 currDate1 2020-09-13 15:00:00 2020-09-13 21:00:00 sdate 2020-09-13 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/ /mnt/input/etrap/2020/1000714/ **** 2020091315 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091312*.tif /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131200.06.tif storm name TWENTY input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131200.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091315/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091315/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091315/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091315/all_inpData.txt currDate 2020-09-13 15:00:00 f 4 nt-1 23 nt 24 currDate1 2020-09-13 15:00:00 2020-09-14 15:00:00 sdate 2020-09-14 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.jpg itdate, istime 2020-09-13 21:00:00 20200913.21 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/ /mnt/input/etrap/2020/1000714/ **** 2020091321 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091318*.tif /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131800.06.tif storm name TWENTY input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131800.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131800.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131800.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09140000.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09140000.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. 714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091321/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091321/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091321/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091321/all_inpData.txt currDate 2020-09-13 21:00:00 f 5 nt-1 5 nt 6 currDate1 2020-09-13 21:00:00 2020-09-14 03:00:00 sdate 2020-09-14 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/ /mnt/input/etrap/2020/1000714/ **** 2020091321 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091318*.tif /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131800.06.tif storm name TWENTY input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131800.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09131800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091321/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091321/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091321/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091321/all_inpData.txt currDate 2020-09-13 21:00:00 f 5 nt-1 23 nt 24 currDate1 2020-09-13 21:00:00 2020-09-14 21:00:00 sdate 2020-09-14 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.jpg itdate, istime 2020-09-14 03:00:00 20200914.03 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/ /mnt/input/etrap/2020/1000714/ **** 2020091403 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091400*.tif /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09140000.06.tif storm name TWENTY input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09140000.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09140000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091403/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091403/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091403/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091403/all_inpData.txt currDate 2020-09-14 03:00:00 f 6 nt-1 5 nt 6 currDate1 2020-09-14 03:00:00 2020-09-14 09:00:00 sdate 2020-09-14 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/ /mnt/input/etrap/2020/1000714/ **** 2020091403 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091400*.tif /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09140000.06.tif storm name TWENTY input file /mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09140000.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TWENTY.pmqpf.09140000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091403/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091403/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091403/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091403/all_inpData.txt currDate 2020-09-14 03:00:00 f 6 nt-1 23 nt 24 currDate1 2020-09-14 03:00:00 2020-09-15 03:00:00 sdate 2020-09-15 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.jpg itdate, istime 2020-09-14 09:00:00 20200914.09 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/ /mnt/input/etrap/2020/1Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09140600.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09140600.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141200.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141200.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. 000714/ **** 2020091409 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091406*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09140600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09140600.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09140600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091409/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091409/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091409/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091409/all_inpData.txt currDate 2020-09-14 09:00:00 f 7 nt-1 5 nt 6 currDate1 2020-09-14 09:00:00 2020-09-14 15:00:00 sdate 2020-09-14 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/ /mnt/input/etrap/2020/1000714/ **** 2020091409 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091406*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09140600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09140600.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09140600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091409/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091409/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091409/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091409/all_inpData.txt currDate 2020-09-14 09:00:00 f 7 nt-1 23 nt 24 currDate1 2020-09-14 09:00:00 2020-09-15 09:00:00 sdate 2020-09-15 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.jpg itdate, istime 2020-09-14 15:00:00 20200914.15 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/ /mnt/input/etrap/2020/1000714/ **** 2020091415 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091412*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141200.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091415/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091415/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091415/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091415/all_inpData.txt currDate 2020-09-14 15:00:00 f 8 nt-1 5 nt 6 currDate1 2020-09-14 15:00:00 2020-09-14 21:00:00 sdate 2020-09-14 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/ /mnt/input/etrap/2020/1000714/ **** 2020091415 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091412*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141200.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091415/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091415/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091415/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091415/all_inpData.txt currDate 2020-09-14 15:00:00 f 8 nt-1 23 nt 24 currDate1 2020-09-14 15:00:00 2020-09-15 15:00:00Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141800.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141800.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150000.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150000.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. sdate 2020-09-15 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.jpg itdate, istime 2020-09-14 21:00:00 20200914.21 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/ /mnt/input/etrap/2020/1000714/ **** 2020091421 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091418*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141800.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091421/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091421/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091421/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091421/all_inpData.txt currDate 2020-09-14 21:00:00 f 9 nt-1 5 nt 6 currDate1 2020-09-14 21:00:00 2020-09-15 03:00:00 sdate 2020-09-15 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'MH', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/ /mnt/input/etrap/2020/1000714/ **** 2020091421 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091418*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141800.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09141800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091421/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091421/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091421/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091421/all_inpData.txt currDate 2020-09-14 21:00:00 f 9 nt-1 23 nt 24 currDate1 2020-09-14 21:00:00 2020-09-15 21:00:00 sdate 2020-09-15 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'MH', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.jpg itdate, istime 2020-09-15 03:00:00 20200915.03 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/ /mnt/input/etrap/2020/1000714/ **** 2020091503 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091500*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150000.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091503/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091503/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091503/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091503/all_inpData.txt currDate 2020-09-15 03:00:00 f 10 nt-1 5 nt 6 currDate1 2020-09-15 03:00:00 2020-09-15 09:00:00 sdate 2020-09-15 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'MH', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/ /mnt/input/etrap/2020/1000714/ **** 2020091503 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091500*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150000.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TCreating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150600.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150600.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151200.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151200.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. C/TCTrack/1000714/NOAA/2020091503/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091503/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091503/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091503/all_inpData.txt currDate 2020-09-15 03:00:00 f 10 nt-1 23 nt 24 currDate1 2020-09-15 03:00:00 2020-09-16 03:00:00 sdate 2020-09-16 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'MH', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.jpg itdate, istime 2020-09-15 09:00:00 20200915.09 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/ /mnt/input/etrap/2020/1000714/ **** 2020091509 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091506*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150600.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091509/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091509/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091509/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091509/all_inpData.txt currDate 2020-09-15 09:00:00 f 11 nt-1 5 nt 6 currDate1 2020-09-15 09:00:00 2020-09-15 15:00:00 sdate 2020-09-15 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'MH', 'MH', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/ /mnt/input/etrap/2020/1000714/ **** 2020091509 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091506*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150600.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09150600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091509/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091509/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091509/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091509/all_inpData.txt currDate 2020-09-15 09:00:00 f 11 nt-1 23 nt 24 currDate1 2020-09-15 09:00:00 2020-09-16 09:00:00 sdate 2020-09-16 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'MH', 'MH', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.jpg itdate, istime 2020-09-15 15:00:00 20200915.15 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/ /mnt/input/etrap/2020/1000714/ **** 2020091515 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091512*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151200.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091515/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091515/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091515/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091515/all_inpData.txt currDate 2020-09-15 15:00:00 f 12 nt-1 5 nt 6 currDate1 2020-09-15 15:00:00 2020-09-15 21:00:00 sdate 2020-09-15 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/ /mnt/input/etrap/2020/1000714/ **** 2020091515 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091512*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151200.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_res.tif coCreating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151800.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151800.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160000.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. mjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091515/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091515/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091515/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091515/all_inpData.txt currDate 2020-09-15 15:00:00 f 12 nt-1 23 nt 24 currDate1 2020-09-15 15:00:00 2020-09-16 15:00:00 sdate 2020-09-16 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.jpg itdate, istime 2020-09-15 21:00:00 20200915.21 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/ /mnt/input/etrap/2020/1000714/ **** 2020091521 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091518*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151800.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091521/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091521/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091521/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091521/all_inpData.txt currDate 2020-09-15 21:00:00 f 13 nt-1 5 nt 6 currDate1 2020-09-15 21:00:00 2020-09-16 03:00:00 sdate 2020-09-16 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/ /mnt/input/etrap/2020/1000714/ **** 2020091521 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091518*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151800.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09151800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091521/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091521/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091521/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091521/all_inpData.txt currDate 2020-09-15 21:00:00 f 13 nt-1 23 nt 24 currDate1 2020-09-15 21:00:00 2020-09-16 21:00:00 sdate 2020-09-16 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.jpg itdate, istime 2020-09-16 03:00:00 20200916.03 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/ /mnt/input/etrap/2020/1000714/ **** 2020091603 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091600*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160000.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091603/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091603/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091603/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091603/all_inpData.txt currDate 2020-09-16 03:00:00 f 14 nt-1 5 nt 6 currDate1 2020-09-16 03:00:00 2020-09-16 09:00:00 sdate 2020-09-16 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/ /mnt/input/etrap/2020/1000714/ **** 2020091603 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091600*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160000.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.tif /mnt/outpuCreating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160000.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160600.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160600.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161200.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. t/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091603/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091603/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091603/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091603/all_inpData.txt currDate 2020-09-16 03:00:00 f 14 nt-1 23 nt 24 currDate1 2020-09-16 03:00:00 2020-09-17 03:00:00 sdate 2020-09-17 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.jpg itdate, istime 2020-09-16 09:00:00 20200916.09 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/ /mnt/input/etrap/2020/1000714/ **** 2020091609 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091606*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160600.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091609/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091609/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091609/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091609/all_inpData.txt currDate 2020-09-16 09:00:00 f 16 nt-1 5 nt 6 currDate1 2020-09-16 09:00:00 2020-09-16 15:00:00 sdate 2020-09-16 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/ /mnt/input/etrap/2020/1000714/ **** 2020091609 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091606*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160600.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09160600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091609/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091609/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091609/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091609/all_inpData.txt currDate 2020-09-16 09:00:00 f 16 nt-1 23 nt 24 currDate1 2020-09-16 09:00:00 2020-09-17 09:00:00 sdate 2020-09-17 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.jpg itdate, istime 2020-09-16 15:00:00 20200916.15 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/ /mnt/input/etrap/2020/1000714/ **** 2020091615 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091612*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161200.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091615/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091615/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091615/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091615/all_inpData.txt currDate 2020-09-16 15:00:00 f 17 nt-1 5 nt 6 currDate1 2020-09-16 15:00:00 2020-09-16 21:00:00 sdate 2020-09-16 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H'Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161200.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161800.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161800.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170000.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. , 'MH', 'MH', 'MH', 'MH', 'MH', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/ /mnt/input/etrap/2020/1000714/ **** 2020091615 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091612*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161200.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091615/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091615/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091615/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091615/all_inpData.txt currDate 2020-09-16 15:00:00 f 17 nt-1 23 nt 24 currDate1 2020-09-16 15:00:00 2020-09-17 15:00:00 sdate 2020-09-17 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.jpg itdate, istime 2020-09-16 21:00:00 20200916.21 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/ /mnt/input/etrap/2020/1000714/ **** 2020091621 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091618*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161800.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091621/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091621/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091621/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091621/all_inpData.txt currDate 2020-09-16 21:00:00 f 18 nt-1 5 nt 6 currDate1 2020-09-16 21:00:00 2020-09-17 03:00:00 sdate 2020-09-17 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/ /mnt/input/etrap/2020/1000714/ **** 2020091621 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091618*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161800.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09161800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091621/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091621/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091621/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091621/all_inpData.txt currDate 2020-09-16 21:00:00 f 18 nt-1 23 nt 24 currDate1 2020-09-16 21:00:00 2020-09-17 21:00:00 sdate 2020-09-17 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.jpg itdate, istime 2020-09-17 03:00:00 20200917.03 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/ /mnt/input/etrap/2020/1000714/ **** 2020091703 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091700*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170000.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.03000Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170000.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170600.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170600.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. 0000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091703/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091703/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091703/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091703/all_inpData.txt currDate 2020-09-17 03:00:00 f 19 nt-1 5 nt 6 currDate1 2020-09-17 03:00:00 2020-09-17 09:00:00 sdate 2020-09-17 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'H', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/ /mnt/input/etrap/2020/1000714/ **** 2020091703 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091700*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170000.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091703/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091703/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091703/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091703/all_inpData.txt currDate 2020-09-17 03:00:00 f 19 nt-1 23 nt 24 currDate1 2020-09-17 03:00:00 2020-09-18 03:00:00 sdate 2020-09-18 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'H', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.jpg itdate, istime 2020-09-17 09:00:00 20200917.09 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/ /mnt/input/etrap/2020/1000714/ **** 2020091709 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091706*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170600.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091709/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091709/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091709/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091709/all_inpData.txt currDate 2020-09-17 09:00:00 f 20 nt-1 5 nt 6 currDate1 2020-09-17 09:00:00 2020-09-17 15:00:00 sdate 2020-09-17 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/ /mnt/input/etrap/2020/1000714/ **** 2020091709 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091706*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170600.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09170600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091709/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091709/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091709/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091709/all_inpData.txt currDate 2020-09-17 09:00:00 f 20 nt-1 23 nt 24 currDate1 2020-09-17 09:00:00 2020-09-18 09:00:00 sdate 2020-09-18 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.jpg itdate, istime 2020-09-17 15:00:00 20200917.15 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/ /mnt/input/etrap/2020/1000714/ **** 2020091715 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091712*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171200.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_steCreating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171200.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171200.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171800.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171800.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. pt0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091715/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091715/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091715/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091715/all_inpData.txt currDate 2020-09-17 15:00:00 f 21 nt-1 5 nt 6 currDate1 2020-09-17 15:00:00 2020-09-17 21:00:00 sdate 2020-09-17 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/ /mnt/input/etrap/2020/1000714/ **** 2020091715 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091712*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171200.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091715/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091715/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091715/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091715/all_inpData.txt currDate 2020-09-17 15:00:00 f 21 nt-1 23 nt 24 currDate1 2020-09-17 15:00:00 2020-09-18 15:00:00 sdate 2020-09-18 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.jpg itdate, istime 2020-09-17 21:00:00 20200917.21 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/ /mnt/input/etrap/2020/1000714/ **** 2020091721 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091718*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171800.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091721/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091721/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091721/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091721/all_inpData.txt currDate 2020-09-17 21:00:00 f 22 nt-1 5 nt 6 currDate1 2020-09-17 21:00:00 2020-09-18 03:00:00 sdate 2020-09-18 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/ /mnt/input/etrap/2020/1000714/ **** 2020091721 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091718*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171800.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09171800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091721/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091721/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091721/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091721/all_inpData.txt currDate 2020-09-17 21:00:00 f 22 nt-1 23 nt 24 currDate1 2020-09-17 21:00:00 2020-09-18 21:00:00 sdate 2020-09-18 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.jpg itdate, istime 2020-09-18 03:00:00 20200918.03 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180000.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180000.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180600.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180600.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. /5_holland_new2/tif/20200918.03/ /mnt/input/etrap/2020/1000714/ **** 2020091803 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091800*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180000.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091803/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091803/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091803/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091803/all_inpData.txt currDate 2020-09-18 03:00:00 f 23 nt-1 5 nt 6 currDate1 2020-09-18 03:00:00 2020-09-18 09:00:00 sdate 2020-09-18 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/ /mnt/input/etrap/2020/1000714/ **** 2020091803 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091800*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180000.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091803/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091803/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091803/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091803/all_inpData.txt currDate 2020-09-18 03:00:00 f 23 nt-1 23 nt 24 currDate1 2020-09-18 03:00:00 2020-09-19 03:00:00 sdate 2020-09-19 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.jpg itdate, istime 2020-09-18 09:00:00 20200918.09 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/ /mnt/input/etrap/2020/1000714/ **** 2020091809 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091806*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180600.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091809/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091809/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091809/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091809/all_inpData.txt currDate 2020-09-18 09:00:00 f 24 nt-1 5 nt 6 currDate1 2020-09-18 09:00:00 2020-09-18 15:00:00 sdate 2020-09-18 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/ /mnt/input/etrap/2020/1000714/ **** 2020091809 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091806*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180600.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09180600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091809/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NCreating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181200.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181200.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181800.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. OAA/2020091809/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091809/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091809/all_inpData.txt currDate 2020-09-18 09:00:00 f 24 nt-1 23 nt 24 currDate1 2020-09-18 09:00:00 2020-09-19 09:00:00 sdate 2020-09-19 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.jpg itdate, istime 2020-09-18 15:00:00 20200918.15 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/ /mnt/input/etrap/2020/1000714/ **** 2020091815 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091812*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181200.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091815/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091815/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091815/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091815/all_inpData.txt currDate 2020-09-18 15:00:00 f 25 nt-1 5 nt 6 currDate1 2020-09-18 15:00:00 2020-09-18 21:00:00 sdate 2020-09-18 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/ /mnt/input/etrap/2020/1000714/ **** 2020091815 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091812*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181200.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091815/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091815/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091815/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091815/all_inpData.txt currDate 2020-09-18 15:00:00 f 25 nt-1 23 nt 24 currDate1 2020-09-18 15:00:00 2020-09-19 15:00:00 sdate 2020-09-19 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.jpg itdate, istime 2020-09-18 21:00:00 20200918.21 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/ /mnt/input/etrap/2020/1000714/ **** 2020091821 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091818*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181800.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091821/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091821/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091821/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091821/all_inpData.txt currDate 2020-09-18 21:00:00 f 26 nt-1 5 nt 6 currDate1 2020-09-18 21:00:00 2020-09-19 03:00:00 sdate 2020-09-19 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/ /mnt/input/etrap/2020/1000714/ **** 2020091821 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091818*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181800.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09181800.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190000.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190000.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190600.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. .21/20200918.21_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091821/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091821/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091821/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091821/all_inpData.txt currDate 2020-09-18 21:00:00 f 26 nt-1 23 nt 24 currDate1 2020-09-18 21:00:00 2020-09-19 21:00:00 sdate 2020-09-19 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain.jpg itdate, istime 2020-09-19 03:00:00 20200919.03 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/ /mnt/input/etrap/2020/1000714/ **** 2020091903 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091900*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190000.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091903/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091903/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091903/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091903/all_inpData.txt currDate 2020-09-19 03:00:00 f 27 nt-1 5 nt 6 currDate1 2020-09-19 03:00:00 2020-09-19 09:00:00 sdate 2020-09-19 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/ /mnt/input/etrap/2020/1000714/ **** 2020091903 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091900*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190000.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091903/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091903/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091903/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091903/all_inpData.txt currDate 2020-09-19 03:00:00 f 27 nt-1 23 nt 24 currDate1 2020-09-19 03:00:00 2020-09-20 03:00:00 sdate 2020-09-20 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.jpg itdate, istime 2020-09-19 09:00:00 20200919.09 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/ /mnt/input/etrap/2020/1000714/ **** 2020091909 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091906*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190600.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091909/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091909/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091909/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091909/all_inpData.txt currDate 2020-09-19 09:00:00 f 28 nt-1 5 nt 6 currDate1 2020-09-19 09:00:00 2020-09-19 15:00:00 sdate 2020-09-19 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'TS'] savemapCreating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190600.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191200.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191200.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191800.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/ /mnt/input/etrap/2020/1000714/ **** 2020091909 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091906*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190600.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09190600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091909/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091909/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091909/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091909/all_inpData.txt currDate 2020-09-19 09:00:00 f 28 nt-1 23 nt 24 currDate1 2020-09-19 09:00:00 2020-09-20 09:00:00 sdate 2020-09-20 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.jpg itdate, istime 2020-09-19 15:00:00 20200919.15 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/ /mnt/input/etrap/2020/1000714/ **** 2020091915 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091912*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191200.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091915/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091915/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091915/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091915/all_inpData.txt currDate 2020-09-19 15:00:00 f 29 nt-1 5 nt 6 currDate1 2020-09-19 15:00:00 2020-09-19 21:00:00 sdate 2020-09-19 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/ /mnt/input/etrap/2020/1000714/ **** 2020091915 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091912*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191200.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091915/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091915/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091915/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091915/all_inpData.txt currDate 2020-09-19 15:00:00 f 29 nt-1 23 nt 24 currDate1 2020-09-19 15:00:00 2020-09-20 15:00:00 sdate 2020-09-20 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.jpg itdate, istime 2020-09-19 21:00:00 20200919.21 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/ /mnt/input/etrap/2020/1000714/ **** 2020091921 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091918*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191800.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/100071Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191800.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200000.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200000.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. 4/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091921/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091921/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091921/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091921/all_inpData.txt currDate 2020-09-19 21:00:00 f 30 nt-1 5 nt 6 currDate1 2020-09-19 21:00:00 2020-09-20 03:00:00 sdate 2020-09-20 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/ /mnt/input/etrap/2020/1000714/ **** 2020091921 /mnt/input/etrap/2020/1000714/2020*.pmqpf.091918*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191800.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09191800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091921/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091921/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091921/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020091921/all_inpData.txt currDate 2020-09-19 21:00:00 f 30 nt-1 23 nt 24 currDate1 2020-09-19 21:00:00 2020-09-20 21:00:00 sdate 2020-09-20 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.jpg itdate, istime 2020-09-20 03:00:00 20200920.03 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/ /mnt/input/etrap/2020/1000714/ **** 2020092003 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092000*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200000.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092003/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092003/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092003/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092003/all_inpData.txt currDate 2020-09-20 03:00:00 f 31 nt-1 5 nt 6 currDate1 2020-09-20 03:00:00 2020-09-20 09:00:00 sdate 2020-09-20 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/ /mnt/input/etrap/2020/1000714/ **** 2020092003 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092000*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200000.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092003/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092003/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092003/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092003/all_inpData.txt currDate 2020-09-20 03:00:00 f 31 nt-1 23 nt 24 currDate1 2020-09-20 03:00:00 2020-09-21 03:00:00 sdate 2020-09-21 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.jpg itdate, istime 2020-09-20 09:00:00 20200920.09 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/ /mnt/input/etrap/2020/1000714/ **** 2020092009 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092006*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200600.06.tif /mnt/output/SSCS/2020/GDACS/100071Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200600.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200600.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201200.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201200.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. 4/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092009/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092009/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092009/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092009/all_inpData.txt currDate 2020-09-20 09:00:00 f 32 nt-1 5 nt 6 currDate1 2020-09-20 09:00:00 2020-09-20 15:00:00 sdate 2020-09-20 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/ /mnt/input/etrap/2020/1000714/ **** 2020092009 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092006*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200600.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09200600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092009/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092009/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092009/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092009/all_inpData.txt currDate 2020-09-20 09:00:00 f 32 nt-1 23 nt 24 currDate1 2020-09-20 09:00:00 2020-09-21 09:00:00 sdate 2020-09-21 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.jpg itdate, istime 2020-09-20 15:00:00 20200920.15 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/ /mnt/input/etrap/2020/1000714/ **** 2020092015 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092012*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201200.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092015/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092015/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092015/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092015/all_inpData.txt currDate 2020-09-20 15:00:00 f 33 nt-1 5 nt 6 currDate1 2020-09-20 15:00:00 2020-09-20 21:00:00 sdate 2020-09-20 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/ /mnt/input/etrap/2020/1000714/ **** 2020092015 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092012*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201200.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092015/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092015/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092015/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC tracCreating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201800.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201800.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210000.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. k /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092015/all_inpData.txt currDate 2020-09-20 15:00:00 f 33 nt-1 23 nt 24 currDate1 2020-09-20 15:00:00 2020-09-21 15:00:00 sdate 2020-09-21 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.jpg itdate, istime 2020-09-20 21:00:00 20200920.21 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/ /mnt/input/etrap/2020/1000714/ **** 2020092021 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092018*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201800.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092021/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092021/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092021/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092021/all_inpData.txt currDate 2020-09-20 21:00:00 f 34 nt-1 5 nt 6 currDate1 2020-09-20 21:00:00 2020-09-21 03:00:00 sdate 2020-09-21 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/ /mnt/input/etrap/2020/1000714/ **** 2020092021 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092018*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201800.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09201800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092021/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092021/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092021/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092021/all_inpData.txt currDate 2020-09-20 21:00:00 f 34 nt-1 23 nt 24 currDate1 2020-09-20 21:00:00 2020-09-21 21:00:00 sdate 2020-09-21 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.jpg itdate, istime 2020-09-21 03:00:00 20200921.03 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/ /mnt/input/etrap/2020/1000714/ **** 2020092103 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092100*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210000.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092103/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092103/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092103/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092103/all_inpData.txt currDate 2020-09-21 03:00:00 f 35 nt-1 5 nt 6 currDate1 2020-09-21 03:00:00 2020-09-21 09:00:00 sdate 2020-09-21 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/ /mnt/input/etrap/2020/1000714/ **** 2020092103 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092100*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210000.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tifCreating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210000.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210600.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210600.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211200.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. /20200921.03/20200921.03_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092103/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092103/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092103/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092103/all_inpData.txt currDate 2020-09-21 03:00:00 f 35 nt-1 23 nt 24 currDate1 2020-09-21 03:00:00 2020-09-22 03:00:00 sdate 2020-09-22 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain.jpg itdate, istime 2020-09-21 09:00:00 20200921.09 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/ /mnt/input/etrap/2020/1000714/ **** 2020092109 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092106*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210600.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092109/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092109/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092109/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092109/all_inpData.txt currDate 2020-09-21 09:00:00 f 36 nt-1 5 nt 6 currDate1 2020-09-21 09:00:00 2020-09-21 15:00:00 sdate 2020-09-21 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/ /mnt/input/etrap/2020/1000714/ **** 2020092109 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092106*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210600.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09210600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092109/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092109/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092109/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092109/all_inpData.txt currDate 2020-09-21 09:00:00 f 36 nt-1 23 nt 24 currDate1 2020-09-21 09:00:00 2020-09-22 09:00:00 sdate 2020-09-22 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.jpg itdate, istime 2020-09-21 15:00:00 20200921.15 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/ /mnt/input/etrap/2020/1000714/ **** 2020092115 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092112*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211200.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092115/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092115/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092115/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092115/all_inpData.txt currDate 2020-09-21 15:00:00 f 37 nt-1 5 nt 6 currDate1 2020-09-21 15:00:00 2020-09-21 21:00:00 sdate 2020-09-21 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS'Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211200.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211800.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211800.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220000.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. , 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/ /mnt/input/etrap/2020/1000714/ **** 2020092115 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092112*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211200.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092115/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092115/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092115/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092115/all_inpData.txt currDate 2020-09-21 15:00:00 f 37 nt-1 23 nt 24 currDate1 2020-09-21 15:00:00 2020-09-22 15:00:00 sdate 2020-09-22 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.jpg itdate, istime 2020-09-21 21:00:00 20200921.21 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/ /mnt/input/etrap/2020/1000714/ **** 2020092121 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092118*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211800.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092121/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092121/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092121/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092121/all_inpData.txt currDate 2020-09-21 21:00:00 f 38 nt-1 5 nt 6 currDate1 2020-09-21 21:00:00 2020-09-22 03:00:00 sdate 2020-09-22 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/ /mnt/input/etrap/2020/1000714/ **** 2020092121 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092118*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211800.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09211800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092121/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092121/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092121/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092121/all_inpData.txt currDate 2020-09-21 21:00:00 f 38 nt-1 23 nt 24 currDate1 2020-09-21 21:00:00 2020-09-22 21:00:00 sdate 2020-09-22 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.jpg itdate, istime 2020-09-22 03:00:00 20200922.03 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/ /mnt/input/etrap/2020/1000714/ **** 2020092203 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092200*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220000.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0_res.tif comjson gdal_polygonizCreating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220000.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220600.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220600.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. e.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092203/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092203/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092203/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092203/all_inpData.txt currDate 2020-09-22 03:00:00 f 39 nt-1 5 nt 6 currDate1 2020-09-22 03:00:00 2020-09-22 09:00:00 sdate 2020-09-22 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/ /mnt/input/etrap/2020/1000714/ **** 2020092203 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092200*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220000.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220000.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092203/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092203/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092203/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092203/all_inpData.txt currDate 2020-09-22 03:00:00 f 39 nt-1 23 nt 24 currDate1 2020-09-22 03:00:00 2020-09-23 03:00:00 sdate 2020-09-23 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.jpg itdate, istime 2020-09-22 09:00:00 20200922.09 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/ /mnt/input/etrap/2020/1000714/ **** 2020092209 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092206*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220600.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092209/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092209/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092209/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092209/all_inpData.txt currDate 2020-09-22 09:00:00 f 40 nt-1 5 nt 6 currDate1 2020-09-22 09:00:00 2020-09-22 15:00:00 sdate 2020-09-22 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/ /mnt/input/etrap/2020/1000714/ **** 2020092209 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092206*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220600.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220600.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09220600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092209/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092209/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092209/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092209/all_inpData.txt currDate 2020-09-22 09:00:00 f 40 nt-1 23 nt 24 currDate1 2020-09-22 09:00:00 2020-09-23 09:00:00 sdate 2020-09-23 09:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.jpg itdate, iCreating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221200.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221200.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221800.06.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 1333P x 1500L. Processing input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221800.24.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 400P x 450L. Processing /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_res.tif. ...10...20...30...40...50...60...70...80...90...100 - done. Creating output /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. stime 2020-09-22 15:00:00 20200922.15 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/ /mnt/input/etrap/2020/1000714/ **** 2020092215 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092212*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221200.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092215/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092215/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092215/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092215/all_inpData.txt currDate 2020-09-22 15:00:00 f 41 nt-1 5 nt 6 currDate1 2020-09-22 15:00:00 2020-09-22 21:00:00 sdate 2020-09-22 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/ /mnt/input/etrap/2020/1000714/ **** 2020092215 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092212*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221200.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221200.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092215/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092215/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092215/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092215/all_inpData.txt currDate 2020-09-22 15:00:00 f 41 nt-1 23 nt 24 currDate1 2020-09-22 15:00:00 2020-09-23 15:00:00 sdate 2020-09-23 15:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.jpg itdate, istime 2020-09-22 21:00:00 20200922.21 /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/ /mnt/input/etrap/2020/1000714/ **** 2020092221 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092218*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221800.06.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0.json fieldname rainmm outFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092221/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092221/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092221/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092221/all_inpData.txt currDate 2020-09-22 21:00:00 f 42 nt-1 5 nt 6 currDate1 2020-09-22 21:00:00 2020-09-23 03:00:00 sdate 2020-09-23 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0.jpg /mnt/input/etrap/2020/1000714/ /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/ /mnt/input/etrap/2020/1000714/ **** 2020092221 /mnt/input/etrap/2020/1000714/2020*.pmqpf.092218*.tif /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221800.06.tif storm name TEDDY input file /mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221800.24.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_res.tif /usr/bin/gdalwarp -r bilinear -tr 0.03 0.03 -te -70.0 10.0 -30.0 55.0 -dstnodata 0 "/mnt/input/etrap/2020/1000714/2020TEDDY.pmqpf.09221800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.tif" gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.json fieldname rainmm o0 .. 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 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 utFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.tif dd: 0.030000000000001137 (-69.985, 0.030000000000001137, 0, 54.985, 0, -0.030000000000001137) >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092221/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092221/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092221/all_inpData.txt -69.985 -30.025 10.015 54.985 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092221/all_inpData.txt currDate 2020-09-22 21:00:00 f 42 nt-1 23 nt 24 currDate1 2020-09-22 21:00:00 2020-09-23 21:00:00 sdate 2020-09-23 21:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.jpg >> 2.2. Process final data files compfile /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/20200923.03_Final_completed_rain.txt FINAL alldate: DatetimeIndex(['2020-09-12 21:00:00', '2020-09-13 03:00:00', '2020-09-13 09:00:00', '2020-09-13 15:00:00', '2020-09-13 21:00:00', '2020-09-14 03:00:00', '2020-09-14 09:00:00', '2020-09-14 15:00:00', '2020-09-14 21:00:00', '2020-09-15 03:00:00', '2020-09-15 09:00:00', '2020-09-15 15:00:00', '2020-09-15 21:00:00', '2020-09-16 03:00:00', '2020-09-16 09:00:00', '2020-09-16 15:00:00', '2020-09-16 21:00:00', '2020-09-17 03:00:00', '2020-09-17 09:00:00', '2020-09-17 15:00:00', '2020-09-17 21:00:00', '2020-09-18 03:00:00', '2020-09-18 09:00:00', '2020-09-18 15:00:00', '2020-09-18 21:00:00', '2020-09-19 03:00:00', '2020-09-19 09:00:00', '2020-09-19 15:00:00', '2020-09-19 21:00:00', '2020-09-20 03:00:00', '2020-09-20 09:00:00', '2020-09-20 15:00:00', '2020-09-20 21:00:00', '2020-09-21 03:00:00', '2020-09-21 09:00:00', '2020-09-21 15:00:00', '2020-09-21 21:00:00', '2020-09-22 03:00:00', '2020-09-22 09:00:00', '2020-09-22 15:00:00', '2020-09-22 21:00:00', '2020-09-23 03:00:00'], dtype='datetime64[ns]', freq='6H') alldate.shape 42 date: 2020-09-13 03:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-13 09:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-13 15:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-13 21:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-14 03:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-14 09:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-14 15:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-14 21:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-15 03:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-15 09:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-15 15:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-15 21:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-16 03:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-16 09:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-16 15:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-16 21:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-17 03:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain0 .. 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 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 _stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-17 09:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-17 15:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-17 21:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-18 03:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-18 09:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-18 15:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-18 21:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-19 03:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-19 09:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-19 15:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-19 21:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-20 03:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-20 09:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-20 15:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-20 21:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-21 03:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-21 09:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-21 15:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-21 21:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-22 03:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-22 09:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-22 15:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-22 21:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)" date: 2020-09-23 03:00:00 python /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif --calc="(A+B)0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done Creating output file that is 400P x 450L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif. Using internal nodata values (e.g. 1.17549e-38) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/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/1000714/5_holland_new2/tif/final/rain_final.json of format GeoJSON. 0...10...20...30...40...50...60...70...80...90...100 - done. " max file created /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif create json /usr/bin/gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final_res.tif comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.json fieldname rainmm stormname 1000714/NOAA stormname 1000714/NOAA TCbullsource NOAA >> 0. SET INPUT/OUTPUT NOAA /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092303/all_inpData.txt /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092303/all_inpData.txt trackfile /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092303/all_inpData.txt -69.97 -30.009999999998485 9.999999999998295 54.97 lon 1333 lat 1500 read TC track /mnt/output/GDACS/TC/TCTrack/1000714/NOAA/2020092303/all_inpData.txt currDate 2020-09-23 03:00:00 f 43 nt-1 23 nt 24 currDate1 2020-09-23 03:00:00 2020-09-24 03:00:00 sdate 2020-09-24 03:00:00 -2 CAT ['TD', 'TD', 'TD', 'TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'H', 'H', 'H', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'MH', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'H', 'TS', 'TS'] savemap /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_FINAL.jpg ret: 0 ============================================ 3. Classify meteo + GDACS index score ============================================ >> 3.1. Classify curr + past forecast Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21//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 4799P x 5400L. 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/1000714/5_holland_new2/class/20200912.21//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200913.09//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200913.03//rain_popfile_stept0_clipped.tif. 0.......10...1010......20...2020......30...3030......40....4040...50....5050........6060...60......7070...70.......808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200913.09//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/1000714/5_holland_new2/class/20200912.21//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/1000714/5_holland_new2/class/20200913.03//rain_countryfile_stept0_clipped.tif. .......1010..10......2020...20.....3030......30...4040.......40.50.50..50......60.....6060...70......7070....80...80....80.90....90....90.....100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15//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 4799P x 5400L. 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/1000714/5_holland_new2/class/20200913.21//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200913.15//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200914.03//rain_popfile_stept0_clipped.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200914.03//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/1000714/5_holland_new2/class/20200913.15//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/1000714/5_holland_new2/class/20200913.21//rain_countryfile_stept0_clipped.tif. .......101010.........2020.20.......30.30.30......40...4040......50..5050.....60......6060...70.......707080.........908080.........9090......100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09//rain_res_stept0.tif. 0.Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15//rain_res_stept0.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 4799P x 5400L. 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/1000714/5_holland_new2/class/20200914.15//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200914.21//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200914.09//rain_popfile_stept0_clipped.tif. 0.......10...1010....20.....2020........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200914.09//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/1000714/5_holland_new2/class/20200914.21//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/1000714/5_holland_new2/class/20200914.15//rain_countryfile_stept0_clipped.tif. ....1010.....10...2020.......20.3030........40.30.40......50..5040...50.......60.60.....60...7070........708080.........809090.........90...100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03//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 4799P x 5400L. 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/1000714/5_holland_new2/class/20200915.03//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200915.09//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200915.15//rain_popfile_stept0_clipped.tif. 0.........1010.10......20...2020........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200915.09//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/1000714/5_holland_new2/class/20200915.15//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/1000714/5_holland_new2/class/20200915.03//rain_countryfile_stept0_clipped.tif. ....10...1010....20......2020.30.........304030........50.4040......5050.........606060.........707070.........808080........90.90.90........100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21//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 4799P x 5400L. 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/1000714/5_holland_new2/class/20200916.03//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200915.21//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200916.09//rain_popfile_stept0_clipped.tif. 0.......10...1010.....20....2020........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200916.09//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/1000714/5_holland_new2/class/20200915.21//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/1000714/5_holland_new2/class/20200916.03//rain_countryfile_stept0_clipped.tif. ....10...10.10...20.......202030.........403030.........504040......5050........6060...60......7070...70......8080....80....90.90....90......100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15//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 4799P x 5400L. 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/1000714/5_holland_new2/class/20200917.03//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200916.21//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200916.15//rain_popfile_stept0_clipped.tif. 0.........10.1010......20...2020........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200916.21//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/1000714/5_holland_new2/class/20200916.15//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/1000714/5_holland_new2/class/20200917.03//rain_countryfile_stept0_clipped.tif. .......101010.........20.2020......30....3030...40......4040...50....5050.......60...6060......70...7070......80...80.80...90......9090.......100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21//rain_res_stept0.tif. 0.........101010.........202020.........303030.........404040.........505050.......60...6060......70...7070......80...8080......90...9090........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200917.15//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200917.09//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200917.21//rain_popfile_stept0_clipped.tif. 0.......10...10.10....20...20..20.......303030.........404040.........505050........6060...60......7070...70.......80.8080......90....9090.......100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200917.15//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/1000714/5_holland_new2/class/20200917.21//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/1000714/5_holland_new2/class/20200917.09//rain_countryfile_stept0_clipped.tif. ......1010...10......2020.....20...3030........304040.........405050...50........6060.....60...7070........708080.........909080.........90...100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15//rain_res_stept0.tif. 0.........101010.........202020........30.30.30.......40.40.40.......50.5050........6060...60......7070...70......8080...80......9090...90.......100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200918.03//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200918.15//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200918.09//rain_popfile_stept0_clipped.tif. 0.........101010........2020...20.......303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200918.09//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/1000714/5_holland_new2/class/20200918.03//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/1000714/5_holland_new2/class/20200918.15//rain_countryfile_stept0_clipped.tif. ....10...1010....20.......202030.........303040.........404050......5050........6060...60......7070...70......8080...80......9090...90.......100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21//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 4799P x 5400L. 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/1000714/5_holland_new2/class/20200918.21//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200919.09//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200919.03//rain_popfile_stept0_clipped.tif. 0.........101010........20.20.20........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200919.09//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/1000714/5_holland_new2/class/20200918.21//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/1000714/5_holland_new2/class/20200919.03//rain_countryfile_stept0_clipped.tif. ....10...1010....20.......202030.........304030.........504040......5050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15//rain_res_stept0.tif. 0.........1010.10.......20.20.20.......30.30.30.......40.40.40.......50.5050......60....60.60....70....70.70....80....80.80....90....90.90.......100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200919.15//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200919.21//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200920.03//rain_popfile_stept0_clipped.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200919.15//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/1000714/5_holland_new2/class/20200920.03//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/1000714/5_holland_new2/class/20200919.21//rain_countryfile_stept0_clipped.tif. .....10...1010.....20.....2020...30.......303040.........404050......5050.......60.60....60....7070.......70.8080.........809090.........90...100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15//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 4799P x 5400L. 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/1000714/5_holland_new2/class/20200920.15//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200920.09//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200920.21//rain_popfile_stept0_clipped.tif. 0........10.10.10.....20....2020........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200920.15//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/1000714/5_holland_new2/class/20200920.21//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/1000714/5_holland_new2/class/20200920.09//rain_countryfile_stept0_clipped.tif. ....10....1010...20.......202030.........403030.........504040......5050.......60...6060......70...7070......80...8080......90...9090........100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15//rain_res_stept0.tif. 0........10.10.10.......20.20.20.......30.30.30.......40.40.40.......50.5050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200921.15//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200921.09//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200921.03//rain_popfile_stept0_clipped.tif. 0.......10...1010....20.....2020.......3030...30......4040...40......5050.50........6060...60......70.70.70........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200921.09//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/1000714/5_holland_new2/class/20200921.03//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/1000714/5_holland_new2/class/20200921.15//rain_countryfile_stept0_clipped.tif. .......10.1010......20....2020...30.......303040.........405040......5050.........606060.......70...7070......80...8080......90...90.90.......100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21//rain_res_stept0.tif. 0.........101010.........202020.........303030........40.40.40.......50.5050......6060........7070...60......8080...70......9090....80......90...100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200922.03//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200922.09//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200921.21//rain_popfile_stept0_clipped.tif. 0.......10...1010.....20....2020........303030.........404040.......50..5050.........606060.........707070.........808080........9090...90.......100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200922.09//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/1000714/5_holland_new2/class/20200922.03//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/1000714/5_holland_new2/class/20200921.21//rain_countryfile_stept0_clipped.tif. .......101010.........202020.........303030.........404040.........505050.......60....6060...70.......707080.........808090.........9090......100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09/rain_popDensValues_stept0.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03//rain_res_stept0.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21//rain_res_stept0.tif. 0.........101010.........202020.........303030.........404040........50.5050.....60......6060...70......7070...80......8080...90......9090.......100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200923.03//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200922.21//rain_popfile_stept0_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200922.15//rain_popfile_stept0_clipped.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200923.03//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/1000714/5_holland_new2/class/20200922.15//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/1000714/5_holland_new2/class/20200922.21//rain_countryfile_stept0_clipped.tif. ....10....1010...20.......202030.........403030.......50..4040......5050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 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/1000714/5_holland_new2/class/20200923.03/rain_popDensValues_stept0.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain_stept0.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21//rain_popfile_stept0_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21//rain_countryfile_stept0_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21//rain_countryfile_stept0_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 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/1000714/5_holland_new2/class/20200922.21/rain_popDensValues_stept0.xml >> 7. remove files done lim core t0 completed Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09//rain_res_all.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200913.09//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200912.21//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200913.03//rain_popfile_all_clipped.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200913.03//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/1000714/5_holland_new2/class/20200913.09//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/1000714/5_holland_new2/class/20200912.21//rain_countryfile_all_clipped.tif. .......101010.........202020.........303030.........404040.........505050.........606060........7070...70......8080...80......9090...90.......100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21//rain_res_all.tif. 0........10.10.10.......20.20.20.......30.30.30.......40.40.40.......50.5050........60.60.60.......70.70.70.......80.80.80.......90.90.90........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200914.03//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200913.15//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200913.21//rain_popfile_all_clipped.tif. 0........10.10...10...20...20..20.......303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200914.03//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/1000714/5_holland_new2/class/20200913.15//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/1000714/5_holland_new2/class/20200913.21//rain_countryfile_all_clipped.tif. .......101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15//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 4799P x 5400L. 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/1000714/5_holland_new2/class/20200914.09//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200914.21//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200914.15//rain_popfile_all_clipped.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200914.09//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/1000714/5_holland_new2/class/20200914.21//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/1000714/5_holland_new2/class/20200914.15//rain_countryfile_all_clipped.tif. .......101010.........202020.........303030.........404040.........505050........60.60..60......7070...70......8080...80......9090...90.......100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03//rain_res_all.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200915.03//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200915.09//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200915.15//rain_popfile_all_clipped.tif. 0........10.10.10......20...2020........303030.........404040.........505050........6060...60......7070...70.......808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200915.15//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/1000714/5_holland_new2/class/20200915.09//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/1000714/5_holland_new2/class/20200915.03//rain_countryfile_all_clipped.tif. ....10...1010....20......2020.30.........403030.........504040......5050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03//rain_res_all.tif. 0.......10...1010......20...2020......30...3030......40...4040......50..5050........6060...60......7070...70......8080...80......9090...90.......100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200916.09//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200916.03//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200915.21//rain_popfile_all_clipped.tif. 0.......10...1010.....20....2020........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200916.09//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/1000714/5_holland_new2/class/20200916.03//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/1000714/5_holland_new2/class/20200915.21//rain_countryfile_all_clipped.tif. .......101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15//rain_res_all.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200917.03//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200916.15//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200916.21//rain_popfile_all_clipped.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200916.21//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/1000714/5_holland_new2/class/20200916.15//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/1000714/5_holland_new2/class/20200917.03//rain_countryfile_all_clipped.tif. ....10....1010...20......20.2030.........304030........5040..40....50.50.........606060.........707070.........808080.........9090.90........100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09//rain_res_all.tif. 0.........101010.........202020.........303030.........404040.........505050.......60...6060......70...7070......80...8080......90...9090........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200917.15//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200917.09//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200917.21//rain_popfile_all_clipped.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200917.15//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/1000714/5_holland_new2/class/20200917.09//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/1000714/5_holland_new2/class/20200917.21//rain_countryfile_all_clipped.tif. ....10....1010...20.......202030.........304030.........405040......5050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09//rain_res_all.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200918.15//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200918.09//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200918.03//rain_popfile_all_clipped.tif. 0.........101010.......20...2020........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200918.03//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/1000714/5_holland_new2/class/20200918.15//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/1000714/5_holland_new2/class/20200918.09//rain_countryfile_all_clipped.tif. ....10....1010...20.......202030.........4030.30.......50.4040......5050........60.60..60......7070...70......8080...80......9090...90.......100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03//rain_res_all.tif. 0.........1010.10.......20.20.20.......30.30.30.......40.40.40.......50.5050........60.60.60.......70.70.70.......80.80.80.......90.90.90........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200918.21//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200919.03//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200919.09//rain_popfile_all_clipped.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200919.09//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/1000714/5_holland_new2/class/20200919.03//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/1000714/5_holland_new2/class/20200918.21//rain_countryfile_all_clipped.tif. .....10...1010......20...2020....30......3030...40......40.40.50.....5050.........6060.60.......7070...70......8080...80.....90.90.....90.....100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03//rain_res_all.tif. 0.........101010........20.20.20.......30.30.30.......40.40.40.......50.5050........60.60.60.......70.70.70.......80.80.80.......90.90.90........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200919.21//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200919.15//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200920.03//rain_popfile_all_clipped.tif. 0.......10...1010.....20....2020........303030.........404040.........505050.........606060.........707070.....80......8080...90......9090.......100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200920.03//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/1000714/5_holland_new2/class/20200919.21//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/1000714/5_holland_new2/class/20200919.15//rain_countryfile_all_clipped.tif. ....10....1010...20.......202030.........403030.........504040......5050.......6060......60...7070........708080.........908090.........90...100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21//rain_res_all.tif. 0.........101010.........202020.........303030.........404040.........505050.......60...6060......70...7070......80...8080......90...9090........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200920.21//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200920.15//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200920.09//rain_popfile_all_clipped.tif. 0.........10.1010......20...2020........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200920.09//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/1000714/5_holland_new2/class/20200920.15//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/1000714/5_holland_new2/class/20200920.21//rain_countryfile_all_clipped.tif. .......101010.........202020.........303030.........404040........5050.50.........6060..60......7070...70......8080.....80...9090......90.....100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03//rain_res_all.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200921.09//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200921.15//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200921.03//rain_popfile_all_clipped.tif. 0.........101010.........20.2020........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200921.03//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/1000714/5_holland_new2/class/20200921.09//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/1000714/5_holland_new2/class/20200921.15//rain_countryfile_all_clipped.tif. ....10....1010...20.......203020.........403030........50.4040......5050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21//rain_res_all.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200922.09//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200922.03//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200921.21//rain_popfile_all_clipped.tif. 0.........101010........2020...20.......303030.........4040.40.......5050.50.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200922.09//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/1000714/5_holland_new2/class/20200922.03//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/1000714/5_holland_new2/class/20200921.21//rain_countryfile_all_clipped.tif. .....10...1010......20....2020...30......3030...40......4040...50....5050......60...60....60.70....70...70....80.80....80....90.90....90......100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 cellsize 0.00833333333333 >> 6. print / save output in /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 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/1000714/5_holland_new2/class/20200922.09/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 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/1000714/5_holland_new2/class/20200922.03/rain_popDensValues_all.xml >> 7. remove files done lim core Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21//rain_res_all.tif. 0Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.tif. Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03//rain_res_all.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200922.15//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200923.03//rain_popfile_all_clipped.tif. 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200922.21//rain_popfile_all_clipped.tif. 0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.......80...8080....90......9090.......100 - done. 100 - done. 100 - done. Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/20200922.21//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/1000714/5_holland_new2/class/20200923.03//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/1000714/5_holland_new2/class/20200922.15//rain_countryfile_all_clipped.tif. .......1010..10......2020.....20...3030........304040.........405050...50........60.60.60.......70.70.70........808080.........909090.........100 - done. 100 - done. 100 - done. input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 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/1000714/5_holland_new2/class/20200923.03/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 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/1000714/5_holland_new2/class/20200922.21/rain_popDensValues_all.xml >> 7. remove files done input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15//rain_popfile_all_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15//rain_countryfile_all_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15//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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15//rain_countryfile_all_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 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/1000714/5_holland_new2/class/20200922.15/rain_popDensValues_all.xml >> 7. remove files done lim core t0 completed ============================================ 4. Copy files ============================================ check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200912.21/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200912.21/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200912.21/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200912.21/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200912.21/20200912.21_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200912.21/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200912.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200912.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200912.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200912.21/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200912.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200912.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200912.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200912.21/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200912.21/20200912.21_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.03/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.03/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.03/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.03/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.03/20200913.03_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.03/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.03/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.03/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.03/20200913.03_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.09/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.09/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.09/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.09/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.09/20200913.09_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.09/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.09/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.09/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.09/20200913.09_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.15/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.15/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.15/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.15/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.15/20200913.15_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.15/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.15/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.15/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.15/20200913.15_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.21/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200913.21/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.21/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.21/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200913.21/20200913.21_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.21/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.21/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.21/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200913.21/20200913.21_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.03/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.03/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.03/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.03/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.03/20200914.03_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.03/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.03/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.03/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.03/20200914.03_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.09/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.09/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.09/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.09/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.09/20200914.09_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.09/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.09/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.09/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.09/20200914.09_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.15/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.15/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.15/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.15/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.15/20200914.15_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.15/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.15/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.15/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.15/20200914.15_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.21/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200914.21/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.21/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.21/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200914.21/20200914.21_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.21/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.21/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.21/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200914.21/20200914.21_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.03/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.03/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.03/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.03/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.03/20200915.03_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.03/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.03/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.03/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.03/20200915.03_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.09/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.09/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.09/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.09/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.09/20200915.09_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.09/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.09/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.09/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.09/20200915.09_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.15/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.15/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.15/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.15/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.15/20200915.15_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.15/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.15/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.15/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.15/20200915.15_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.21/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200915.21/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.21/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.21/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200915.21/20200915.21_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.21/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.21/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.21/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200915.21/20200915.21_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.03/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.03/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.03/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.03/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.03/20200916.03_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.03/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.03/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.03/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.03/20200916.03_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.09/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.09/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.09/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.09/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.09/20200916.09_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.09/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.09/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.09/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.09/20200916.09_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.15/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.15/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.15/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.15/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.15/20200916.15_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.15/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.15/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.15/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.15/20200916.15_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.21/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200916.21/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.21/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.21/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200916.21/20200916.21_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.21/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.21/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.21/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200916.21/20200916.21_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.03/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.03/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.03/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.03/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.03/20200917.03_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.03/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.03/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.03/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.03/20200917.03_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.09/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.09/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.09/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.09/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.09/20200917.09_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.09/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.09/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.09/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.09/20200917.09_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.15/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.15/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.15/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.15/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.15/20200917.15_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.15/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.15/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.15/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.15/20200917.15_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.21/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200917.21/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.21/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.21/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200917.21/20200917.21_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.21/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.21/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.21/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200917.21/20200917.21_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.03/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.03/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.03/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.03/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.03/20200918.03_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.03/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.03/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.03/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.03/20200918.03_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.09/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.09/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.09/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.09/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.09/20200918.09_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.09/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.09/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.09/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.09/20200918.09_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.15/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.15/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.15/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.15/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.15/20200918.15_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.15/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.15/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.15/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.15/20200918.15_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.21/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200918.21/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.21/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.21/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200918.21/20200918.21_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.21/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.21/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.21/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200918.21/20200918.21_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.03/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.03/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.03/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.03/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.03/20200919.03_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.03/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.03/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.03/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.03/20200919.03_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.09/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.09/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.09/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.09/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.09/20200919.09_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.09/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.09/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.09/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.09/20200919.09_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.15/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.15/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.15/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.15/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.15/20200919.15_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.15/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.15/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.15/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.15/20200919.15_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.21/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200919.21/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.21/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.21/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200919.21/20200919.21_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.21/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.21/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.21/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200919.21/20200919.21_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.03/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.03/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.03/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.03/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.03/20200920.03_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.03/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.03/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.03/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.03/20200920.03_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.09/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.09/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.09/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.09/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.09/20200920.09_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.09/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.09/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.09/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.09/20200920.09_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.15/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.15/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.15/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.15/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.15/20200920.15_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.15/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.15/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.15/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.15/20200920.15_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.21/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200920.21/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.21/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.21/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200920.21/20200920.21_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.21/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.21/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.21/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200920.21/20200920.21_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.03/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.03/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.03/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.03/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.03/20200921.03_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.03/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.03/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.03/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.03/20200921.03_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.09/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.09/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.09/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.09/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.09/20200921.09_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.09/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.09/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.09/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.09/20200921.09_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.15/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.15/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.15/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.15/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.15/20200921.15_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.15/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.15/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.15/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.15/20200921.15_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.21/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200921.21/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.21/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.21/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200921.21/20200921.21_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.21/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.21/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.21/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200921.21/20200921.21_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.03/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.03/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.03/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.03/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.03/20200922.03_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.03/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.03/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.03/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.03/20200922.03_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.09/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.09/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.09/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.09/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.09/20200922.09_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.09/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.09/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.09/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.09/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.09/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.09/20200922.09_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.15/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.15/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.15/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.15/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.15/20200922.15_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.15/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.15/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.15/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.15/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.15/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.15/20200922.15_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.21/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200922.21/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.21/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.21/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200922.21/20200922.21_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.21/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.21/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.21/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.21/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.21/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200922.21/20200922.21_copy_completed_rain.txt check t0 xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03/rain_popDensValues_stept0.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200923.03/rain_popDensValues_t0.xml check all xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/20200923.03/rain_popDensValues_all.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200923.03/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200923.03/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/20200923.03/20200923.03_rain.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200923.03/rain.json >> !!!! Check Copy !!!! , listfiles_copy , /mnt/output/SSCS/20Creating output file that is 4799P x 5400L. Processing input file /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif. Using internal nodata values (e.g. 1.17549e-38) for image /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif. Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif to destination /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/final//rain_res_final.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/final//rain_popfile_final_clipped.tif. 0...10...20...30...40...50...60...70...80...90...100 - done. Creating output file that is 4799P x 5400L. 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/1000714/5_holland_new2/class/final//rain_countryfile_final_clipped.tif. ...10...20...30...40...50...60...70...80...90...100 - done. 20/GDACS/1000714/5_holland_new2/delft3d/20200923.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200923.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200923.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200923.03/rain_popDensValues.xml , listfiles_all , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200923.03/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200923.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200923.03/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200923.03/rain_popDensValues.xml all files copied copycheck: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/20200923.03/20200923.03_copy_completed_rain.txt >> 3.2. Classify final folder /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/final/20200923.03_final_completed_rain.txt input var: rain Input File: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.tif hurName: hdate: var: rain description: rain: _ (holland) OutDir: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/final// PopFile: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/final//rain_popfile_final_clipped.tif country: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/final//rain_countryfile_final_clipped.tif outxml file: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/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 -69.985 9.98500000002 -29.9933333333 54.985 holland /usr/bin/gdalwarp -te -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/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 -69.985 9.98500000002 -29.9933333333 54.985 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/final//rain_countryfile_final_clipped.tif" >> 4. classify the vmax file creating another array of values classified cellsize 0.00833333333333 cellsize 0.00833333333334 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/1000714/5_holland_new2/class/final/rain_popDensValues_final.xml >> 7. remove files done copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/class/final/rain_popDensValues_final.xml in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/final/rain_popDensValues.xml copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_FINAL.jpg in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/final/rain.jpg copy: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/tif/final/rain_final.json in: /mnt/output/SSCS/2020/GDACS/1000714/5_holland_new2/delft3d/final/rain.json ******************************************************* * Case Completed * ******************************************************* Case starterd at: 2020-10-07 15:32:21.319900 UTC Case completed at: 2020-10-07 16:22:12.872472 UTC **********E N D O F J O B***********************