2025-10-14 08:24:46 INFO ::casa Using user configuration file /home/casatest/.casa/config.py 2025-10-14 08:24:46 INFO ::casa loaded config file : /wheeldirectory/casa-6.7.1-12-py3.12.el8/lib/py/lib/python3.12/site-packages/casaconfig/config.py 2025-10-14 08:24:46 INFO ::casa loaded config file : /home/casatest/.casa/config.py 2025-10-14 08:24:46 INFO ::casa 2025-10-14 08:24:46 INFO ::casa config values 2025-10-14 08:24:46 INFO ::casa agg = False 2025-10-14 08:24:46 INFO ::casa cachedir = '/home/casatest/.casa' 2025-10-14 08:24:46 INFO ::casa casaconfig_verbose = 1 2025-10-14 08:24:46 INFO ::casa colors = 'Neutral' 2025-10-14 08:24:46 INFO ::casa data_auto_update = False 2025-10-14 08:24:46 INFO ::casa datapath = ['/opt/casa/data/master', '/opt/casa/data/casatestdata'] 2025-10-14 08:24:46 INFO ::casa iplog = False 2025-10-14 08:24:46 INFO ::casa iplogfile = '/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/ipython-20251014-082443.log' 2025-10-14 08:24:46 INFO ::casa log2term = True 2025-10-14 08:24:46 INFO ::casa logfile = '/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/casa-20251014-082443.log' 2025-10-14 08:24:46 INFO ::casa measures_auto_update = False 2025-10-14 08:24:46 INFO ::casa measurespath = '/opt/casa/data/master' 2025-10-14 08:24:46 INFO ::casa nogui = False 2025-10-14 08:24:46 INFO ::casa nologfile = False 2025-10-14 08:24:46 INFO ::casa nologger = True 2025-10-14 08:24:46 INFO ::casa pipeline = False 2025-10-14 08:24:46 INFO ::casa startupfile = '/home/casatest/.casa/startup.py' 2025-10-14 08:24:46 INFO ::casa user_site = False 2025-10-14 08:24:46 INFO ::casa 2025-10-14 08:24:46 INFO ::casa casarundata version is unknown, this is probably a legacy version not installed by casaconfig 2025-10-14 08:24:46 INFO ::casa measures version is unknown, this is probably a legacy version not installed by casaconfig 2025-10-14 08:24:46 INFO ::casa 2025-10-14 08:24:46 INFO ::casa Checking Measures tables in data repository sub-directory /opt/casa/data/master/geodetic 2025-10-14 08:24:46 INFO ::casa IERSeop2000 (version date, last date in table (UTC)): 2025/10/06/15:15, 2025/09/06/00:00:00 2025-10-14 08:24:46 INFO ::casa IERSeop97 (version date, last date in table (UTC)): 2025/10/06/15:15, 2025/09/06/00:00:00 2025-10-14 08:24:46 INFO ::casa IERSpredict (version date, last date in table (UTC)): 2025/10/13/15:15, 2026/01/11/00:00:00 2025-10-14 08:24:46 INFO ::casa TAI_UTC (version date, last date in table (UTC)): 2025/09/16/15:15, 2017/01/01/00:00:00 Running tests... ---------------------------------------------------------------------- Using user configuration file /home/casatest/.casa/config.py No event loop hook running. Using matplotlib backend: agg CASA 6.7.1.12 -- Common Astronomy Software Applications [6.7.1.12] 2025-10-14 08:24:46 SEVERE cvel2::::casa Exception Reported: Error in cvel2: the vis parameter must be a path that exists ('' does not exist) 2025-10-14 08:24:46 INFO cvel2::::casa Traceback (most recent call last): 2025-10-14 08:24:46 INFO cvel2::::casa+ File "/wheeldirectory/casa-6.7.1-12-py3.12.el8/lib/py/lib/python3.12/site-packages/casashell/private/cvel2.py", line 1099, in __call__ 2025-10-14 08:24:46 INFO cvel2::::casa+ assert _pc.validate(_invocation_parameters,self.__schema), create_error_string(_pc.errors) 2025-10-14 08:24:46 INFO cvel2::::casa+ ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ 2025-10-14 08:24:46 INFO cvel2::::casa+ AssertionError: the vis parameter must be a path that exists ('' does not exist) Expected error! .2025-10-14 08:24:46 INFO cvel2::::casa ########################################## 2025-10-14 08:24:46 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:24:46 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='9', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=1, start='4.8351GHz', width='50MHz', interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:24:46 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:24:46 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:24:46 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:24:46 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:24:46 INFO MSTransformManager::parseDataSelParams field selection is 9 2025-10-14 08:24:46 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:24:46 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:24:46 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:24:46 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:24:46 INFO MSTransformManager::parseFreqSpecParams Mode is frequency 2025-10-14 08:24:46 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 1 2025-10-14 08:24:46 INFO MSTransformManager::parseFreqSpecParams Start is 4.8351GHz 2025-10-14 08:24:46 INFO MSTransformManager::parseFreqSpecParams Width is 50MHz 2025-10-14 08:24:46 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:24:46 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [9] 2025-10-14 08:24:46 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:24:46 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:24:46 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:24:46 INFO MSTransformManager::open Select data 2025-10-14 08:24:46 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:24:46 INFO MSTransformDataHandler::makeSelection 72402 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:24:46 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:24:46 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:24:46 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:24:46 INFO MSTransformRegridder::combineSpwsCore SPW 1: 1 channels, first channel = 4.835100000e+09 Hz 2025-10-14 08:24:46 INFO MSTransformRegridder::combineSpwsCore SPW 0: 1 channels, first channel = 4.885100000e+09 Hz 2025-10-14 08:24:46 INFO MSTransformManager::regridSpwAux Combined SPW: 2 channels, first channel = 4.835100000e+09 Hz, last channel = 4.885100000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:24:46 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:24:46 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:24:46 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 4.8351e+09 Hz 2025-10-14 08:24:46 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 5e+07 Hz 2025-10-14 08:24:46 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 1 2025-10-14 08:24:46 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 5e+07 Hz 2025-10-14 08:24:46 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 4.8101e+09 Hz, upper edge = 4.8601e+09 Hz 2025-10-14 08:24:46 INFO MSTransformManager::regridSpwAux Output SPW: 1 channels, first channel = 4.835100000e+09 Hz, last channel = 4.835100000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:24:46 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:24:46 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:24:46 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:24:46 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:24:46 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:24:48 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:24:45.992250 End time: 2025-10-14 08:24:48.080813 2025-10-14 08:24:48 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:24:48 INFO cvel2::::casa ########################################## .2025-10-14 08:24:48 INFO cvel2::::casa ########################################## 2025-10-14 08:24:48 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:24:48 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='10', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=1, start=1, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='lsrk', veltype='radio', hanning=False ) 2025-10-14 08:24:48 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:24:48 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:24:48 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:24:48 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:24:48 INFO MSTransformManager::parseDataSelParams field selection is 10 2025-10-14 08:24:48 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:24:48 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:24:48 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:24:48 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is lsrk 2025-10-14 08:24:48 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:24:48 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:24:48 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 1 2025-10-14 08:24:48 INFO MSTransformManager::parseFreqSpecParams Start is 1 2025-10-14 08:24:48 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:24:48 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:24:48 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [10] 2025-10-14 08:24:48 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:24:48 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:24:48 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:24:48 INFO MSTransformManager::open Select data 2025-10-14 08:24:48 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:24:48 INFO MSTransformDataHandler::makeSelection 81348 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:24:48 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:24:48 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:24:48 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:24:48 INFO MSTransformRegridder::combineSpwsCore SPW 1: 1 channels, first channel = 4.835100000e+09 Hz 2025-10-14 08:24:48 INFO MSTransformRegridder::combineSpwsCore SPW 0: 1 channels, first channel = 4.885100000e+09 Hz 2025-10-14 08:24:48 INFO MSTransformManager::regridSpwAux Combined SPW: 2 channels, first channel = 4.835100000e+09 Hz, last channel = 4.885100000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:24:48 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:24:49 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:24:49 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 4.88445e+09 Hz 2025-10-14 08:24:49 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 4.99934e+07 Hz 2025-10-14 08:24:49 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 1 2025-10-14 08:24:49 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 4.99934e+07 Hz 2025-10-14 08:24:49 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 4.85946e+09 Hz, upper edge = 4.90945e+09 Hz 2025-10-14 08:24:49 INFO MSTransformManager::regridSpwAux Output SPW: 1 channels, first channel = 4.884454000e+09 Hz, last channel = 4.884454000e+09 Hz, first width = 4.999338805e+07 Hz, last width = 4.999338805e+07 Hz 2025-10-14 08:24:49 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:24:49 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:24:49 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:24:49 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:24:49 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:24:50 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:24:48.125092 End time: 2025-10-14 08:24:50.436806 2025-10-14 08:24:50 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:24:50 INFO cvel2::::casa ########################################## .2025-10-14 08:24:50 INFO cvel2::::casa ########################################## 2025-10-14 08:24:50 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:24:50 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='10', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=1, start=1, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='LSRK', veltype='radio', hanning=False ) 2025-10-14 08:24:50 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:24:51 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:24:51 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:24:51 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:24:51 INFO MSTransformManager::parseDataSelParams field selection is 10 2025-10-14 08:24:51 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:24:51 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:24:51 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:24:51 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is LSRK 2025-10-14 08:24:51 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:24:51 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:24:51 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 1 2025-10-14 08:24:51 INFO MSTransformManager::parseFreqSpecParams Start is 1 2025-10-14 08:24:51 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:24:51 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:24:51 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [10] 2025-10-14 08:24:51 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:24:51 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:24:51 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:24:51 INFO MSTransformManager::open Select data 2025-10-14 08:24:51 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:24:51 INFO MSTransformDataHandler::makeSelection 81348 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:24:51 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:24:51 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:24:51 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:24:51 INFO MSTransformRegridder::combineSpwsCore SPW 1: 1 channels, first channel = 4.835100000e+09 Hz 2025-10-14 08:24:51 INFO MSTransformRegridder::combineSpwsCore SPW 0: 1 channels, first channel = 4.885100000e+09 Hz 2025-10-14 08:24:51 INFO MSTransformManager::regridSpwAux Combined SPW: 2 channels, first channel = 4.835100000e+09 Hz, last channel = 4.885100000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:24:51 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:24:51 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:24:51 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 4.88445e+09 Hz 2025-10-14 08:24:51 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 4.99934e+07 Hz 2025-10-14 08:24:51 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 1 2025-10-14 08:24:51 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 4.99934e+07 Hz 2025-10-14 08:24:51 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 4.85946e+09 Hz, upper edge = 4.90945e+09 Hz 2025-10-14 08:24:51 INFO MSTransformManager::regridSpwAux Output SPW: 1 channels, first channel = 4.884454000e+09 Hz, last channel = 4.884454000e+09 Hz, first width = 4.999338805e+07 Hz, last width = 4.999338805e+07 Hz 2025-10-14 08:24:51 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:24:51 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:24:51 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:24:51 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:24:51 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:24:53 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:24:50.479022 End time: 2025-10-14 08:24:52.724769 2025-10-14 08:24:53 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:24:53 INFO cvel2::::casa ########################################## .2025-10-14 08:24:53 INFO cvel2::::casa ########################################## 2025-10-14 08:24:53 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:24:53 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='5,6', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=2, start='4.8101 GHz', width='50 MHz', interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:24:53 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:24:53 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:24:53 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:24:53 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:24:53 INFO MSTransformManager::parseDataSelParams field selection is 5,6 2025-10-14 08:24:53 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:24:53 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:24:53 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:24:53 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:24:53 INFO MSTransformManager::parseFreqSpecParams Mode is frequency 2025-10-14 08:24:53 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 2 2025-10-14 08:24:53 INFO MSTransformManager::parseFreqSpecParams Start is 4.8101 GHz 2025-10-14 08:24:53 INFO MSTransformManager::parseFreqSpecParams Width is 50 MHz 2025-10-14 08:24:53 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:24:53 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [5, 6] 2025-10-14 08:24:53 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:24:53 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:24:53 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:24:53 INFO MSTransformManager::open Select data 2025-10-14 08:24:53 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:24:53 INFO MSTransformDataHandler::makeSelection 169078 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:24:53 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:24:53 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:24:53 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:24:53 INFO MSTransformRegridder::combineSpwsCore SPW 1: 1 channels, first channel = 4.835100000e+09 Hz 2025-10-14 08:24:53 INFO MSTransformRegridder::combineSpwsCore SPW 0: 1 channels, first channel = 4.885100000e+09 Hz 2025-10-14 08:24:53 INFO MSTransformManager::regridSpwAux Combined SPW: 2 channels, first channel = 4.835100000e+09 Hz, last channel = 4.885100000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:24:53 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:24:53 INFO MSTransformRegridder::calcChanFreqs *** Requested center of SPW (4.7851e+09 Hz) is smaller than minimum possible value by 2.5e+07 Hz 2025-10-14 08:24:53 INFO MSTransformRegridder::calcChanFreqs+ *** Reset to minimum possible value 4.8101e+09 Hz Channels equidistant in freq 2025-10-14 08:24:53 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 4.8601e+09 Hz 2025-10-14 08:24:53 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 5e+07 Hz 2025-10-14 08:24:53 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 2 2025-10-14 08:24:53 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1e+08 Hz 2025-10-14 08:24:53 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 4.8101e+09 Hz, upper edge = 4.9101e+09 Hz 2025-10-14 08:24:53 INFO MSTransformManager::regridSpwAux Output SPW: 2 channels, first channel = 4.835100000e+09 Hz, last channel = 4.885100000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:24:53 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:24:53 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:24:53 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:24:53 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:24:53 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:24:57 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:24:52.756377 End time: 2025-10-14 08:24:57.154353 2025-10-14 08:24:57 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:24:57 INFO cvel2::::casa ########################################## .2025-10-14 08:24:57 INFO importuvfits::::casa ########################################## 2025-10-14 08:24:57 INFO importuvfits::::casa ##### Begin Task: importuvfits ##### 2025-10-14 08:24:57 INFO importuvfits::::casa importuvfits( fitsfile='/opt/casa/data/casatestdata/unittest/cvel/ngc4826.ll.fits5', vis='ngc4826.ms', antnamescheme='old' ) 2025-10-14 08:24:57 INFO importuvfits::::casa 2025-10-14 08:24:57 INFO MSFitsInput::MSFitsInput Converting FITS file '/opt/casa/data/casatestdata/unittest/cvel/ngc4826.ll.fits5' to MeasurementSet 'ngc4826.ms' 2025-10-14 08:24:57 INFO MSFitsInput::setupMeasurementSet Using tile shape [1, 64, 2048] for HATCREEK with obstype=0 2025-10-14 08:24:57 INFO MSFitsInput::fillMSMainTableColWise FREQSEL not found in UU VV WW BASELINE DATE SOURCE 2025-10-14 08:24:57 INFO MSFitsInput::fillMSMainTableColWise Reading and writing 13860 visibility groups 2025-10-14 08:24:58 INFO MSFitsInput::readRandomGroupUVFits extname=AIPS SU nrows=7 ncols=19 rowsize=132 pcount=0 gcount=1 2025-10-14 08:24:58 INFO MSFitsInput::readRandomGroupUVFits extname=AIPS AN nrows=12 ncols=12 rowsize=78 pcount=0 gcount=1 2025-10-14 08:24:58 WARN MSFitsInput::fillAntennaTable XYZHAND keyword not found in AN table. Will assume antenna coordinate system is right handed. 2025-10-14 08:24:58 INFO MSFitsInput::fillExtraTables Filling SOURCE table (this may take some time). 2025-10-14 08:24:58 INFO importuvfits::::casa Task importuvfits complete. Start time: 2025-10-14 08:24:57.199075 End time: 2025-10-14 08:24:57.624343 2025-10-14 08:24:58 INFO importuvfits::::casa ##### End Task: importuvfits ##### 2025-10-14 08:24:58 INFO importuvfits::::casa ########################################## 2025-10-14 08:24:58 INFO cvel2::::casa ########################################## 2025-10-14 08:24:58 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:24:58 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='1', spw='0', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=2, start='115GHz', width='3MHz', interpolation='linear', phasecenter=1, restfreq='', outframe='BARY', veltype='radio', hanning=False ) 2025-10-14 08:24:58 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:24:58 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:24:58 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:24:58 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:24:58 INFO MSTransformManager::parseDataSelParams field selection is 1 2025-10-14 08:24:58 INFO MSTransformManager::parseDataSelParams spw selection is 0 2025-10-14 08:24:58 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:24:58 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:24:58 INFO MSTransformManager::parseRefFrameTransParams Field Id for phase center is 1 2025-10-14 08:24:58 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is BARY 2025-10-14 08:24:58 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:24:58 INFO MSTransformManager::parseFreqSpecParams Mode is frequency 2025-10-14 08:24:58 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 2 2025-10-14 08:24:58 INFO MSTransformManager::parseFreqSpecParams Start is 115GHz 2025-10-14 08:24:58 INFO MSTransformManager::parseFreqSpecParams Width is 3MHz 2025-10-14 08:24:58 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:24:58 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [1] 2025-10-14 08:24:58 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:24:58 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 63, 1] 2025-10-14 08:24:58 INFO MSTransformManager::open Select data 2025-10-14 08:24:58 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:24:58 INFO MSTransformDataHandler::makeSelection 1865 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:24:58 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:24:58 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:24:58 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:24:58 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:24:58 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:24:58 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:24:58 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.15002e+11 Hz 2025-10-14 08:24:58 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 3e+06 Hz 2025-10-14 08:24:58 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 2 2025-10-14 08:24:58 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 6e+06 Hz 2025-10-14 08:24:58 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14998e+11 Hz, upper edge = 1.15004e+11 Hz 2025-10-14 08:24:58 INFO MSTransformManager::regridSpwAux Output SPW: 2 channels, first channel = 1.150000000e+11 Hz, last channel = 1.150030000e+11 Hz, first width = 3.000000000e+06 Hz, last width = 3.000000000e+06 Hz 2025-10-14 08:24:58 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:24:57.640354 End time: 2025-10-14 08:24:58.042304 2025-10-14 08:24:58 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:24:58 INFO cvel2::::casa ########################################## .2025-10-14 08:24:58 INFO cvel2::::casa ########################################## 2025-10-14 08:24:58 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:24:58 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='1', spw='0', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=2, start='150GHz', width='3MHz', interpolation='linear', phasecenter=12, restfreq='', outframe='BARY', veltype='radio', hanning=False ) 2025-10-14 08:24:58 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:24:58 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:24:58 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:24:58 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:24:58 INFO MSTransformManager::parseDataSelParams field selection is 1 2025-10-14 08:24:58 INFO MSTransformManager::parseDataSelParams spw selection is 0 2025-10-14 08:24:58 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:24:58 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:24:58 INFO MSTransformManager::parseRefFrameTransParams Field Id for phase center is 12 2025-10-14 08:24:58 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is BARY 2025-10-14 08:24:58 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:24:58 INFO MSTransformManager::parseFreqSpecParams Mode is frequency 2025-10-14 08:24:58 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 2 2025-10-14 08:24:58 INFO MSTransformManager::parseFreqSpecParams Start is 150GHz 2025-10-14 08:24:58 INFO MSTransformManager::parseFreqSpecParams Width is 3MHz 2025-10-14 08:24:58 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:24:58 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [1] 2025-10-14 08:24:58 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:24:58 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 63, 1] 2025-10-14 08:24:58 INFO MSTransformManager::open Select data 2025-10-14 08:24:58 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:24:58 INFO MSTransformDataHandler::makeSelection 1865 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:24:58 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:24:58 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:24:58 SEVERE MSTransformManager::determinePhaseCenter Selected FIELD_ID to determine phase center does not exist 2025-10-14 08:24:58 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:24:58 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:24:58 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:24:58 INFO MSTransformRegridder::calcChanFreqs *** Requested center of SPW 1.49998e+11 Hz is too large by 3.49468e+10 Hz 2025-10-14 08:24:58 INFO MSTransformRegridder::calcChanFreqs+ *** Reset to maximum possible value 1.15053e+11 Hz Channels equidistant in freq 2025-10-14 08:24:58 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.15056e+11 Hz 2025-10-14 08:24:58 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 3e+06 Hz 2025-10-14 08:24:58 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 2 2025-10-14 08:24:58 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 6e+06 Hz 2025-10-14 08:24:58 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.15053e+11 Hz, upper edge = 1.15059e+11 Hz 2025-10-14 08:24:58 INFO MSTransformManager::regridSpwAux Output SPW: 2 channels, first channel = 1.150547476e+11 Hz, last channel = 1.150577476e+11 Hz, first width = 3.000000000e+06 Hz, last width = 3.000000000e+06 Hz 2025-10-14 08:24:58 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:24:58.074802 End time: 2025-10-14 08:24:58.445219 2025-10-14 08:24:58 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:24:58 INFO cvel2::::casa ########################################## .2025-10-14 08:24:58 INFO cvel2::::casa ########################################## 2025-10-14 08:24:58 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:24:58 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='12', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=1, start='4.850GHz', width='50MHz', interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:24:58 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:24:58 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:24:58 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:24:58 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:24:58 INFO MSTransformManager::parseDataSelParams field selection is 12 2025-10-14 08:24:58 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:24:58 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:24:58 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:24:58 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:24:58 INFO MSTransformManager::parseFreqSpecParams Mode is frequency 2025-10-14 08:24:58 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 1 2025-10-14 08:24:58 INFO MSTransformManager::parseFreqSpecParams Start is 4.850GHz 2025-10-14 08:24:58 INFO MSTransformManager::parseFreqSpecParams Width is 50MHz 2025-10-14 08:24:58 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:24:58 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [12] 2025-10-14 08:24:58 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:24:58 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:24:58 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:24:58 INFO MSTransformManager::open Select data 2025-10-14 08:24:59 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:24:59 INFO MSTransformDataHandler::makeSelection 58740 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:24:59 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:24:59 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:24:59 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:24:59 INFO MSTransformRegridder::combineSpwsCore SPW 1: 1 channels, first channel = 4.835100000e+09 Hz 2025-10-14 08:24:59 INFO MSTransformRegridder::combineSpwsCore SPW 0: 1 channels, first channel = 4.885100000e+09 Hz 2025-10-14 08:24:59 INFO MSTransformManager::regridSpwAux Combined SPW: 2 channels, first channel = 4.835100000e+09 Hz, last channel = 4.885100000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:24:59 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:24:59 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:24:59 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 4.85e+09 Hz 2025-10-14 08:24:59 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 5e+07 Hz 2025-10-14 08:24:59 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 1 2025-10-14 08:24:59 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 5e+07 Hz 2025-10-14 08:24:59 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 4.825e+09 Hz, upper edge = 4.875e+09 Hz 2025-10-14 08:24:59 INFO MSTransformManager::regridSpwAux Output SPW: 1 channels, first channel = 4.850000000e+09 Hz, last channel = 4.850000000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:24:59 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:24:59 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:24:59 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:24:59 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:24:59 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:00 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:24:58.470549 End time: 2025-10-14 08:25:00.046760 2025-10-14 08:25:00 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:00 INFO cvel2::::casa ########################################## .2025-10-14 08:25:00 INFO cvel2::::casa ########################################## 2025-10-14 08:25:00 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:00 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='2,3', spw='0', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=10, start=2, width=1, interpolation='linear', phasecenter=2, restfreq='', outframe='lsrd', veltype='radio', hanning=False ) 2025-10-14 08:25:00 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:00 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:00 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:00 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:00 INFO MSTransformManager::parseDataSelParams field selection is 2,3 2025-10-14 08:25:00 INFO MSTransformManager::parseDataSelParams spw selection is 0 2025-10-14 08:25:00 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:00 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:00 INFO MSTransformManager::parseRefFrameTransParams Field Id for phase center is 2 2025-10-14 08:25:00 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is lsrd 2025-10-14 08:25:00 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:00 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:00 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 10 2025-10-14 08:25:00 INFO MSTransformManager::parseFreqSpecParams Start is 2 2025-10-14 08:25:00 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:25:00 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:00 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [2, 3] 2025-10-14 08:25:00 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:25:00 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 63, 1] 2025-10-14 08:25:00 INFO MSTransformManager::open Select data 2025-10-14 08:25:00 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:00 INFO MSTransformDataHandler::makeSelection 3730 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:00 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:00 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:00 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:00 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:00 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:00 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:00 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.14961e+11 Hz 2025-10-14 08:25:00 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.5625e+06 Hz 2025-10-14 08:25:00 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 10 2025-10-14 08:25:00 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1.5625e+07 Hz 2025-10-14 08:25:00 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14953e+11 Hz, upper edge = 1.14968e+11 Hz 2025-10-14 08:25:00 INFO MSTransformManager::regridSpwAux Output SPW: 10 channels, first channel = 1.149535452e+11 Hz, last channel = 1.149676078e+11 Hz, first width = 1.562503121e+06 Hz, last width = 1.562503121e+06 Hz 2025-10-14 08:25:01 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:00.077411 End time: 2025-10-14 08:25:00.641005 2025-10-14 08:25:01 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:01 INFO cvel2::::casa ########################################## .2025-10-14 08:25:01 INFO cvel2::::casa ########################################## 2025-10-14 08:25:01 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:01 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='2,3', spw='0', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=10, start='114.9527GHz', width='3.125MHz', interpolation='linear', phasecenter=2, restfreq='', outframe='lsrd', veltype='radio', hanning=False ) 2025-10-14 08:25:01 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:01 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:01 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:01 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:01 INFO MSTransformManager::parseDataSelParams field selection is 2,3 2025-10-14 08:25:01 INFO MSTransformManager::parseDataSelParams spw selection is 0 2025-10-14 08:25:01 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:01 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:01 INFO MSTransformManager::parseRefFrameTransParams Field Id for phase center is 2 2025-10-14 08:25:01 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is lsrd 2025-10-14 08:25:01 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:01 INFO MSTransformManager::parseFreqSpecParams Mode is frequency 2025-10-14 08:25:01 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 10 2025-10-14 08:25:01 INFO MSTransformManager::parseFreqSpecParams Start is 114.9527GHz 2025-10-14 08:25:01 INFO MSTransformManager::parseFreqSpecParams Width is 3.125MHz 2025-10-14 08:25:01 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:01 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [2, 3] 2025-10-14 08:25:01 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:25:01 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 63, 1] 2025-10-14 08:25:01 INFO MSTransformManager::open Select data 2025-10-14 08:25:01 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:01 INFO MSTransformDataHandler::makeSelection 3730 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:01 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:01 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:01 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:01 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:01 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:01 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:01 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.14967e+11 Hz 2025-10-14 08:25:01 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 3.125e+06 Hz 2025-10-14 08:25:01 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 10 2025-10-14 08:25:01 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 3.125e+07 Hz 2025-10-14 08:25:01 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14951e+11 Hz, upper edge = 1.14982e+11 Hz 2025-10-14 08:25:01 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Ratio between input and output width is >=2: 2, but not doing pre-channel average (it is disabled by default since CASA release 5.0). 2025-10-14 08:25:01 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Regridding to intermediate grid (64 channels) for interpolation as in tclean when the ratio between the output and input widths is >2. 2025-10-14 08:25:01 INFO MSTransformManager::regridSpwAux Output SPW: 10 channels, first channel = 1.149527000e+11 Hz, last channel = 1.149808250e+11 Hz, first width = 3.125000000e+06 Hz, last width = 3.125000000e+06 Hz 2025-10-14 08:25:01 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:00.666632 End time: 2025-10-14 08:25:01.316462 2025-10-14 08:25:01 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:01 INFO cvel2::::casa ########################################## .2025-10-14 08:25:01 INFO cvel2::::casa ########################################## 2025-10-14 08:25:01 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:01 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='2,3', spw='0', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=10, start='114.9527GHz', width='3.125MHz', interpolation='linear', phasecenter='J2000 12h56m43.88s +21d41m00.1s', restfreq='', outframe='lsrd', veltype='radio', hanning=False ) 2025-10-14 08:25:01 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:01 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:01 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:01 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:01 INFO MSTransformManager::parseDataSelParams field selection is 2,3 2025-10-14 08:25:01 INFO MSTransformManager::parseDataSelParams spw selection is 0 2025-10-14 08:25:01 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:01 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:01 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 12h56m43.88s +21d41m00.1s 2025-10-14 08:25:01 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is lsrd 2025-10-14 08:25:01 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:01 INFO MSTransformManager::parseFreqSpecParams Mode is frequency 2025-10-14 08:25:01 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 10 2025-10-14 08:25:01 INFO MSTransformManager::parseFreqSpecParams Start is 114.9527GHz 2025-10-14 08:25:01 INFO MSTransformManager::parseFreqSpecParams Width is 3.125MHz 2025-10-14 08:25:01 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:01 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [2, 3] 2025-10-14 08:25:01 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:25:01 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 63, 1] 2025-10-14 08:25:01 INFO MSTransformManager::open Select data 2025-10-14 08:25:01 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:01 INFO MSTransformDataHandler::makeSelection 3730 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:02 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:02 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:02 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:02 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:02 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:02 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:02 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.14967e+11 Hz 2025-10-14 08:25:02 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 3.125e+06 Hz 2025-10-14 08:25:02 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 10 2025-10-14 08:25:02 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 3.125e+07 Hz 2025-10-14 08:25:02 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14951e+11 Hz, upper edge = 1.14982e+11 Hz 2025-10-14 08:25:02 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Ratio between input and output width is >=2: 2, but not doing pre-channel average (it is disabled by default since CASA release 5.0). 2025-10-14 08:25:02 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Regridding to intermediate grid (64 channels) for interpolation as in tclean when the ratio between the output and input widths is >2. 2025-10-14 08:25:02 INFO MSTransformManager::regridSpwAux Output SPW: 10 channels, first channel = 1.149527000e+11 Hz, last channel = 1.149808250e+11 Hz, first width = 3.125000000e+06 Hz, last width = 3.125000000e+06 Hz 2025-10-14 08:25:02 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:01.346472 End time: 2025-10-14 08:25:01.951641 2025-10-14 08:25:02 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:02 INFO cvel2::::casa ########################################## .total 184 -rw-r--r-- 1 casatest casatest 56260 Oct 14 08:25 casa-20251014-082443.log -rw-r--r-- 1 casatest casatest 1015 Oct 14 08:25 cvel2.last drwxr-xr-x 16 casatest casatest 4096 Oct 14 08:25 g19_d2usb_targets_line-shortened-thinned.ms -rw-r--r-- 1 casatest casatest 252 Oct 14 08:24 importuvfits.last drwxr-xr-x 15 casatest casatest 4096 Oct 14 08:24 jupiter6cm.demo-thinned.ms drwxr-xr-x 15 casatest casatest 4096 Oct 14 08:24 ngc4826.ms -rw-r--r-- 1 casatest casatest 51270 Oct 14 08:24 test_task_cvel2_casashell.py -rw-r--r-- 1 casatest casatest 0 Oct 14 08:24 test_task_cvel2_casashell.py.xml -rw-r--r-- 1 casatest casatest 55868 Oct 14 08:25 test_task_cvel2_casashell_out.log 2025-10-14 08:25:02 INFO cvel2::::casa ########################################## 2025-10-14 08:25:02 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:02 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=10, start=100, width=2, interpolation='linear', phasecenter='J2000 18h25m56.09 -12d04m28.20', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:02 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:02 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:02 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:02 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:02 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:02 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:02 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 18h25m56.09 -12d04m28.20 2025-10-14 08:25:02 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:02 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:02 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 10 2025-10-14 08:25:02 INFO MSTransformManager::parseFreqSpecParams Start is 100 2025-10-14 08:25:02 INFO MSTransformManager::parseFreqSpecParams Width is 2 2025-10-14 08:25:02 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:02 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:02 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:02 INFO MSTransformManager::open Select data 2025-10-14 08:25:02 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:02 INFO MSTransformDataHandler::makeSelection 6600 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:03 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:03 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 2.293475983e+11 Hz, last channel = 2.294507858e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 2.294296007e+11 Hz, last channel = 2.295327882e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 2.295047903e+11 Hz, last channel = 2.296079778e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 2.295867920e+11 Hz, last channel = 2.296899795e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 2.296756065e+11 Hz, last channel = 2.297787940e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 2.297576090e+11 Hz, last channel = 2.298607965e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 2.298327978e+11 Hz, last channel = 2.299359853e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 2.299148003e+11 Hz, last channel = 2.300179878e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 2.300036148e+11 Hz, last channel = 2.301068023e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 2.300856172e+11 Hz, last channel = 2.301888047e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 2.301608061e+11 Hz, last channel = 2.302639936e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 2.302428085e+11 Hz, last channel = 2.303459960e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 2.303316230e+11 Hz, last channel = 2.304348105e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 2.304888143e+11 Hz, last channel = 2.305920018e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 2.305708167e+11 Hz, last channel = 2.306740042e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 2.308168225e+11 Hz, last channel = 2.309200100e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 2.308988250e+11 Hz, last channel = 2.310020125e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 2.309876395e+11 Hz, last channel = 2.310908270e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 2.310696412e+11 Hz, last channel = 2.311728287e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 2.311448308e+11 Hz, last channel = 2.312480183e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 2.312268332e+11 Hz, last channel = 2.313300207e+11 Hz 2025-10-14 08:25:03 INFO MSTransformManager::regridSpwAux Combined SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:03 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:03 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:03 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.29437e+11 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.625e+06 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 10 2025-10-14 08:25:03 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1.625e+07 Hz 2025-10-14 08:25:03 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.29428e+11 Hz, upper edge = 2.29445e+11 Hz 2025-10-14 08:25:03 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Ratio between input and output width is >=2: 2, but not doing pre-channel average (it is disabled by default since CASA release 5.0). 2025-10-14 08:25:03 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Regridding to intermediate grid (2425 channels) for interpolation as in tclean when the ratio between the output and input widths is >2. 2025-10-14 08:25:03 INFO MSTransformManager::regridSpwAux Output SPW: 10 channels, first channel = 2.294292546e+11 Hz, last channel = 2.294438796e+11 Hz, first width = 1.625000000e+06 Hz, last width = 1.625000000e+06 Hz 2025-10-14 08:25:03 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:03 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:03 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:03 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:03 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:04 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:02.124575 End time: 2025-10-14 08:25:04.021121 2025-10-14 08:25:04 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:04 INFO cvel2::::casa ########################################## HERE .2025-10-14 08:25:04 INFO cvel2::::casa ########################################## 2025-10-14 08:25:04 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:04 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=-1, start=0, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:04 SEVERE cvel2::::casa Exception Reported: Error in cvel2: Must provide output data set name in parameter outputvis. 2025-10-14 08:25:04 INFO cvel2::::casa Traceback (most recent call last): 2025-10-14 08:25:04 INFO cvel2::::casa+ File "/wheeldirectory/casa-6.7.1-12-py3.12.el8/lib/py/lib/python3.12/site-packages/casashell/private/cvel2.py", line 1101, in __call__ 2025-10-14 08:25:04 INFO cvel2::::casa+ task_result = _cvel2_t( _pc.document['vis'],_pc.document['outputvis'],_pc.document['keepmms'],_pc.document['passall'],_pc.document['field'],_pc.document['spw'],_pc.document['scan'],_pc.document['antenna'],_pc.document['correlation'],_pc.document['timerange'],_pc.document['intent'],_pc.document['array'],_pc.document['uvrange'],_pc.document['observation'],_pc.document['feed'],_pc.document['datacolumn'],_pc.document['mode'],_pc.document['nchan'],_pc.document['start'],_pc.document['width'],_pc.document['interpolation'],_pc.document['phasecenter'],_pc.document['restfreq'],_pc.document['outframe'],_pc.document['veltype'],_pc.document['hanning'] ) 2025-10-14 08:25:04 INFO cvel2::::casa+ ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ 2025-10-14 08:25:04 INFO cvel2::::casa+ File "/wheeldirectory/casa-6.7.1-12-py3.12.el8/lib/py/lib/python3.12/site-packages/casatasks/private/task_cvel2.py", line 45, in cvel2 2025-10-14 08:25:04 INFO cvel2::::casa+ assert outputvis != '', "Must provide output data set name in parameter outputvis." 2025-10-14 08:25:04 INFO cvel2::::casa+ ^^^^^^^^^^^^^^^ 2025-10-14 08:25:04 INFO cvel2::::casa+ AssertionError: Must provide output data set name in parameter outputvis. 2025-10-14 08:25:04 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:04.413919 End time: 2025-10-14 08:25:04.424286 2025-10-14 08:25:04 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:04 INFO cvel2::::casa ########################################## Expected error! .2025-10-14 08:25:04 INFO cvel2::::casa ########################################## 2025-10-14 08:25:04 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:04 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=111, start=201, width=3, interpolation='linear', phasecenter='J2000 18h25m56.09 -12d04m28.20', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:04 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:04 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:04 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:04 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:04 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:04 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:04 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 18h25m56.09 -12d04m28.20 2025-10-14 08:25:04 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:04 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:04 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 111 2025-10-14 08:25:04 INFO MSTransformManager::parseFreqSpecParams Start is 201 2025-10-14 08:25:04 INFO MSTransformManager::parseFreqSpecParams Width is 3 2025-10-14 08:25:04 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:04 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:04 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:04 INFO MSTransformManager::open Select data 2025-10-14 08:25:04 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:05 INFO MSTransformDataHandler::makeSelection 6600 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:05 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:05 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 2.293475983e+11 Hz, last channel = 2.294507858e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 2.294296007e+11 Hz, last channel = 2.295327882e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 2.295047903e+11 Hz, last channel = 2.296079778e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 2.295867920e+11 Hz, last channel = 2.296899795e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 2.296756065e+11 Hz, last channel = 2.297787940e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 2.297576090e+11 Hz, last channel = 2.298607965e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 2.298327978e+11 Hz, last channel = 2.299359853e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 2.299148003e+11 Hz, last channel = 2.300179878e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 2.300036148e+11 Hz, last channel = 2.301068023e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 2.300856172e+11 Hz, last channel = 2.301888047e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 2.301608061e+11 Hz, last channel = 2.302639936e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 2.302428085e+11 Hz, last channel = 2.303459960e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 2.303316230e+11 Hz, last channel = 2.304348105e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 2.304888143e+11 Hz, last channel = 2.305920018e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 2.305708167e+11 Hz, last channel = 2.306740042e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 2.308168225e+11 Hz, last channel = 2.309200100e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 2.308988250e+11 Hz, last channel = 2.310020125e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 2.309876395e+11 Hz, last channel = 2.310908270e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 2.310696412e+11 Hz, last channel = 2.311728287e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 2.311448308e+11 Hz, last channel = 2.312480183e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 2.312268332e+11 Hz, last channel = 2.313300207e+11 Hz 2025-10-14 08:25:05 INFO MSTransformManager::regridSpwAux Combined SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:05 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:05 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:05 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.29647e+11 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 2.4375e+06 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 111 2025-10-14 08:25:05 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 2.70562e+08 Hz 2025-10-14 08:25:05 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.29511e+11 Hz, upper edge = 2.29782e+11 Hz 2025-10-14 08:25:05 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Ratio between input and output width is >=2: 3, but not doing pre-channel average (it is disabled by default since CASA release 5.0). 2025-10-14 08:25:05 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Regridding to intermediate grid (2425 channels) for interpolation as in tclean when the ratio between the output and input widths is >2. 2025-10-14 08:25:05 INFO MSTransformManager::regridSpwAux Output SPW: 111 channels, first channel = 2.295124757e+11 Hz, last channel = 2.297806007e+11 Hz, first width = 2.437500000e+06 Hz, last width = 2.437500000e+06 Hz 2025-10-14 08:25:05 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:05 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:05 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:05 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:05 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:06 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:04.449443 End time: 2025-10-14 08:25:06.473903 2025-10-14 08:25:06 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:06 INFO cvel2::::casa ########################################## .2025-10-14 08:25:07 INFO cvel2::::casa ########################################## 2025-10-14 08:25:07 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:07 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=21, start='229587.0MHz', width='1600kHz', interpolation='linear', phasecenter='J2000 18h25m56.09 -12d04m28.20', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:07 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:07 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:07 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:07 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:07 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:07 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:07 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 18h25m56.09 -12d04m28.20 2025-10-14 08:25:07 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:07 INFO MSTransformManager::parseFreqSpecParams Mode is frequency 2025-10-14 08:25:07 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 21 2025-10-14 08:25:07 INFO MSTransformManager::parseFreqSpecParams Start is 229587.0MHz 2025-10-14 08:25:07 INFO MSTransformManager::parseFreqSpecParams Width is 1600kHz 2025-10-14 08:25:07 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:07 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:07 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:07 INFO MSTransformManager::open Select data 2025-10-14 08:25:07 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:07 INFO MSTransformDataHandler::makeSelection 6600 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:07 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:07 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 2.293475983e+11 Hz, last channel = 2.294507858e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 2.294296007e+11 Hz, last channel = 2.295327882e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 2.295047903e+11 Hz, last channel = 2.296079778e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 2.295867920e+11 Hz, last channel = 2.296899795e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 2.296756065e+11 Hz, last channel = 2.297787940e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 2.297576090e+11 Hz, last channel = 2.298607965e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 2.298327978e+11 Hz, last channel = 2.299359853e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 2.299148003e+11 Hz, last channel = 2.300179878e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 2.300036148e+11 Hz, last channel = 2.301068023e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 2.300856172e+11 Hz, last channel = 2.301888047e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 2.301608061e+11 Hz, last channel = 2.302639936e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 2.302428085e+11 Hz, last channel = 2.303459960e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 2.303316230e+11 Hz, last channel = 2.304348105e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 2.304888143e+11 Hz, last channel = 2.305920018e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 2.305708167e+11 Hz, last channel = 2.306740042e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 2.308168225e+11 Hz, last channel = 2.309200100e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 2.308988250e+11 Hz, last channel = 2.310020125e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 2.309876395e+11 Hz, last channel = 2.310908270e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 2.310696412e+11 Hz, last channel = 2.311728287e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 2.311448308e+11 Hz, last channel = 2.312480183e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 2.312268332e+11 Hz, last channel = 2.313300207e+11 Hz 2025-10-14 08:25:07 INFO MSTransformManager::regridSpwAux Combined SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:07 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:07 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:07 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.29603e+11 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.6e+06 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 21 2025-10-14 08:25:07 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 3.36e+07 Hz 2025-10-14 08:25:07 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.29586e+11 Hz, upper edge = 2.2962e+11 Hz 2025-10-14 08:25:07 INFO MSTransformManager::regridSpwAux Output SPW: 21 channels, first channel = 2.295870000e+11 Hz, last channel = 2.296190000e+11 Hz, first width = 1.600000000e+06 Hz, last width = 1.600000000e+06 Hz 2025-10-14 08:25:07 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:07 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:07 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:07 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:07 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:08 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:06.509749 End time: 2025-10-14 08:25:08.434123 2025-10-14 08:25:08 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:08 INFO cvel2::::casa ########################################## .2025-10-14 08:25:08 INFO cvel2::::casa ########################################## 2025-10-14 08:25:08 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:08 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=210, start='229588.0MHz', width='-2400kHz', interpolation='linear', phasecenter='J2000 18h25m56.09 -12d04m28.20', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:08 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:08 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:08 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:08 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:08 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:08 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:08 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 18h25m56.09 -12d04m28.20 2025-10-14 08:25:08 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:08 INFO MSTransformManager::parseFreqSpecParams Mode is frequency 2025-10-14 08:25:08 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 210 2025-10-14 08:25:08 INFO MSTransformManager::parseFreqSpecParams Start is 229588.0MHz 2025-10-14 08:25:08 INFO MSTransformManager::parseFreqSpecParams Width is -2400kHz 2025-10-14 08:25:09 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:09 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:09 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:09 INFO MSTransformManager::open Select data 2025-10-14 08:25:09 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:09 INFO MSTransformDataHandler::makeSelection 6600 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:09 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:09 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 2.293475983e+11 Hz, last channel = 2.294507858e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 2.294296007e+11 Hz, last channel = 2.295327882e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 2.295047903e+11 Hz, last channel = 2.296079778e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 2.295867920e+11 Hz, last channel = 2.296899795e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 2.296756065e+11 Hz, last channel = 2.297787940e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 2.297576090e+11 Hz, last channel = 2.298607965e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 2.298327978e+11 Hz, last channel = 2.299359853e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 2.299148003e+11 Hz, last channel = 2.300179878e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 2.300036148e+11 Hz, last channel = 2.301068023e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 2.300856172e+11 Hz, last channel = 2.301888047e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 2.301608061e+11 Hz, last channel = 2.302639936e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 2.302428085e+11 Hz, last channel = 2.303459960e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 2.303316230e+11 Hz, last channel = 2.304348105e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 2.304888143e+11 Hz, last channel = 2.305920018e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 2.305708167e+11 Hz, last channel = 2.306740042e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 2.308168225e+11 Hz, last channel = 2.309200100e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 2.308988250e+11 Hz, last channel = 2.310020125e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 2.309876395e+11 Hz, last channel = 2.310908270e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 2.310696412e+11 Hz, last channel = 2.311728287e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 2.311448308e+11 Hz, last channel = 2.312480183e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 2.312268332e+11 Hz, last channel = 2.313300207e+11 Hz 2025-10-14 08:25:09 INFO MSTransformManager::regridSpwAux Combined SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:09 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:09 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:09 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.29337e+11 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 2.4e+06 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 210 2025-10-14 08:25:09 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 5.04e+08 Hz 2025-10-14 08:25:09 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.29085e+11 Hz, upper edge = 2.29589e+11 Hz 2025-10-14 08:25:09 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Ratio between input and output width is >=2: 2.95385, but not doing pre-channel average (it is disabled by default since CASA release 5.0). 2025-10-14 08:25:09 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Regridding to intermediate grid (2425 channels) for interpolation as in tclean when the ratio between the output and input widths is >2. 2025-10-14 08:25:09 INFO MSTransformManager::regridSpwAux Output SPW: 210 channels, first channel = 2.290864000e+11 Hz, last channel = 2.295880000e+11 Hz, first width = 2.400000000e+06 Hz, last width = 2.400000000e+06 Hz 2025-10-14 08:25:09 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:09 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:09 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:09 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:09 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:11 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:08.473862 End time: 2025-10-14 08:25:10.702466 2025-10-14 08:25:11 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:11 INFO cvel2::::casa ########################################## .2025-10-14 08:25:11 INFO cvel2::::casa ########################################## 2025-10-14 08:25:11 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:11 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='velocity', nchan=30, start='-12497924.76161699m/s', width='2176.3615313190967m/s', interpolation='linear', phasecenter='J2000 18h25m56.09 -12d04m28.20', restfreq='220398.676MHz', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:11 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:11 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:11 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:11 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:11 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:11 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:11 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 18h25m56.09 -12d04m28.20 2025-10-14 08:25:11 INFO MSTransformManager::parseRefFrameTransParams Rest frequency is 220398.676MHz 2025-10-14 08:25:11 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:11 INFO MSTransformManager::parseFreqSpecParams Mode is velocity 2025-10-14 08:25:11 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 30 2025-10-14 08:25:11 INFO MSTransformManager::parseFreqSpecParams Start is -12497924.76161699m/s 2025-10-14 08:25:11 INFO MSTransformManager::parseFreqSpecParams Width is 2176.3615313190967m/s 2025-10-14 08:25:11 INFO MSTransformManager::parseFreqSpecParams Velocity type is radio 2025-10-14 08:25:11 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:11 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:11 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:11 INFO MSTransformManager::open Select data 2025-10-14 08:25:11 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:11 INFO MSTransformDataHandler::makeSelection 6600 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:11 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:11 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 2.293475983e+11 Hz, last channel = 2.294507858e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 2.294296007e+11 Hz, last channel = 2.295327882e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 2.295047903e+11 Hz, last channel = 2.296079778e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 2.295867920e+11 Hz, last channel = 2.296899795e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 2.296756065e+11 Hz, last channel = 2.297787940e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 2.297576090e+11 Hz, last channel = 2.298607965e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 2.298327978e+11 Hz, last channel = 2.299359853e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 2.299148003e+11 Hz, last channel = 2.300179878e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 2.300036148e+11 Hz, last channel = 2.301068023e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 2.300856172e+11 Hz, last channel = 2.301888047e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 2.301608061e+11 Hz, last channel = 2.302639936e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 2.302428085e+11 Hz, last channel = 2.303459960e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 2.303316230e+11 Hz, last channel = 2.304348105e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 2.304888143e+11 Hz, last channel = 2.305920018e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 2.305708167e+11 Hz, last channel = 2.306740042e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 2.308168225e+11 Hz, last channel = 2.309200100e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 2.308988250e+11 Hz, last channel = 2.310020125e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 2.309876395e+11 Hz, last channel = 2.310908270e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 2.310696412e+11 Hz, last channel = 2.311728287e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 2.311448308e+11 Hz, last channel = 2.312480183e+11 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 2.312268332e+11 Hz, last channel = 2.313300207e+11 Hz 2025-10-14 08:25:11 INFO MSTransformManager::regridSpwAux Combined SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:11 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:11 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in vrad 2025-10-14 08:25:11 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.29564e+11 Hz == -1.24664e+07 m/s radio velocity 2025-10-14 08:25:11 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.6e+06 Hz == 2176.36 m/s radio velocity 2025-10-14 08:25:11 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 30 2025-10-14 08:25:11 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 4.79999e+07 Hz 2025-10-14 08:25:11 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.2954e+11 Hz, upper edge = 2.29588e+11 Hz 2025-10-14 08:25:11 INFO MSTransformManager::regridSpwAux Output SPW: 30 channels, first channel = 2.295403860e+11 Hz, last channel = 2.295867860e+11 Hz, first width = 1.599997556e+06 Hz, last width = 1.599997556e+06 Hz 2025-10-14 08:25:11 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:11 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:11 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:11 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:11 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:12 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:10.746885 End time: 2025-10-14 08:25:12.434642 2025-10-14 08:25:12 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:12 INFO cvel2::::casa ########################################## .2025-10-14 08:25:12 INFO cvel2::::casa ########################################## 2025-10-14 08:25:12 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:12 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='velocity', nchan=35, start='-12499012.942382649m/s', width='4352.723062638193m/s', interpolation='linear', phasecenter='J2000 18h25m56.09 -12d04m28.20', restfreq='220398.676MHz', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:13 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:13 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:13 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:13 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:13 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:13 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:13 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 18h25m56.09 -12d04m28.20 2025-10-14 08:25:13 INFO MSTransformManager::parseRefFrameTransParams Rest frequency is 220398.676MHz 2025-10-14 08:25:13 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:13 INFO MSTransformManager::parseFreqSpecParams Mode is velocity 2025-10-14 08:25:13 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 35 2025-10-14 08:25:13 INFO MSTransformManager::parseFreqSpecParams Start is -12499012.942382649m/s 2025-10-14 08:25:13 INFO MSTransformManager::parseFreqSpecParams Width is 4352.723062638193m/s 2025-10-14 08:25:13 INFO MSTransformManager::parseFreqSpecParams Velocity type is radio 2025-10-14 08:25:13 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:13 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:13 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:13 INFO MSTransformManager::open Select data 2025-10-14 08:25:13 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:13 INFO MSTransformDataHandler::makeSelection 6600 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:13 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:13 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 2.293475983e+11 Hz, last channel = 2.294507858e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 2.294296007e+11 Hz, last channel = 2.295327882e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 2.295047903e+11 Hz, last channel = 2.296079778e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 2.295867920e+11 Hz, last channel = 2.296899795e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 2.296756065e+11 Hz, last channel = 2.297787940e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 2.297576090e+11 Hz, last channel = 2.298607965e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 2.298327978e+11 Hz, last channel = 2.299359853e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 2.299148003e+11 Hz, last channel = 2.300179878e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 2.300036148e+11 Hz, last channel = 2.301068023e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 2.300856172e+11 Hz, last channel = 2.301888047e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 2.301608061e+11 Hz, last channel = 2.302639936e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 2.302428085e+11 Hz, last channel = 2.303459960e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 2.303316230e+11 Hz, last channel = 2.304348105e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 2.304888143e+11 Hz, last channel = 2.305920018e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 2.305708167e+11 Hz, last channel = 2.306740042e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 2.308168225e+11 Hz, last channel = 2.309200100e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 2.308988250e+11 Hz, last channel = 2.310020125e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 2.309876395e+11 Hz, last channel = 2.310908270e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 2.310696412e+11 Hz, last channel = 2.311728287e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 2.311448308e+11 Hz, last channel = 2.312480183e+11 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 2.312268332e+11 Hz, last channel = 2.313300207e+11 Hz 2025-10-14 08:25:13 INFO MSTransformManager::regridSpwAux Combined SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:13 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:13 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in vrad 2025-10-14 08:25:13 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.29533e+11 Hz == -1.2425e+07 m/s radio velocity 2025-10-14 08:25:13 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 3.2e+06 Hz == 4352.72 m/s radio velocity 2025-10-14 08:25:13 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 35 2025-10-14 08:25:13 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1.12e+08 Hz 2025-10-14 08:25:13 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.29477e+11 Hz, upper edge = 2.29589e+11 Hz 2025-10-14 08:25:13 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Ratio between input and output width is >=2: 3.93846, but not doing pre-channel average (it is disabled by default since CASA release 5.0). 2025-10-14 08:25:13 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Regridding to intermediate grid (2425 channels) for interpolation as in tclean when the ratio between the output and input widths is >2. 2025-10-14 08:25:13 INFO MSTransformManager::regridSpwAux Output SPW: 35 channels, first channel = 2.294787861e+11 Hz, last channel = 2.295875860e+11 Hz, first width = 3.199995111e+06 Hz, last width = 3.199995111e+06 Hz 2025-10-14 08:25:13 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:13 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:13 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:13 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:13 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:14 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:12.480396 End time: 2025-10-14 08:25:14.477998 2025-10-14 08:25:14 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:14 INFO cvel2::::casa ########################################## .2025-10-14 08:25:15 INFO cvel2::::casa ########################################## 2025-10-14 08:25:15 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:15 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='velocity', nchan=40, start='-11997754.528595466m/s', width='2005.6501190569252m/s', interpolation='linear', phasecenter='J2000 18h25m56.09 -12d04m28.20', restfreq='220398.676MHz', outframe='', veltype='optical', hanning=False ) 2025-10-14 08:25:15 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:15 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:15 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:15 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:15 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:15 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:15 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 18h25m56.09 -12d04m28.20 2025-10-14 08:25:15 INFO MSTransformManager::parseRefFrameTransParams Rest frequency is 220398.676MHz 2025-10-14 08:25:15 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:15 INFO MSTransformManager::parseFreqSpecParams Mode is velocity 2025-10-14 08:25:15 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 40 2025-10-14 08:25:15 INFO MSTransformManager::parseFreqSpecParams Start is -11997754.528595466m/s 2025-10-14 08:25:15 INFO MSTransformManager::parseFreqSpecParams Width is 2005.6501190569252m/s 2025-10-14 08:25:15 INFO MSTransformManager::parseFreqSpecParams Velocity type is optical 2025-10-14 08:25:15 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:15 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:15 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:15 INFO MSTransformManager::open Select data 2025-10-14 08:25:15 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:15 INFO MSTransformDataHandler::makeSelection 6600 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:15 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:15 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 2.293475983e+11 Hz, last channel = 2.294507858e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 2.294296007e+11 Hz, last channel = 2.295327882e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 2.295047903e+11 Hz, last channel = 2.296079778e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 2.295867920e+11 Hz, last channel = 2.296899795e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 2.296756065e+11 Hz, last channel = 2.297787940e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 2.297576090e+11 Hz, last channel = 2.298607965e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 2.298327978e+11 Hz, last channel = 2.299359853e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 2.299148003e+11 Hz, last channel = 2.300179878e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 2.300036148e+11 Hz, last channel = 2.301068023e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 2.300856172e+11 Hz, last channel = 2.301888047e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 2.301608061e+11 Hz, last channel = 2.302639936e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 2.302428085e+11 Hz, last channel = 2.303459960e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 2.303316230e+11 Hz, last channel = 2.304348105e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 2.304888143e+11 Hz, last channel = 2.305920018e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 2.305708167e+11 Hz, last channel = 2.306740042e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 2.308168225e+11 Hz, last channel = 2.309200100e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 2.308988250e+11 Hz, last channel = 2.310020125e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 2.309876395e+11 Hz, last channel = 2.310908270e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 2.310696412e+11 Hz, last channel = 2.311728287e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 2.311448308e+11 Hz, last channel = 2.312480183e+11 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 2.312268332e+11 Hz, last channel = 2.313300207e+11 Hz 2025-10-14 08:25:15 INFO MSTransformManager::regridSpwAux Combined SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:15 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:15 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in vopt 2025-10-14 08:25:15 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.29556e+11 Hz == -1.19586e+07 m/s optical velocity 2025-10-14 08:25:15 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.59957e+06 Hz == 2005.67 m/s optical velocity 2025-10-14 08:25:15 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 40 2025-10-14 08:25:15 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 6.39823e+07 Hz 2025-10-14 08:25:15 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.29524e+11 Hz, upper edge = 2.29588e+11 Hz 2025-10-14 08:25:15 INFO MSTransformManager::regridSpwAux Output SPW: 40 channels, first channel = 2.295244025e+11 Hz, last channel = 2.295867853e+11 Hz, first width = 1.599122403e+06 Hz, last width = 1.599991776e+06 Hz 2025-10-14 08:25:15 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:15 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:15 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:15 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:15 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:16 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:14.517365 End time: 2025-10-14 08:25:16.372995 2025-10-14 08:25:16 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:16 INFO cvel2::::casa ########################################## .2025-10-14 08:25:16 INFO cvel2::::casa ########################################## 2025-10-14 08:25:16 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:16 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='velocity', nchan=40, start='-11997754.528595466m/s', width='2005.6501190569252m/s', interpolation='linear', phasecenter='J2000 18h25m56.09 -12d04m28.20', restfreq='220398.676MHz', outframe='', veltype='OPTICAL', hanning=False ) 2025-10-14 08:25:16 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:16 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:16 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:16 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:16 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:16 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:16 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 18h25m56.09 -12d04m28.20 2025-10-14 08:25:16 INFO MSTransformManager::parseRefFrameTransParams Rest frequency is 220398.676MHz 2025-10-14 08:25:16 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:16 INFO MSTransformManager::parseFreqSpecParams Mode is velocity 2025-10-14 08:25:16 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 40 2025-10-14 08:25:16 INFO MSTransformManager::parseFreqSpecParams Start is -11997754.528595466m/s 2025-10-14 08:25:16 INFO MSTransformManager::parseFreqSpecParams Width is 2005.6501190569252m/s 2025-10-14 08:25:16 INFO MSTransformManager::parseFreqSpecParams Velocity type is OPTICAL 2025-10-14 08:25:16 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:16 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:16 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:16 INFO MSTransformManager::open Select data 2025-10-14 08:25:16 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:16 INFO MSTransformDataHandler::makeSelection 6600 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:17 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:17 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 2.293475983e+11 Hz, last channel = 2.294507858e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 2.294296007e+11 Hz, last channel = 2.295327882e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 2.295047903e+11 Hz, last channel = 2.296079778e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 2.295867920e+11 Hz, last channel = 2.296899795e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 2.296756065e+11 Hz, last channel = 2.297787940e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 2.297576090e+11 Hz, last channel = 2.298607965e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 2.298327978e+11 Hz, last channel = 2.299359853e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 2.299148003e+11 Hz, last channel = 2.300179878e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 2.300036148e+11 Hz, last channel = 2.301068023e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 2.300856172e+11 Hz, last channel = 2.301888047e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 2.301608061e+11 Hz, last channel = 2.302639936e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 2.302428085e+11 Hz, last channel = 2.303459960e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 2.303316230e+11 Hz, last channel = 2.304348105e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 2.304888143e+11 Hz, last channel = 2.305920018e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 2.305708167e+11 Hz, last channel = 2.306740042e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 2.308168225e+11 Hz, last channel = 2.309200100e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 2.308988250e+11 Hz, last channel = 2.310020125e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 2.309876395e+11 Hz, last channel = 2.310908270e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 2.310696412e+11 Hz, last channel = 2.311728287e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 2.311448308e+11 Hz, last channel = 2.312480183e+11 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 2.312268332e+11 Hz, last channel = 2.313300207e+11 Hz 2025-10-14 08:25:17 INFO MSTransformManager::regridSpwAux Combined SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:17 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:17 WARN MSTransformRegridder::convertGridPars Invalid velocity type OPTICAL, setting type to "radio" 2025-10-14 08:25:17 INFO MSTransformRegridder::calcChanFreqs *** Requested center of SPW (2.2919e+11 Hz) is smaller than minimum possible value by 1.56869e+08 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::calcChanFreqs+ *** Reset to minimum possible value 2.29347e+11 Hz Channels equidistant in vrad 2025-10-14 08:25:17 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.29347e+11 Hz == -1.2172e+07 m/s radio velocity 2025-10-14 08:25:17 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.4745e+06 Hz == 2005.65 m/s radio velocity 2025-10-14 08:25:17 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 40 2025-10-14 08:25:17 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 5.89798e+07 Hz 2025-10-14 08:25:17 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.29318e+11 Hz, upper edge = 2.29377e+11 Hz 2025-10-14 08:25:17 INFO MSTransformManager::regridSpwAux Output SPW: 40 channels, first channel = 2.293184394e+11 Hz, last channel = 2.293759447e+11 Hz, first width = 1.474495502e+06 Hz, last width = 1.474495502e+06 Hz 2025-10-14 08:25:17 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:17 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:17 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:17 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:17 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:18 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:16.416905 End time: 2025-10-14 08:25:18.127099 2025-10-14 08:25:18 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:18 INFO cvel2::::casa ########################################## .2025-10-14 08:25:18 INFO cvel2::::casa ########################################## 2025-10-14 08:25:18 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:18 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='velocity', nchan=41, start='-11997503.823640965m/s', width='1504.240210050717m/s', interpolation='linear', phasecenter='J2000 18h25m56.09 -12d04m28.20', restfreq='220398.676MHz', outframe='', veltype='optical', hanning=False ) 2025-10-14 08:25:18 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:18 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:18 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:18 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:18 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:18 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:18 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 18h25m56.09 -12d04m28.20 2025-10-14 08:25:18 INFO MSTransformManager::parseRefFrameTransParams Rest frequency is 220398.676MHz 2025-10-14 08:25:18 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:18 INFO MSTransformManager::parseFreqSpecParams Mode is velocity 2025-10-14 08:25:18 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 41 2025-10-14 08:25:18 INFO MSTransformManager::parseFreqSpecParams Start is -11997503.823640965m/s 2025-10-14 08:25:18 INFO MSTransformManager::parseFreqSpecParams Width is 1504.240210050717m/s 2025-10-14 08:25:18 INFO MSTransformManager::parseFreqSpecParams Velocity type is optical 2025-10-14 08:25:18 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:18 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:18 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:18 INFO MSTransformManager::open Select data 2025-10-14 08:25:18 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:18 INFO MSTransformDataHandler::makeSelection 6600 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:19 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:19 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 2.293475983e+11 Hz, last channel = 2.294507858e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 2.294296007e+11 Hz, last channel = 2.295327882e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 2.295047903e+11 Hz, last channel = 2.296079778e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 2.295867920e+11 Hz, last channel = 2.296899795e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 2.296756065e+11 Hz, last channel = 2.297787940e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 2.297576090e+11 Hz, last channel = 2.298607965e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 2.298327978e+11 Hz, last channel = 2.299359853e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 2.299148003e+11 Hz, last channel = 2.300179878e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 2.300036148e+11 Hz, last channel = 2.301068023e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 2.300856172e+11 Hz, last channel = 2.301888047e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 2.301608061e+11 Hz, last channel = 2.302639936e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 2.302428085e+11 Hz, last channel = 2.303459960e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 2.303316230e+11 Hz, last channel = 2.304348105e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 2.304888143e+11 Hz, last channel = 2.305920018e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 2.305708167e+11 Hz, last channel = 2.306740042e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 2.308168225e+11 Hz, last channel = 2.309200100e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 2.308988250e+11 Hz, last channel = 2.310020125e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 2.309876395e+11 Hz, last channel = 2.310908270e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 2.310696412e+11 Hz, last channel = 2.311728287e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 2.311448308e+11 Hz, last channel = 2.312480183e+11 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 2.312268332e+11 Hz, last channel = 2.313300207e+11 Hz 2025-10-14 08:25:19 INFO MSTransformManager::regridSpwAux Combined SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:19 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:19 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in vopt 2025-10-14 08:25:19 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.29563e+11 Hz == -1.19674e+07 m/s optical velocity 2025-10-14 08:25:19 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.19975e+06 Hz == 1504.25 m/s optical velocity 2025-10-14 08:25:19 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 41 2025-10-14 08:25:19 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 4.91898e+07 Hz 2025-10-14 08:25:19 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.29538e+11 Hz, upper edge = 2.29587e+11 Hz 2025-10-14 08:25:19 INFO MSTransformManager::regridSpwAux Output SPW: 41 channels, first channel = 2.295385954e+11 Hz, last channel = 2.295865854e+11 Hz, first width = 1.199499535e+06 Hz, last width = 1.200001150e+06 Hz 2025-10-14 08:25:19 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:19 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:19 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:19 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:19 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:20 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:18.165303 End time: 2025-10-14 08:25:20.211850 2025-10-14 08:25:20 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:20 INFO cvel2::::casa ########################################## .2025-10-14 08:25:20 INFO cvel2::::casa ########################################## 2025-10-14 08:25:20 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:20 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=-1, start=0, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:20 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:20 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:20 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:20 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:20 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:20 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:20 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:20 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:20 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:25:20 INFO MSTransformManager::parseFreqSpecParams Start is 0 2025-10-14 08:25:20 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:25:20 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:20 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:20 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:20 INFO MSTransformManager::open Select data 2025-10-14 08:25:20 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:20 INFO MSTransformDataHandler::makeSelection 6600 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:21 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:21 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 2.293475983e+11 Hz, last channel = 2.294507858e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 2.294296007e+11 Hz, last channel = 2.295327882e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 2.295047903e+11 Hz, last channel = 2.296079778e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 2.295867920e+11 Hz, last channel = 2.296899795e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 2.296756065e+11 Hz, last channel = 2.297787940e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 2.297576090e+11 Hz, last channel = 2.298607965e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 2.298327978e+11 Hz, last channel = 2.299359853e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 2.299148003e+11 Hz, last channel = 2.300179878e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 2.300036148e+11 Hz, last channel = 2.301068023e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 2.300856172e+11 Hz, last channel = 2.301888047e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 2.301608061e+11 Hz, last channel = 2.302639936e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 2.302428085e+11 Hz, last channel = 2.303459960e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 2.303316230e+11 Hz, last channel = 2.304348105e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 2.304888143e+11 Hz, last channel = 2.305920018e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 2.305708167e+11 Hz, last channel = 2.306740042e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 2.308168225e+11 Hz, last channel = 2.309200100e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 2.308988250e+11 Hz, last channel = 2.310020125e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 2.309876395e+11 Hz, last channel = 2.310908270e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 2.310696412e+11 Hz, last channel = 2.311728287e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 2.311448308e+11 Hz, last channel = 2.312480183e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 2.312268332e+11 Hz, last channel = 2.313300207e+11 Hz 2025-10-14 08:25:21 INFO MSTransformManager::regridSpwAux Combined SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:21 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:21 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:21 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.30338e+11 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 812500 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 2440 2025-10-14 08:25:21 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1.9825e+09 Hz 2025-10-14 08:25:21 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.29347e+11 Hz, upper edge = 2.3133e+11 Hz 2025-10-14 08:25:21 INFO MSTransformManager::regridSpwAux Output SPW: 2440 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313292858e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:21 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:21 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:21 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:21 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:21 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:22 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:20.257507 End time: 2025-10-14 08:25:22.171382 2025-10-14 08:25:22 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:22 INFO cvel2::::casa ########################################## .2025-10-14 08:25:22 INFO cvel2::::casa ########################################## 2025-10-14 08:25:22 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:22 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=30, start=1500, width=2, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:22 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:22 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:22 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:22 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:22 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:22 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:22 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:22 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:22 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 30 2025-10-14 08:25:22 INFO MSTransformManager::parseFreqSpecParams Start is 1500 2025-10-14 08:25:22 INFO MSTransformManager::parseFreqSpecParams Width is 2 2025-10-14 08:25:22 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:22 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:22 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:22 INFO MSTransformManager::open Select data 2025-10-14 08:25:22 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:22 INFO MSTransformDataHandler::makeSelection 6600 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:23 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:23 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 2.293475983e+11 Hz, last channel = 2.294507858e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 2.294296007e+11 Hz, last channel = 2.295327882e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 2.295047903e+11 Hz, last channel = 2.296079778e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 2.295867920e+11 Hz, last channel = 2.296899795e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 2.296756065e+11 Hz, last channel = 2.297787940e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 2.297576090e+11 Hz, last channel = 2.298607965e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 2.298327978e+11 Hz, last channel = 2.299359853e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 2.299148003e+11 Hz, last channel = 2.300179878e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 2.300036148e+11 Hz, last channel = 2.301068023e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 2.300856172e+11 Hz, last channel = 2.301888047e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 2.301608061e+11 Hz, last channel = 2.302639936e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 2.302428085e+11 Hz, last channel = 2.303459960e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 2.303316230e+11 Hz, last channel = 2.304348105e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 2.304888143e+11 Hz, last channel = 2.305920018e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 2.305708167e+11 Hz, last channel = 2.306740042e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 2.308168225e+11 Hz, last channel = 2.309200100e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 2.308988250e+11 Hz, last channel = 2.310020125e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 2.309876395e+11 Hz, last channel = 2.310908270e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 2.310696412e+11 Hz, last channel = 2.311728287e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 2.311448308e+11 Hz, last channel = 2.312480183e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 2.312268332e+11 Hz, last channel = 2.313300207e+11 Hz 2025-10-14 08:25:23 INFO MSTransformManager::regridSpwAux Combined SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:23 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:23 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:23 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.30598e+11 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.625e+06 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 30 2025-10-14 08:25:23 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 4.875e+07 Hz 2025-10-14 08:25:23 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.30574e+11 Hz, upper edge = 2.30622e+11 Hz 2025-10-14 08:25:23 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Ratio between input and output width is >=2: 2, but not doing pre-channel average (it is disabled by default since CASA release 5.0). 2025-10-14 08:25:23 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Regridding to intermediate grid (2425 channels) for interpolation as in tclean when the ratio between the output and input widths is >2. 2025-10-14 08:25:23 INFO MSTransformManager::regridSpwAux Output SPW: 30 channels, first channel = 2.305745331e+11 Hz, last channel = 2.306216581e+11 Hz, first width = 1.625000000e+06 Hz, last width = 1.625000000e+06 Hz 2025-10-14 08:25:23 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:23 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:23 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:23 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:23 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:24 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:22.215751 End time: 2025-10-14 08:25:24.136664 2025-10-14 08:25:24 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:24 INFO cvel2::::casa ########################################## .2025-10-14 08:25:24 INFO cvel2::::casa ########################################## 2025-10-14 08:25:24 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:24 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=31, start=1500, width=2, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:24 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:24 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:24 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:24 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:24 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:24 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:24 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:24 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:24 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 31 2025-10-14 08:25:24 INFO MSTransformManager::parseFreqSpecParams Start is 1500 2025-10-14 08:25:24 INFO MSTransformManager::parseFreqSpecParams Width is 2 2025-10-14 08:25:24 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:24 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:24 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:24 INFO MSTransformManager::open Select data 2025-10-14 08:25:24 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:24 INFO MSTransformDataHandler::makeSelection 6600 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:25 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:25 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 2.293475983e+11 Hz, last channel = 2.294507858e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 2.294296007e+11 Hz, last channel = 2.295327882e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 2.295047903e+11 Hz, last channel = 2.296079778e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 2.295867920e+11 Hz, last channel = 2.296899795e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 2.296756065e+11 Hz, last channel = 2.297787940e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 2.297576090e+11 Hz, last channel = 2.298607965e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 2.298327978e+11 Hz, last channel = 2.299359853e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 2.299148003e+11 Hz, last channel = 2.300179878e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 2.300036148e+11 Hz, last channel = 2.301068023e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 2.300856172e+11 Hz, last channel = 2.301888047e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 2.301608061e+11 Hz, last channel = 2.302639936e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 2.302428085e+11 Hz, last channel = 2.303459960e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 2.303316230e+11 Hz, last channel = 2.304348105e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 2.304888143e+11 Hz, last channel = 2.305920018e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 2.305708167e+11 Hz, last channel = 2.306740042e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 2.308168225e+11 Hz, last channel = 2.309200100e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 2.308988250e+11 Hz, last channel = 2.310020125e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 2.309876395e+11 Hz, last channel = 2.310908270e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 2.310696412e+11 Hz, last channel = 2.311728287e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 2.311448308e+11 Hz, last channel = 2.312480183e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 2.312268332e+11 Hz, last channel = 2.313300207e+11 Hz 2025-10-14 08:25:25 INFO MSTransformManager::regridSpwAux Combined SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:25 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:25 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:25 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.30599e+11 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.625e+06 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 31 2025-10-14 08:25:25 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 5.0375e+07 Hz 2025-10-14 08:25:25 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.30574e+11 Hz, upper edge = 2.30624e+11 Hz 2025-10-14 08:25:25 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Ratio between input and output width is >=2: 2, but not doing pre-channel average (it is disabled by default since CASA release 5.0). 2025-10-14 08:25:25 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Regridding to intermediate grid (2425 channels) for interpolation as in tclean when the ratio between the output and input widths is >2. 2025-10-14 08:25:25 INFO MSTransformManager::regridSpwAux Output SPW: 31 channels, first channel = 2.305745331e+11 Hz, last channel = 2.306232831e+11 Hz, first width = 1.625000000e+06 Hz, last width = 1.625000000e+06 Hz 2025-10-14 08:25:25 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:25 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:25 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:25 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:25 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:26 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:24.179525 End time: 2025-10-14 08:25:26.227035 2025-10-14 08:25:26 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:26 INFO cvel2::::casa ########################################## .2025-10-14 08:25:26 INFO cvel2::::casa ########################################## 2025-10-14 08:25:26 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:26 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=-1, start=0, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:26 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:26 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:26 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:26 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:26 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:26 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:26 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:26 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:26 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:25:26 INFO MSTransformManager::parseFreqSpecParams Start is 0 2025-10-14 08:25:26 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:25:26 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:26 INFO MSTransformManager::open Select data 2025-10-14 08:25:26 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:26 INFO MSTransformDataHandler::makeSelection 13028 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:26 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:26 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:26 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:26 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:26 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:26 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:26 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.14999e+11 Hz 2025-10-14 08:25:26 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.5625e+06 Hz 2025-10-14 08:25:26 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 64 2025-10-14 08:25:26 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1e+08 Hz 2025-10-14 08:25:26 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14949e+11 Hz, upper edge = 1.15049e+11 Hz 2025-10-14 08:25:26 INFO MSTransformManager::regridSpwAux Output SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:28 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:26.250889 End time: 2025-10-14 08:25:27.505525 2025-10-14 08:25:28 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:28 INFO cvel2::::casa ########################################## .2025-10-14 08:25:28 INFO cvel2::::casa ########################################## 2025-10-14 08:25:28 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:28 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel_b', nchan=-1, start=0, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:28 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:28 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:28 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:28 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:28 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:28 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:28 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:28 INFO MSTransformManager::parseFreqSpecParams Mode is channel_b 2025-10-14 08:25:28 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:25:28 INFO MSTransformManager::parseFreqSpecParams Start is 0 2025-10-14 08:25:28 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:25:28 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:28 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:28 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:28 INFO MSTransformManager::open Select data 2025-10-14 08:25:28 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:28 INFO MSTransformDataHandler::makeSelection 6600 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:28 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:28 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 2.293475983e+11 Hz, last channel = 2.294507858e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 2.294296007e+11 Hz, last channel = 2.295327882e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 2.295047903e+11 Hz, last channel = 2.296079778e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 2.295867920e+11 Hz, last channel = 2.296899795e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 2.296756065e+11 Hz, last channel = 2.297787940e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 2.297576090e+11 Hz, last channel = 2.298607965e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 2.298327978e+11 Hz, last channel = 2.299359853e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 2.299148003e+11 Hz, last channel = 2.300179878e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 2.300036148e+11 Hz, last channel = 2.301068023e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 2.300856172e+11 Hz, last channel = 2.301888047e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 2.301608061e+11 Hz, last channel = 2.302639936e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 2.302428085e+11 Hz, last channel = 2.303459960e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 2.303316230e+11 Hz, last channel = 2.304348105e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 2.304888143e+11 Hz, last channel = 2.305920018e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 2.305708167e+11 Hz, last channel = 2.306740042e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 2.308168225e+11 Hz, last channel = 2.309200100e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 2.308988250e+11 Hz, last channel = 2.310020125e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 2.309876395e+11 Hz, last channel = 2.310908270e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 2.310696412e+11 Hz, last channel = 2.311728287e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 2.311448308e+11 Hz, last channel = 2.312480183e+11 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 2.312268332e+11 Hz, last channel = 2.313300207e+11 Hz 2025-10-14 08:25:28 INFO MSTransformManager::regridSpwAux Combined SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:28 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:28 INFO MSTransformRegridder::calcChanFreqs *** Output SPW width set to 2425 original channels 2025-10-14 08:25:28 INFO MSTransformRegridder::calcChanFreqs+ in an attempt to keep center of output SPW close to center of requested SPW. 2025-10-14 08:25:28 INFO MSTransformRegridder::calcChanFreqs+ New channels defined based on original channels 2025-10-14 08:25:28 INFO MSTransformRegridder::calcChanFreqs+ Central channel contains original channel 1212 2025-10-14 08:25:28 INFO MSTransformRegridder::calcChanFreqs+ Channel width = 1 original channels 2025-10-14 08:25:28 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW = 2425 original channels == 2425 new channels 2025-10-14 08:25:28 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1.98323e+09 Hz 2025-10-14 08:25:28 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.29347192e+11 Hz, upper edge = 2.31330427e+11 Hz 2025-10-14 08:25:28 INFO MSTransformManager::regridSpwAux Output SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:28 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:28 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:28 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:28 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:28 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:29 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:27.547898 End time: 2025-10-14 08:25:29.444532 2025-10-14 08:25:29 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:29 INFO cvel2::::casa ########################################## .2025-10-14 08:25:29 INFO cvel2::::casa ########################################## 2025-10-14 08:25:29 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:29 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=-1, start=0, width=1, interpolation='linear', phasecenter='J2000 18h25m56.09 -12d04m28.20', restfreq='', outframe='BARY', veltype='radio', hanning=False ) 2025-10-14 08:25:30 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:30 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:30 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:30 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:30 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:30 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:30 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 18h25m56.09 -12d04m28.20 2025-10-14 08:25:30 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is BARY 2025-10-14 08:25:30 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:30 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:30 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:25:30 INFO MSTransformManager::parseFreqSpecParams Start is 0 2025-10-14 08:25:30 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:25:30 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:30 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:30 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:30 INFO MSTransformManager::open Select data 2025-10-14 08:25:30 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:30 INFO MSTransformDataHandler::makeSelection 6600 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:30 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:30 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 2.293475983e+11 Hz, last channel = 2.294507858e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 2.294296007e+11 Hz, last channel = 2.295327882e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 2.295047903e+11 Hz, last channel = 2.296079778e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 2.295867920e+11 Hz, last channel = 2.296899795e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 2.296756065e+11 Hz, last channel = 2.297787940e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 2.297576090e+11 Hz, last channel = 2.298607965e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 2.298327978e+11 Hz, last channel = 2.299359853e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 2.299148003e+11 Hz, last channel = 2.300179878e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 2.300036148e+11 Hz, last channel = 2.301068023e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 2.300856172e+11 Hz, last channel = 2.301888047e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 2.301608061e+11 Hz, last channel = 2.302639936e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 2.302428085e+11 Hz, last channel = 2.303459960e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 2.303316230e+11 Hz, last channel = 2.304348105e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 2.304888143e+11 Hz, last channel = 2.305920018e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 2.305708167e+11 Hz, last channel = 2.306740042e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 2.308168225e+11 Hz, last channel = 2.309200100e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 2.308988250e+11 Hz, last channel = 2.310020125e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 2.309876395e+11 Hz, last channel = 2.310908270e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 2.310696412e+11 Hz, last channel = 2.311728287e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 2.311448308e+11 Hz, last channel = 2.312480183e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 2.312268332e+11 Hz, last channel = 2.313300207e+11 Hz 2025-10-14 08:25:30 INFO MSTransformManager::regridSpwAux Combined SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:30 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:30 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:30 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.3035e+11 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 812540 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 2440 2025-10-14 08:25:30 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1.9826e+09 Hz 2025-10-14 08:25:30 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.29358e+11 Hz, upper edge = 2.31341e+11 Hz 2025-10-14 08:25:30 INFO MSTransformManager::regridSpwAux Output SPW: 2440 channels, first channel = 2.293588947e+11 Hz, last channel = 2.313406798e+11 Hz, first width = 8.125400192e+05 Hz, last width = 8.125400192e+05 Hz 2025-10-14 08:25:30 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:30 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:30 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:30 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:30 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:31 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:29.490040 End time: 2025-10-14 08:25:31.490011 2025-10-14 08:25:31 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:31 INFO cvel2::::casa ########################################## .2025-10-14 08:25:32 INFO cvel2::::casa ########################################## 2025-10-14 08:25:32 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:32 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=-1, start=0, width=1, interpolation='linear', phasecenter='J2000 18h25m56.09 -12d04m28.20', restfreq='', outframe='BARY', veltype='radio', hanning=True ) 2025-10-14 08:25:32 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:32 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:32 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:32 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:32 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:32 INFO MSTransformManager::parseFreqTransParams Hanning Smooth is activated 2025-10-14 08:25:32 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:32 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 18h25m56.09 -12d04m28.20 2025-10-14 08:25:32 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is BARY 2025-10-14 08:25:32 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:32 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:32 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:25:32 INFO MSTransformManager::parseFreqSpecParams Start is 0 2025-10-14 08:25:32 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:25:32 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:32 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:32 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:32 INFO MSTransformManager::open Select data 2025-10-14 08:25:32 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:32 INFO MSTransformDataHandler::makeSelection 6600 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:32 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:32 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 2.293475983e+11 Hz, last channel = 2.294507858e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 2.294296007e+11 Hz, last channel = 2.295327882e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 2.295047903e+11 Hz, last channel = 2.296079778e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 2.295867920e+11 Hz, last channel = 2.296899795e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 2.296756065e+11 Hz, last channel = 2.297787940e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 2.297576090e+11 Hz, last channel = 2.298607965e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 2.298327978e+11 Hz, last channel = 2.299359853e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 2.299148003e+11 Hz, last channel = 2.300179878e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 2.300036148e+11 Hz, last channel = 2.301068023e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 2.300856172e+11 Hz, last channel = 2.301888047e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 2.301608061e+11 Hz, last channel = 2.302639936e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 2.302428085e+11 Hz, last channel = 2.303459960e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 2.303316230e+11 Hz, last channel = 2.304348105e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 2.304888143e+11 Hz, last channel = 2.305920018e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 2.305708167e+11 Hz, last channel = 2.306740042e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 2.308168225e+11 Hz, last channel = 2.309200100e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 2.308988250e+11 Hz, last channel = 2.310020125e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 2.309876395e+11 Hz, last channel = 2.310908270e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 2.310696412e+11 Hz, last channel = 2.311728287e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 2.311448308e+11 Hz, last channel = 2.312480183e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 2.312268332e+11 Hz, last channel = 2.313300207e+11 Hz 2025-10-14 08:25:32 INFO MSTransformManager::regridSpwAux Combined SPW: 2425 channels, first channel = 2.293475983e+11 Hz, last channel = 2.313300207e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:32 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:32 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:32 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.3035e+11 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 812540 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 2440 2025-10-14 08:25:32 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1.9826e+09 Hz 2025-10-14 08:25:32 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.29358e+11 Hz, upper edge = 2.31341e+11 Hz 2025-10-14 08:25:32 INFO MSTransformManager::regridSpwAux Output SPW: 2440 channels, first channel = 2.293588947e+11 Hz, last channel = 2.313406798e+11 Hz, first width = 8.125400192e+05 Hz, last width = 8.125400192e+05 Hz 2025-10-14 08:25:32 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:32 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:32 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:32 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:32 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:33 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:31.538466 End time: 2025-10-14 08:25:33.477865 2025-10-14 08:25:33 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:33 INFO cvel2::::casa ########################################## .2025-10-14 08:25:34 INFO cvel2::::casa ########################################## 2025-10-14 08:25:34 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:34 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=-1, start=0, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=True ) 2025-10-14 08:25:34 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:34 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:34 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:34 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:34 INFO MSTransformManager::parseDataSelParams spw selection is 1 2025-10-14 08:25:34 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:34 INFO MSTransformManager::parseFreqTransParams Hanning Smooth is activated 2025-10-14 08:25:34 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:34 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:34 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:34 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:25:34 INFO MSTransformManager::parseFreqSpecParams Start is 0 2025-10-14 08:25:34 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:25:34 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:34 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:34 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:34 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:25:34 INFO MSTransformManager::initDataSelectionParams+ [1, 0, 127, 1] 2025-10-14 08:25:34 INFO MSTransformManager::open Select data 2025-10-14 08:25:34 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:34 INFO MSTransformDataHandler::makeSelection 275 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:34 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:34 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:34 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 1 2025-10-14 08:25:34 INFO MSTransformManager::regridSpwAux Input SPW: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:34 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:34 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:34 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.30711e+11 Hz 2025-10-14 08:25:34 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 812500 Hz 2025-10-14 08:25:34 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 128 2025-10-14 08:25:34 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1.04e+08 Hz 2025-10-14 08:25:34 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.30659e+11 Hz, upper edge = 2.30763e+11 Hz 2025-10-14 08:25:34 INFO MSTransformManager::regridSpwAux Output SPW: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:34 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:33.522996 End time: 2025-10-14 08:25:33.907666 2025-10-14 08:25:34 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:34 INFO cvel2::::casa ########################################## .2025-10-14 08:25:35 INFO cvel2::::casa ########################################## 2025-10-14 08:25:35 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:35 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='velocity', nchan=-1, start='', width='', interpolation='linear', phasecenter='', restfreq='6035.092MHz', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:35 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:35 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:35 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:35 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:35 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:35 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:35 INFO MSTransformManager::parseRefFrameTransParams Rest frequency is 6035.092MHz 2025-10-14 08:25:35 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:35 INFO MSTransformManager::parseFreqSpecParams Mode is velocity 2025-10-14 08:25:35 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:25:35 INFO MSTransformManager::parseFreqSpecParams Velocity type is radio 2025-10-14 08:25:35 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:35 INFO MSTransformManager::open Select data 2025-10-14 08:25:35 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:35 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:35 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:35 INFO MSTransformRegridder::combineSpwsCore SPW 1: 256 channels, first channel = 6.035269483e+09 Hz, last channel = 6.035331739e+09 Hz 2025-10-14 08:25:35 INFO MSTransformRegridder::combineSpwsCore SPW 0: 256 channels, first channel = 6.035270489e+09 Hz, last channel = 6.035332745e+09 Hz 2025-10-14 08:25:35 INFO MSTransformManager::regridSpwAux Combined SPW: 260 channels, first channel = 6.035269483e+09 Hz, last channel = 6.035332745e+09 Hz, first width = 2.441406250e+02 Hz, last width = 2.441406250e+02 Hz 2025-10-14 08:25:35 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:35 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in vrad 2025-10-14 08:25:35 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 6.0353e+09 Hz == -10387 m/s radio velocity 2025-10-14 08:25:35 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 244.141 Hz == 12.1277 m/s radio velocity 2025-10-14 08:25:35 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 260 2025-10-14 08:25:35 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 63476.6 Hz 2025-10-14 08:25:35 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 6.03527e+09 Hz, upper edge = 6.03533e+09 Hz 2025-10-14 08:25:35 INFO MSTransformManager::regridSpwAux Output SPW: 260 channels, first channel = 6.035269483e+09 Hz, last channel = 6.035332715e+09 Hz, first width = 2.441406250e+02 Hz, last width = 2.441406250e+02 Hz 2025-10-14 08:25:35 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:35 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:35 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:35 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:35 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:39 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:34.742726 End time: 2025-10-14 08:25:39.195180 2025-10-14 08:25:39 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:39 INFO cvel2::::casa ########################################## .2025-10-14 08:25:39 INFO cvel2::::casa ########################################## 2025-10-14 08:25:39 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:39 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=3, start=1, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:39 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:39 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:39 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:39 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:39 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:39 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:39 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:39 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:39 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 3 2025-10-14 08:25:39 INFO MSTransformManager::parseFreqSpecParams Start is 1 2025-10-14 08:25:39 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:25:39 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:39 INFO MSTransformManager::open Select data 2025-10-14 08:25:39 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:39 INFO MSTransformDataHandler::makeSelection 13028 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:40 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:40 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:40 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:40 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:40 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:40 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:40 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.14953e+11 Hz 2025-10-14 08:25:40 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.5625e+06 Hz 2025-10-14 08:25:40 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 3 2025-10-14 08:25:40 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 4.6875e+06 Hz 2025-10-14 08:25:40 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14951e+11 Hz, upper edge = 1.14956e+11 Hz 2025-10-14 08:25:40 INFO MSTransformManager::regridSpwAux Output SPW: 3 channels, first channel = 1.149517531e+11 Hz, last channel = 1.149548781e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:41 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:39.264486 End time: 2025-10-14 08:25:40.539460 2025-10-14 08:25:41 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:41 INFO cvel2::::casa ########################################## Testing channel frequencies ... .2025-10-14 08:25:41 INFO cvel2::::casa ########################################## 2025-10-14 08:25:41 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:41 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=3, start=3, width=-1, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:41 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:41 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:41 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:41 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:41 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:41 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:41 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:41 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:41 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 3 2025-10-14 08:25:41 INFO MSTransformManager::parseFreqSpecParams Start is 3 2025-10-14 08:25:41 INFO MSTransformManager::parseFreqSpecParams Width is -1 2025-10-14 08:25:41 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:41 INFO MSTransformManager::open Select data 2025-10-14 08:25:41 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:41 INFO MSTransformDataHandler::makeSelection 13028 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:41 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:41 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:41 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:41 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:41 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:41 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:41 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.14953e+11 Hz 2025-10-14 08:25:41 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.5625e+06 Hz 2025-10-14 08:25:41 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 3 2025-10-14 08:25:41 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 4.6875e+06 Hz 2025-10-14 08:25:41 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14951e+11 Hz, upper edge = 1.14956e+11 Hz 2025-10-14 08:25:41 INFO MSTransformManager::regridSpwAux Output SPW: 3 channels, first channel = 1.149517531e+11 Hz, last channel = 1.149548781e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:42 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:40.577311 End time: 2025-10-14 08:25:41.845383 2025-10-14 08:25:42 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:42 INFO cvel2::::casa ########################################## Testing channel frequencies ... .2025-10-14 08:25:42 INFO cvel2::::casa ########################################## 2025-10-14 08:25:42 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:42 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=3, start='114951753113.65012Hz', width='1562500.0Hz', interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:42 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:42 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:42 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:42 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:42 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:42 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:42 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:42 INFO MSTransformManager::parseFreqSpecParams Mode is frequency 2025-10-14 08:25:42 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 3 2025-10-14 08:25:42 INFO MSTransformManager::parseFreqSpecParams Start is 114951753113.65012Hz 2025-10-14 08:25:42 INFO MSTransformManager::parseFreqSpecParams Width is 1562500.0Hz 2025-10-14 08:25:42 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:42 INFO MSTransformManager::open Select data 2025-10-14 08:25:42 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:42 INFO MSTransformDataHandler::makeSelection 13028 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:42 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:42 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:42 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:42 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:42 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:42 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:42 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.14953e+11 Hz 2025-10-14 08:25:42 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.5625e+06 Hz 2025-10-14 08:25:42 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 3 2025-10-14 08:25:42 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 4.6875e+06 Hz 2025-10-14 08:25:42 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14951e+11 Hz, upper edge = 1.14956e+11 Hz 2025-10-14 08:25:42 INFO MSTransformManager::regridSpwAux Output SPW: 3 channels, first channel = 1.149517531e+11 Hz, last channel = 1.149548781e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:43 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:41.886275 End time: 2025-10-14 08:25:43.110620 2025-10-14 08:25:43 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:43 INFO cvel2::::casa ########################################## Testing channel frequencies ... .2025-10-14 08:25:43 INFO cvel2::::casa ########################################## 2025-10-14 08:25:43 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:43 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=3, start='114954878113.65012Hz', width='-1562500.0Hz', interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:43 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:43 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:43 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:43 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:43 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:43 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:43 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:43 INFO MSTransformManager::parseFreqSpecParams Mode is frequency 2025-10-14 08:25:43 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 3 2025-10-14 08:25:43 INFO MSTransformManager::parseFreqSpecParams Start is 114954878113.65012Hz 2025-10-14 08:25:43 INFO MSTransformManager::parseFreqSpecParams Width is -1562500.0Hz 2025-10-14 08:25:43 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:43 INFO MSTransformManager::open Select data 2025-10-14 08:25:43 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:43 INFO MSTransformDataHandler::makeSelection 13028 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:43 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:43 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:43 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:43 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:43 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:43 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:43 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.14953e+11 Hz 2025-10-14 08:25:43 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.5625e+06 Hz 2025-10-14 08:25:43 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 3 2025-10-14 08:25:43 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 4.6875e+06 Hz 2025-10-14 08:25:43 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14951e+11 Hz, upper edge = 1.14956e+11 Hz 2025-10-14 08:25:43 INFO MSTransformManager::regridSpwAux Output SPW: 3 channels, first channel = 1.149517531e+11 Hz, last channel = 1.149548781e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:44 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:43.151084 End time: 2025-10-14 08:25:44.394194 2025-10-14 08:25:44 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:44 INFO cvel2::::casa ########################################## Testing channel frequencies ... .2025-10-14 08:25:44 INFO cvel2::::casa ########################################## 2025-10-14 08:25:44 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:44 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='velocity', nchan=3, start='-20375.16045533966m/s', width='4075.032091067933m/s', interpolation='linear', phasecenter='', restfreq='114950190613.65012Hz', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:44 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:44 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:44 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:44 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:44 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:44 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:44 INFO MSTransformManager::parseRefFrameTransParams Rest frequency is 114950190613.65012Hz 2025-10-14 08:25:44 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:44 INFO MSTransformManager::parseFreqSpecParams Mode is velocity 2025-10-14 08:25:44 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 3 2025-10-14 08:25:44 INFO MSTransformManager::parseFreqSpecParams Start is -20375.16045533966m/s 2025-10-14 08:25:44 INFO MSTransformManager::parseFreqSpecParams Width is 4075.032091067933m/s 2025-10-14 08:25:44 INFO MSTransformManager::parseFreqSpecParams Velocity type is radio 2025-10-14 08:25:44 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:44 INFO MSTransformManager::open Select data 2025-10-14 08:25:44 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:45 INFO MSTransformDataHandler::makeSelection 13028 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:45 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:45 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:45 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:45 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:45 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:45 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in vrad 2025-10-14 08:25:45 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.14956e+11 Hz == -16300.1 m/s radio velocity 2025-10-14 08:25:45 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.5625e+06 Hz == 4075.03 m/s radio velocity 2025-10-14 08:25:45 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 3 2025-10-14 08:25:45 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 4.6875e+06 Hz 2025-10-14 08:25:45 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14954e+11 Hz, upper edge = 1.14959e+11 Hz 2025-10-14 08:25:45 INFO MSTransformManager::regridSpwAux Output SPW: 3 channels, first channel = 1.149548781e+11 Hz, last channel = 1.149580031e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:46 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:44.435436 End time: 2025-10-14 08:25:45.649892 2025-10-14 08:25:46 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:46 INFO cvel2::::casa ########################################## Testing channel frequencies ... .2025-10-14 08:25:46 INFO cvel2::::casa ########################################## 2025-10-14 08:25:46 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:46 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='1', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=-1, start=0, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:46 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:46 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:46 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:46 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:46 INFO MSTransformManager::parseDataSelParams field selection is 1 2025-10-14 08:25:46 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:46 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:46 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:46 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:46 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:25:46 INFO MSTransformManager::parseFreqSpecParams Start is 0 2025-10-14 08:25:46 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:25:46 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:46 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [1] 2025-10-14 08:25:46 INFO MSTransformManager::open Select data 2025-10-14 08:25:46 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:46 INFO MSTransformDataHandler::makeSelection 1865 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:46 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:46 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:46 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:46 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:46 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:46 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:46 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.14999e+11 Hz 2025-10-14 08:25:46 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.5625e+06 Hz 2025-10-14 08:25:46 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 64 2025-10-14 08:25:46 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1e+08 Hz 2025-10-14 08:25:46 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14949e+11 Hz, upper edge = 1.15049e+11 Hz 2025-10-14 08:25:46 INFO MSTransformManager::regridSpwAux Output SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:46 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:45.679846 End time: 2025-10-14 08:25:46.175953 2025-10-14 08:25:46 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:46 INFO cvel2::::casa ########################################## .2025-10-14 08:25:46 INFO cvel2::::casa ########################################## 2025-10-14 08:25:46 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:46 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='velocity', nchan=3, start='-12225.096273203795m/s', width='-4075.032091067933m/s', interpolation='linear', phasecenter='', restfreq='114950190613.65012Hz', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:46 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:46 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:46 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:46 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:46 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:46 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:46 INFO MSTransformManager::parseRefFrameTransParams Rest frequency is 114950190613.65012Hz 2025-10-14 08:25:46 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:46 INFO MSTransformManager::parseFreqSpecParams Mode is velocity 2025-10-14 08:25:46 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 3 2025-10-14 08:25:46 INFO MSTransformManager::parseFreqSpecParams Start is -12225.096273203795m/s 2025-10-14 08:25:46 INFO MSTransformManager::parseFreqSpecParams Width is -4075.032091067933m/s 2025-10-14 08:25:46 INFO MSTransformManager::parseFreqSpecParams Velocity type is radio 2025-10-14 08:25:46 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:46 INFO MSTransformManager::open Select data 2025-10-14 08:25:46 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:46 INFO MSTransformDataHandler::makeSelection 13028 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:46 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:46 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:46 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:46 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:46 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:46 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in vrad 2025-10-14 08:25:46 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.14956e+11 Hz == -16300.1 m/s radio velocity 2025-10-14 08:25:46 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.5625e+06 Hz == 4075.03 m/s radio velocity 2025-10-14 08:25:46 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 3 2025-10-14 08:25:46 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 4.6875e+06 Hz 2025-10-14 08:25:46 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14954e+11 Hz, upper edge = 1.14959e+11 Hz 2025-10-14 08:25:46 INFO MSTransformManager::regridSpwAux Output SPW: 3 channels, first channel = 1.149548781e+11 Hz, last channel = 1.149580031e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:47 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:46.209557 End time: 2025-10-14 08:25:47.463531 2025-10-14 08:25:47 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:47 INFO cvel2::::casa ########################################## Testing channel frequencies ... .2025-10-14 08:25:48 INFO cvel2::::casa ########################################## 2025-10-14 08:25:48 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:48 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='velocity', nchan=3, start='-20373.775767568943m/s', width='4075.5336155157984m/s', interpolation='linear', phasecenter='', restfreq='114950190613.65012Hz', outframe='', veltype='optical', hanning=False ) 2025-10-14 08:25:48 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:48 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:48 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:48 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:48 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:48 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:48 INFO MSTransformManager::parseRefFrameTransParams Rest frequency is 114950190613.65012Hz 2025-10-14 08:25:48 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:48 INFO MSTransformManager::parseFreqSpecParams Mode is velocity 2025-10-14 08:25:48 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 3 2025-10-14 08:25:48 INFO MSTransformManager::parseFreqSpecParams Start is -20373.775767568943m/s 2025-10-14 08:25:48 INFO MSTransformManager::parseFreqSpecParams Width is 4075.5336155157984m/s 2025-10-14 08:25:48 INFO MSTransformManager::parseFreqSpecParams Velocity type is optical 2025-10-14 08:25:48 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:48 INFO MSTransformManager::open Select data 2025-10-14 08:25:48 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:48 INFO MSTransformDataHandler::makeSelection 13028 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:48 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:48 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:48 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:48 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:48 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:48 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in vopt 2025-10-14 08:25:48 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.14956e+11 Hz == -16298.2 m/s optical velocity 2025-10-14 08:25:48 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.56287e+06 Hz == 4075.62 m/s optical velocity 2025-10-14 08:25:48 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 3 2025-10-14 08:25:48 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 4.68862e+06 Hz 2025-10-14 08:25:48 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14954e+11 Hz, upper edge = 1.14959e+11 Hz 2025-10-14 08:25:48 INFO MSTransformManager::regridSpwAux Output SPW: 3 channels, first channel = 1.149548774e+11 Hz, last channel = 1.149580031e+11 Hz, first width = 1.562830356e+06 Hz, last width = 1.562915347e+06 Hz 2025-10-14 08:25:49 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:47.509279 End time: 2025-10-14 08:25:48.820642 2025-10-14 08:25:49 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:49 INFO cvel2::::casa ########################################## Testing channel frequencies ... .2025-10-14 08:25:49 INFO cvel2::::casa ########################################## 2025-10-14 08:25:49 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:49 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='velocity', nchan=3, start='-12222.708536537346m/s', width='-4075.5336155157984m/s', interpolation='linear', phasecenter='', restfreq='114950190613.65012Hz', outframe='', veltype='optical', hanning=False ) 2025-10-14 08:25:49 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:49 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:49 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:49 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:49 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:49 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:49 INFO MSTransformManager::parseRefFrameTransParams Rest frequency is 114950190613.65012Hz 2025-10-14 08:25:49 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:49 INFO MSTransformManager::parseFreqSpecParams Mode is velocity 2025-10-14 08:25:49 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 3 2025-10-14 08:25:49 INFO MSTransformManager::parseFreqSpecParams Start is -12222.708536537346m/s 2025-10-14 08:25:49 INFO MSTransformManager::parseFreqSpecParams Width is -4075.5336155157984m/s 2025-10-14 08:25:49 INFO MSTransformManager::parseFreqSpecParams Velocity type is optical 2025-10-14 08:25:49 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:49 INFO MSTransformManager::open Select data 2025-10-14 08:25:49 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:49 INFO MSTransformDataHandler::makeSelection 13028 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:49 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:49 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:49 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:49 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:49 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:49 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in vopt 2025-10-14 08:25:49 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.14956e+11 Hz == -16298.2 m/s optical velocity 2025-10-14 08:25:49 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.56287e+06 Hz == 4075.62 m/s optical velocity 2025-10-14 08:25:49 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 3 2025-10-14 08:25:49 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 4.68862e+06 Hz 2025-10-14 08:25:49 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14954e+11 Hz, upper edge = 1.14959e+11 Hz 2025-10-14 08:25:49 INFO MSTransformManager::regridSpwAux Output SPW: 3 channels, first channel = 1.149548774e+11 Hz, last channel = 1.149580031e+11 Hz, first width = 1.562830356e+06 Hz, last width = 1.562915347e+06 Hz 2025-10-14 08:25:50 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:48.863626 End time: 2025-10-14 08:25:50.260158 2025-10-14 08:25:50 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:50 INFO cvel2::::casa ########################################## Testing channel frequencies ... .2025-10-14 08:25:50 INFO cvel2::::casa ########################################## 2025-10-14 08:25:50 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:50 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=-1, start=98, width=3, interpolation='linear', phasecenter='J2000 18h25m56.09 -12d04m28.20', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:50 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:50 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:50 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:50 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:50 INFO MSTransformManager::parseDataSelParams spw selection is 1 2025-10-14 08:25:50 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:50 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:50 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 18h25m56.09 -12d04m28.20 2025-10-14 08:25:50 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:50 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:50 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:25:50 INFO MSTransformManager::parseFreqSpecParams Start is 98 2025-10-14 08:25:50 INFO MSTransformManager::parseFreqSpecParams Width is 3 2025-10-14 08:25:50 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:50 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:50 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:50 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:25:50 INFO MSTransformManager::initDataSelectionParams+ [1, 0, 127, 1] 2025-10-14 08:25:50 INFO MSTransformManager::open Select data 2025-10-14 08:25:50 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:50 INFO MSTransformDataHandler::makeSelection 275 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:50 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:50 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:50 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 1 2025-10-14 08:25:50 INFO MSTransformManager::regridSpwAux Input SPW: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:50 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:50 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:50 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.30751e+11 Hz 2025-10-14 08:25:50 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 2.4375e+06 Hz 2025-10-14 08:25:50 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 10 2025-10-14 08:25:50 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 2.4375e+07 Hz 2025-10-14 08:25:50 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.30739e+11 Hz, upper edge = 2.30763e+11 Hz 2025-10-14 08:25:50 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Ratio between input and output width is >=2: 3, but not doing pre-channel average (it is disabled by default since CASA release 5.0). 2025-10-14 08:25:50 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Regridding to intermediate grid (128 channels) for interpolation as in tclean when the ratio between the output and input widths is >2. 2025-10-14 08:25:50 INFO MSTransformManager::regridSpwAux Output SPW: 10 channels, first channel = 2.307400688e+11 Hz, last channel = 2.307620063e+11 Hz, first width = 2.437500000e+06 Hz, last width = 2.437500000e+06 Hz 2025-10-14 08:25:51 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:50.284039 End time: 2025-10-14 08:25:50.604519 2025-10-14 08:25:51 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:51 INFO cvel2::::casa ########################################## .2025-10-14 08:25:51 INFO cvel2::::casa ########################################## 2025-10-14 08:25:51 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:51 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='1,15', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=-1, start=198, width=3, interpolation='linear', phasecenter='J2000 18h25m56.09 -12d04m28.20', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:51 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:51 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:51 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:51 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:51 INFO MSTransformManager::parseDataSelParams spw selection is 1,15 2025-10-14 08:25:51 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:51 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:51 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 18h25m56.09 -12d04m28.20 2025-10-14 08:25:51 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:51 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:51 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:25:51 INFO MSTransformManager::parseFreqSpecParams Start is 198 2025-10-14 08:25:51 INFO MSTransformManager::parseFreqSpecParams Width is 3 2025-10-14 08:25:51 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:51 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:51 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:51 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:25:51 INFO MSTransformManager::initDataSelectionParams+ [1, 0, 127, 1 2025-10-14 08:25:51 INFO MSTransformManager::initDataSelectionParams+ 15, 0, 127, 1] 2025-10-14 08:25:51 INFO MSTransformManager::open Select data 2025-10-14 08:25:51 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:51 INFO MSTransformDataHandler::makeSelection 550 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:51 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:51 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:51 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:51 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:51 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.307416337e+11 Hz, last channel = 2.308448212e+11 Hz 2025-10-14 08:25:51 INFO MSTransformManager::regridSpwAux Combined SPW: 228 channels, first channel = 2.306596313e+11 Hz, last channel = 2.308448212e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:51 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:51 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:51 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.30833e+11 Hz 2025-10-14 08:25:51 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 2.4375e+06 Hz 2025-10-14 08:25:51 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 10 2025-10-14 08:25:51 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 2.4375e+07 Hz 2025-10-14 08:25:51 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.30821e+11 Hz, upper edge = 2.30845e+11 Hz 2025-10-14 08:25:51 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Ratio between input and output width is >=2: 3, but not doing pre-channel average (it is disabled by default since CASA release 5.0). 2025-10-14 08:25:51 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Regridding to intermediate grid (228 channels) for interpolation as in tclean when the ratio between the output and input widths is >2. 2025-10-14 08:25:51 INFO MSTransformManager::regridSpwAux Output SPW: 10 channels, first channel = 2.308220712e+11 Hz, last channel = 2.308440087e+11 Hz, first width = 2.437500000e+06 Hz, last width = 2.437500000e+06 Hz 2025-10-14 08:25:51 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:51 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:51 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:51 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:51 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:51 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:50.636255 End time: 2025-10-14 08:25:51.018434 2025-10-14 08:25:51 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:51 INFO cvel2::::casa ########################################## .2025-10-14 08:25:51 INFO cvel2::::casa ########################################## 2025-10-14 08:25:51 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:51 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=-1, start=29, width=-3, interpolation='linear', phasecenter='J2000 18h25m56.09 -12d04m28.20', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:51 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:51 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:51 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:51 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:51 INFO MSTransformManager::parseDataSelParams spw selection is 1 2025-10-14 08:25:51 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:51 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:51 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 18h25m56.09 -12d04m28.20 2025-10-14 08:25:51 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:51 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:51 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:25:51 INFO MSTransformManager::parseFreqSpecParams Start is 29 2025-10-14 08:25:51 INFO MSTransformManager::parseFreqSpecParams Width is -3 2025-10-14 08:25:51 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:51 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:51 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:51 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:25:51 INFO MSTransformManager::initDataSelectionParams+ [1, 0, 127, 1] 2025-10-14 08:25:51 INFO MSTransformManager::open Select data 2025-10-14 08:25:51 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:51 INFO MSTransformDataHandler::makeSelection 275 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:51 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:51 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:51 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 1 2025-10-14 08:25:51 INFO MSTransformManager::regridSpwAux Input SPW: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:51 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:51 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:51 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.30671e+11 Hz 2025-10-14 08:25:51 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 2.4375e+06 Hz 2025-10-14 08:25:51 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 10 2025-10-14 08:25:51 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 2.4375e+07 Hz 2025-10-14 08:25:51 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.30659e+11 Hz, upper edge = 2.30684e+11 Hz 2025-10-14 08:25:51 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Ratio between input and output width is >=2: 3, but not doing pre-channel average (it is disabled by default since CASA release 5.0). 2025-10-14 08:25:51 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Regridding to intermediate grid (128 channels) for interpolation as in tclean when the ratio between the output and input widths is >2. 2025-10-14 08:25:51 INFO MSTransformManager::regridSpwAux Output SPW: 10 channels, first channel = 2.306604438e+11 Hz, last channel = 2.306823813e+11 Hz, first width = 2.437500000e+06 Hz, last width = 2.437500000e+06 Hz 2025-10-14 08:25:51 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:51.064590 End time: 2025-10-14 08:25:51.437236 2025-10-14 08:25:51 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:51 INFO cvel2::::casa ########################################## .2025-10-14 08:25:52 INFO cvel2::::casa ########################################## 2025-10-14 08:25:52 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:52 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=100, start=29, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:52 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:52 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:52 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:52 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:52 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:52 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:52 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:52 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:52 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 100 2025-10-14 08:25:52 INFO MSTransformManager::parseFreqSpecParams Start is 29 2025-10-14 08:25:52 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:25:52 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:52 INFO MSTransformManager::open Select data 2025-10-14 08:25:52 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:52 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:52 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore *** Encountered negative channel widths in SPECTRAL_WINDOW table. 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 23: 128 channels, first channel = 3.412383774e+11 Hz, last channel = 3.413415649e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 22: 128 channels, first channel = 3.413203799e+11 Hz, last channel = 3.414235674e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 21: 128 channels, first channel = 3.413963823e+11 Hz, last channel = 3.414995698e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 20: 128 channels, first channel = 3.414783848e+11 Hz, last channel = 3.415815723e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 19: 128 channels, first channel = 3.415663875e+11 Hz, last channel = 3.416695750e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 18: 128 channels, first channel = 3.416483901e+11 Hz, last channel = 3.417515776e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 17: 128 channels, first channel = 3.417243924e+11 Hz, last channel = 3.418275799e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 16: 128 channels, first channel = 3.418063949e+11 Hz, last channel = 3.419095824e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 15: 128 channels, first channel = 3.418943976e+11 Hz, last channel = 3.419975851e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 14: 128 channels, first channel = 3.419764002e+11 Hz, last channel = 3.420795877e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 13: 128 channels, first channel = 3.420524025e+11 Hz, last channel = 3.421555900e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 12: 128 channels, first channel = 3.421344051e+11 Hz, last channel = 3.422375926e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 11: 128 channels, first channel = 3.422224078e+11 Hz, last channel = 3.423255953e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 10: 128 channels, first channel = 3.423044103e+11 Hz, last channel = 3.424075978e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 9: 128 channels, first channel = 3.423804127e+11 Hz, last channel = 3.424836002e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 8: 128 channels, first channel = 3.424624152e+11 Hz, last channel = 3.425656027e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 7: 128 channels, first channel = 3.425504179e+11 Hz, last channel = 3.426536054e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 6: 128 channels, first channel = 3.426324204e+11 Hz, last channel = 3.427356079e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 5: 128 channels, first channel = 3.427084228e+11 Hz, last channel = 3.428116103e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 4: 128 channels, first channel = 3.427904253e+11 Hz, last channel = 3.428936128e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 3: 128 channels, first channel = 3.428784280e+11 Hz, last channel = 3.429816155e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 2: 128 channels, first channel = 3.429604306e+11 Hz, last channel = 3.430636181e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 3.430364329e+11 Hz, last channel = 3.431396204e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 3.431184355e+11 Hz, last channel = 3.432216230e+11 Hz 2025-10-14 08:25:52 INFO MSTransformManager::regridSpwAux Combined SPW: 2426 channels, first channel = 3.412383774e+11 Hz, last channel = 3.432216230e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:52 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:52 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:52 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 3.41302e+11 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 812500 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 100 2025-10-14 08:25:52 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 8.125e+07 Hz 2025-10-14 08:25:52 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 3.41262e+11 Hz, upper edge = 3.41343e+11 Hz 2025-10-14 08:25:52 INFO MSTransformManager::regridSpwAux Output SPW: 100 channels, first channel = 3.412619399e+11 Hz, last channel = 3.413423774e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:52 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:52 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:52 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:52 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:52 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:53 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:51.860218 End time: 2025-10-14 08:25:52.995534 2025-10-14 08:25:53 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:53 INFO cvel2::::casa ########################################## .2025-10-14 08:25:53 INFO cvel2::::casa ########################################## 2025-10-14 08:25:53 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:53 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='10', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=-1, start=98, width=3, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:53 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:53 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:53 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:53 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:53 INFO MSTransformManager::parseDataSelParams spw selection is 10 2025-10-14 08:25:53 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:53 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:53 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:53 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:53 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:25:53 INFO MSTransformManager::parseFreqSpecParams Start is 98 2025-10-14 08:25:53 INFO MSTransformManager::parseFreqSpecParams Width is 3 2025-10-14 08:25:53 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:53 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:25:53 INFO MSTransformManager::initDataSelectionParams+ [10, 0, 127, 1] 2025-10-14 08:25:53 INFO MSTransformManager::open Select data 2025-10-14 08:25:53 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:53 INFO MSTransformDataHandler::makeSelection 420 out of 10080 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:53 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:53 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:53 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 10 2025-10-14 08:25:53 INFO MSTransformManager::regridSpwAux Input SPW: 128 channels, first channel = 3.424075978e+11 Hz, last channel = 3.423044103e+11 Hz, first width = -8.125000000e+05 Hz, last width = -8.125000000e+05 Hz 2025-10-14 08:25:53 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:53 INFO MSTransformRegridder::calcChanFreqs *** Encountered negative channel widths in input spectral window. 2025-10-14 08:25:53 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:53 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 3.42316e+11 Hz 2025-10-14 08:25:53 INFO MSTransformRegridder::calcChanFreqs+ Channel central frequency is decreasing with increasing channel number. 2025-10-14 08:25:53 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 2.4375e+06 Hz 2025-10-14 08:25:53 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 10 2025-10-14 08:25:53 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 2.4375e+07 Hz 2025-10-14 08:25:53 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 3.42304e+11 Hz, upper edge = 3.42328e+11 Hz 2025-10-14 08:25:53 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Ratio between input and output width is >=2: 3, but not doing pre-channel average (it is disabled by default since CASA release 5.0). 2025-10-14 08:25:53 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Regridding to intermediate grid (128 channels) for interpolation as in tclean when the ratio between the output and input widths is >2. 2025-10-14 08:25:53 INFO MSTransformManager::regridSpwAux Output SPW: 10 channels, first channel = 3.423271603e+11 Hz, last channel = 3.423052228e+11 Hz, first width = 2.437500000e+06 Hz, last width = 2.437500000e+06 Hz 2025-10-14 08:25:53 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:53.033391 End time: 2025-10-14 08:25:53.419874 2025-10-14 08:25:53 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:53 INFO cvel2::::casa ########################################## .2025-10-14 08:25:53 INFO cvel2::::casa ########################################## 2025-10-14 08:25:53 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:53 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=3, start=1, width=1, interpolation='fftshift', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:53 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:53 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:53 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:53 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:53 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:53 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:53 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is fftshift 2025-10-14 08:25:53 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:53 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 3 2025-10-14 08:25:53 INFO MSTransformManager::parseFreqSpecParams Start is 1 2025-10-14 08:25:53 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:25:53 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:53 INFO MSTransformManager::open Select data 2025-10-14 08:25:53 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:53 INFO MSTransformDataHandler::makeSelection 13028 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:54 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:54 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:54 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:54 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:54 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:54 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:54 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.14953e+11 Hz 2025-10-14 08:25:54 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.5625e+06 Hz 2025-10-14 08:25:54 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 3 2025-10-14 08:25:54 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 4.6875e+06 Hz 2025-10-14 08:25:54 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14951e+11 Hz, upper edge = 1.14956e+11 Hz 2025-10-14 08:25:54 INFO MSTransformManager::regridSpwAux Output SPW: 3 channels, first channel = 1.149517531e+11 Hz, last channel = 1.149548781e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:55 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:53.445430 End time: 2025-10-14 08:25:54.687818 2025-10-14 08:25:55 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:55 INFO cvel2::::casa ########################################## Testing channel frequencies ... .2025-10-14 08:25:55 INFO cvel2::::casa ########################################## 2025-10-14 08:25:55 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:55 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='velocity', nchan=-1, start='', width='', interpolation='fftshift', phasecenter='', restfreq='220398.676MHz', outframe='BARY', veltype='optical', hanning=False ) 2025-10-14 08:25:55 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:55 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:55 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:55 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:55 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:55 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:55 INFO MSTransformManager::parseRefFrameTransParams Rest frequency is 220398.676MHz 2025-10-14 08:25:55 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is BARY 2025-10-14 08:25:55 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is fftshift 2025-10-14 08:25:55 INFO MSTransformManager::parseFreqSpecParams Mode is velocity 2025-10-14 08:25:55 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:25:55 INFO MSTransformManager::parseFreqSpecParams Velocity type is optical 2025-10-14 08:25:55 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:55 INFO MSTransformManager::open Select data 2025-10-14 08:25:55 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:55 INFO MSTransformDataHandler::makeSelection 13028 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:55 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:55 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:55 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:55 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:55 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:55 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in vopt 2025-10-14 08:25:55 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.15002e+11 Hz == 2.74752e+08 m/s optical velocity 2025-10-14 08:25:55 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.56254e+06 Hz == 7806.45 m/s optical velocity 2025-10-14 08:25:55 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 63 2025-10-14 08:25:55 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 9.84373e+07 Hz 2025-10-14 08:25:55 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14952e+11 Hz, upper edge = 1.15051e+11 Hz 2025-10-14 08:25:55 INFO MSTransformManager::regridSpwAux Output SPW: 63 channels, first channel = 1.149530411e+11 Hz, last channel = 1.150499159e+11 Hz, first width = 1.561180610e+06 Hz, last width = 1.563813037e+06 Hz 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:55 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:56 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 115003020604.27397 - 115003020604.27397 = 0, bandwidth 9.8436e+07, relative shift: -0 2025-10-14 08:25:56 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:54.718653 End time: 2025-10-14 08:25:56.258128 2025-10-14 08:25:56 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:56 INFO cvel2::::casa ########################################## *** Expected error *** .2025-10-14 08:25:56 INFO cvel2::::casa ########################################## 2025-10-14 08:25:56 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:56 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=True, field='1', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=-1, start=0, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:25:56 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:56 WARN cvel2::::casa Parameter passall=True is not supported in cvel2 2025-10-14 08:25:56 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:56 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:56 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:56 INFO MSTransformManager::parseDataSelParams field selection is 1 2025-10-14 08:25:56 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:56 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:56 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:56 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:56 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:25:56 INFO MSTransformManager::parseFreqSpecParams Start is 0 2025-10-14 08:25:56 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:25:56 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:56 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [1] 2025-10-14 08:25:56 INFO MSTransformManager::open Select data 2025-10-14 08:25:56 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:56 INFO MSTransformDataHandler::makeSelection 1865 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:56 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:56 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:25:56 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:25:56 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:56 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:56 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:56 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.14999e+11 Hz 2025-10-14 08:25:56 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.5625e+06 Hz 2025-10-14 08:25:56 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 64 2025-10-14 08:25:56 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1e+08 Hz 2025-10-14 08:25:56 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14949e+11 Hz, upper edge = 1.15049e+11 Hz 2025-10-14 08:25:56 INFO MSTransformManager::regridSpwAux Output SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:25:57 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:56.285084 End time: 2025-10-14 08:25:56.702288 2025-10-14 08:25:57 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:57 INFO cvel2::::casa ########################################## .2025-10-14 08:25:57 INFO cvel2::::casa ########################################## 2025-10-14 08:25:57 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:57 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=150, start=10, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='CMB', veltype='radio', hanning=False ) 2025-10-14 08:25:57 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:57 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:57 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:57 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:57 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:25:57 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:57 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:57 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is CMB 2025-10-14 08:25:57 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:57 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:57 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 150 2025-10-14 08:25:57 INFO MSTransformManager::parseFreqSpecParams Start is 10 2025-10-14 08:25:57 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:25:57 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:57 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:57 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:57 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:25:57 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 127, 1 2025-10-14 08:25:57 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 127, 1] 2025-10-14 08:25:57 INFO MSTransformManager::open Select data 2025-10-14 08:25:57 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:57 INFO MSTransformDataHandler::makeSelection 550 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:57 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:57 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:57 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:57 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:57 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:57 INFO MSTransformManager::regridSpwAux Combined SPW: 256 channels, first channel = 2.304136254e+11 Hz, last channel = 2.307628188e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:57 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:57 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:57 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.30573e+11 Hz 2025-10-14 08:25:57 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 812819 Hz 2025-10-14 08:25:57 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 150 2025-10-14 08:25:57 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1.21923e+08 Hz 2025-10-14 08:25:57 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.30512e+11 Hz, upper edge = 2.30634e+11 Hz 2025-10-14 08:25:57 INFO MSTransformManager::regridSpwAux Output SPW: 150 channels, first channel = 2.305122962e+11 Hz, last channel = 2.306334062e+11 Hz, first width = 8.128192772e+05 Hz, last width = 8.128192772e+05 Hz 2025-10-14 08:25:57 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:57 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:57 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:57 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:57 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:57 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:56.738767 End time: 2025-10-14 08:25:57.252900 2025-10-14 08:25:57 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:57 INFO cvel2::::casa ########################################## 2025-10-14 08:25:57 INFO cvel2::::casa ########################################## 2025-10-14 08:25:57 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:57 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=150, start=10, width=1, interpolation='fftshift', phasecenter='', restfreq='', outframe='CMB', veltype='radio', hanning=False ) 2025-10-14 08:25:57 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:57 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:57 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:57 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:57 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:25:57 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:57 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:57 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is CMB 2025-10-14 08:25:57 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is fftshift 2025-10-14 08:25:57 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:25:57 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 150 2025-10-14 08:25:57 INFO MSTransformManager::parseFreqSpecParams Start is 10 2025-10-14 08:25:57 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:25:57 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:57 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:57 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:57 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:25:57 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 127, 1 2025-10-14 08:25:57 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 127, 1] 2025-10-14 08:25:57 INFO MSTransformManager::open Select data 2025-10-14 08:25:57 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:57 INFO MSTransformDataHandler::makeSelection 550 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:57 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:57 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:57 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:57 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:57 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:57 INFO MSTransformManager::regridSpwAux Combined SPW: 256 channels, first channel = 2.304136254e+11 Hz, last channel = 2.307628188e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:57 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:57 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:57 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.30573e+11 Hz 2025-10-14 08:25:57 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 812819 Hz 2025-10-14 08:25:57 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 150 2025-10-14 08:25:57 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1.21923e+08 Hz 2025-10-14 08:25:57 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.30512e+11 Hz, upper edge = 2.30634e+11 Hz 2025-10-14 08:25:57 INFO MSTransformManager::regridSpwAux Output SPW: 150 channels, first channel = 2.305122962e+11 Hz, last channel = 2.306334062e+11 Hz, first width = 8.128192772e+05 Hz, last width = 8.128192772e+05 Hz 2025-10-14 08:25:57 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:57 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:57 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:57 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:57 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:58 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:25:58 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:57.267436 End time: 2025-10-14 08:25:58.039975 2025-10-14 08:25:58 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:58 INFO cvel2::::casa ########################################## Testing channel frequencies ... .2025-10-14 08:25:58 INFO cvel2::::casa ########################################## 2025-10-14 08:25:58 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:58 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=150, start='', width='', interpolation='linear', phasecenter='', restfreq='', outframe='BARY', veltype='radio', hanning=False ) 2025-10-14 08:25:58 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:58 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:58 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:58 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:58 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:25:58 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:58 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:58 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is BARY 2025-10-14 08:25:58 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:58 INFO MSTransformManager::parseFreqSpecParams Mode is frequency 2025-10-14 08:25:58 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 150 2025-10-14 08:25:58 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:58 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:58 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:58 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:25:58 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 127, 1 2025-10-14 08:25:58 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 127, 1] 2025-10-14 08:25:58 INFO MSTransformManager::open Select data 2025-10-14 08:25:58 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:58 INFO MSTransformDataHandler::makeSelection 550 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:58 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:58 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:58 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:58 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:58 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:58 INFO MSTransformManager::regridSpwAux Combined SPW: 256 channels, first channel = 2.304136254e+11 Hz, last channel = 2.307628188e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:58 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:58 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:58 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.30486e+11 Hz 2025-10-14 08:25:58 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 812540 Hz 2025-10-14 08:25:58 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 150 2025-10-14 08:25:58 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1.21881e+08 Hz 2025-10-14 08:25:58 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.30425e+11 Hz, upper edge = 2.30546e+11 Hz 2025-10-14 08:25:58 INFO MSTransformManager::regridSpwAux Output SPW: 150 channels, first channel = 2.304249756e+11 Hz, last channel = 2.305460441e+11 Hz, first width = 8.125400237e+05 Hz, last width = 8.125400237e+05 Hz 2025-10-14 08:25:58 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:58 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:58 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:58 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:58 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:59 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:58.079980 End time: 2025-10-14 08:25:58.592357 2025-10-14 08:25:59 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:59 INFO cvel2::::casa ########################################## 2025-10-14 08:25:59 INFO cvel2::::casa ########################################## 2025-10-14 08:25:59 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:59 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=150, start='', width='', interpolation='fftshift', phasecenter='', restfreq='', outframe='BARY', veltype='radio', hanning=False ) 2025-10-14 08:25:59 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:59 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:59 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:59 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:59 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:25:59 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:59 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:59 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is BARY 2025-10-14 08:25:59 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is fftshift 2025-10-14 08:25:59 INFO MSTransformManager::parseFreqSpecParams Mode is frequency 2025-10-14 08:25:59 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 150 2025-10-14 08:25:59 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:59 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:59 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:59 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:25:59 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 127, 1 2025-10-14 08:25:59 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 127, 1] 2025-10-14 08:25:59 INFO MSTransformManager::open Select data 2025-10-14 08:25:59 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:59 INFO MSTransformDataHandler::makeSelection 550 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:59 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:59 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:59 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:59 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:59 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:59 INFO MSTransformManager::regridSpwAux Combined SPW: 256 channels, first channel = 2.304136254e+11 Hz, last channel = 2.307628188e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:59 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:59 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:25:59 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.30486e+11 Hz 2025-10-14 08:25:59 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 812540 Hz 2025-10-14 08:25:59 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 150 2025-10-14 08:25:59 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1.21881e+08 Hz 2025-10-14 08:25:59 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.30425e+11 Hz, upper edge = 2.30546e+11 Hz 2025-10-14 08:25:59 INFO MSTransformManager::regridSpwAux Output SPW: 150 channels, first channel = 2.304249756e+11 Hz, last channel = 2.305460441e+11 Hz, first width = 8.125400237e+05 Hz, last width = 8.125400237e+05 Hz 2025-10-14 08:25:59 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:59 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:59 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:59 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:59 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:25:59 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230670993526.9285 - 230670993526.9285 = 0, bandwidth 1.21881e+08, relative shift: -0 2025-10-14 08:25:59 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:58.602255 End time: 2025-10-14 08:25:59.009415 2025-10-14 08:25:59 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:59 INFO cvel2::::casa ########################################## Testing channel frequencies ... .2025-10-14 08:25:59 INFO cvel2::::casa ########################################## 2025-10-14 08:25:59 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:25:59 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='velocity', nchan=150, start='', width='', interpolation='linear', phasecenter='', restfreq='220398.676MHz', outframe='CMB', veltype='radio', hanning=False ) 2025-10-14 08:25:59 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:25:59 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:25:59 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:25:59 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:25:59 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:25:59 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:25:59 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:25:59 INFO MSTransformManager::parseRefFrameTransParams Rest frequency is 220398.676MHz 2025-10-14 08:25:59 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is CMB 2025-10-14 08:25:59 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:25:59 INFO MSTransformManager::parseFreqSpecParams Mode is velocity 2025-10-14 08:25:59 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 150 2025-10-14 08:25:59 INFO MSTransformManager::parseFreqSpecParams Velocity type is radio 2025-10-14 08:25:59 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:25:59 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:25:59 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:25:59 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:25:59 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 127, 1 2025-10-14 08:25:59 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 127, 1] 2025-10-14 08:25:59 INFO MSTransformManager::open Select data 2025-10-14 08:25:59 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:25:59 INFO MSTransformDataHandler::makeSelection 550 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:25:59 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:25:59 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:25:59 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:25:59 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:25:59 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:25:59 INFO MSTransformManager::regridSpwAux Combined SPW: 256 channels, first channel = 2.304136254e+11 Hz, last channel = 2.307628188e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:25:59 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:25:59 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in vrad 2025-10-14 08:25:59 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.30565e+11 Hz == -1.38281e+07 m/s radio velocity 2025-10-14 08:25:59 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 812819 Hz == 1105.62 m/s radio velocity 2025-10-14 08:25:59 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 150 2025-10-14 08:25:59 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1.21923e+08 Hz 2025-10-14 08:25:59 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.30504e+11 Hz, upper edge = 2.30626e+11 Hz 2025-10-14 08:25:59 INFO MSTransformManager::regridSpwAux Output SPW: 150 channels, first channel = 2.305041680e+11 Hz, last channel = 2.306252781e+11 Hz, first width = 8.128192772e+05 Hz, last width = 8.128192772e+05 Hz 2025-10-14 08:25:59 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:25:59 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:25:59 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:25:59 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:25:59 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:25:59 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:59.042653 End time: 2025-10-14 08:25:59.493637 2025-10-14 08:25:59 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:25:59 INFO cvel2::::casa ########################################## 2025-10-14 08:26:00 INFO cvel2::::casa ########################################## 2025-10-14 08:26:00 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:26:00 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='velocity', nchan=150, start='', width='', interpolation='fftshift', phasecenter='', restfreq='220398.676MHz', outframe='CMB', veltype='radio', hanning=False ) 2025-10-14 08:26:00 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:26:00 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:26:00 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:00 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:26:00 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:26:00 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:26:00 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:26:00 INFO MSTransformManager::parseRefFrameTransParams Rest frequency is 220398.676MHz 2025-10-14 08:26:00 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is CMB 2025-10-14 08:26:00 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is fftshift 2025-10-14 08:26:00 INFO MSTransformManager::parseFreqSpecParams Mode is velocity 2025-10-14 08:26:00 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 150 2025-10-14 08:26:00 INFO MSTransformManager::parseFreqSpecParams Velocity type is radio 2025-10-14 08:26:00 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:00 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:26:00 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:26:00 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:00 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 127, 1 2025-10-14 08:26:00 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 127, 1] 2025-10-14 08:26:00 INFO MSTransformManager::open Select data 2025-10-14 08:26:00 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:00 INFO MSTransformDataHandler::makeSelection 550 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:00 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:00 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:26:00 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:26:00 INFO MSTransformRegridder::combineSpwsCore SPW 0: 128 channels, first channel = 2.304136254e+11 Hz, last channel = 2.305168129e+11 Hz 2025-10-14 08:26:00 INFO MSTransformRegridder::combineSpwsCore SPW 1: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz 2025-10-14 08:26:00 INFO MSTransformManager::regridSpwAux Combined SPW: 256 channels, first channel = 2.304136254e+11 Hz, last channel = 2.307628188e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:26:00 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:26:00 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in vrad 2025-10-14 08:26:00 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.30565e+11 Hz == -1.38281e+07 m/s radio velocity 2025-10-14 08:26:00 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 812819 Hz == 1105.62 m/s radio velocity 2025-10-14 08:26:00 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 150 2025-10-14 08:26:00 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1.21923e+08 Hz 2025-10-14 08:26:00 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.30504e+11 Hz, upper edge = 2.30626e+11 Hz 2025-10-14 08:26:00 INFO MSTransformManager::regridSpwAux Output SPW: 150 channels, first channel = 2.305041680e+11 Hz, last channel = 2.306252781e+11 Hz, first width = 8.128192772e+05 Hz, last width = 8.128192772e+05 Hz 2025-10-14 08:26:00 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:26:00 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:26:00 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:26:00 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:26:00 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750270458.13971 - 230750270458.13971 = 0, bandwidth 1.21923e+08, relative shift: -0 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid Using fftshift interpolation. The absolute shift is the new central frequency at current (input SPW) time - new central frequency at reference (output SPW) time 2025-10-14 08:26:00 INFO MSTransformManager::initFrequencyTransGrid+ Absolute shift: 230750240475.30228 - 230750270458.13971 = -29982.8, bandwidth 1.21923e+08, relative shift: 0.000245916 2025-10-14 08:26:00 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:25:59.504533 End time: 2025-10-14 08:26:00.240541 2025-10-14 08:26:00 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:26:00 INFO cvel2::::casa ########################################## Testing channel frequencies ... .2025-10-14 08:26:00 INFO split::::casa ########################################## 2025-10-14 08:26:00 INFO split::::casa ##### Begin Task: split ##### 2025-10-14 08:26:00 INFO split::::casa split( vis='jupiter6cm.demo-thinned.ms', outputvis='jup.ms', keepmms=True, field='JUPITER', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='data', keepflags=True, width=1, timebin='0s', combine='' ) 2025-10-14 08:26:00 INFO MSTransformManager::parseMsSpecParams Input file name is jupiter6cm.demo-thinned.ms 2025-10-14 08:26:00 INFO MSTransformManager::parseMsSpecParams Data column is DATA 2025-10-14 08:26:00 INFO MSTransformManager::parseMsSpecParams Output file name is jup.ms 2025-10-14 08:26:00 INFO MSTransformManager::parseDataSelParams field selection is JUPITER 2025-10-14 08:26:00 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:00 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [12] 2025-10-14 08:26:00 INFO MSTransformManager::open Select data 2025-10-14 08:26:00 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:00 INFO MSTransformDataHandler::makeSelection 58740 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:00 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:01 INFO split::::casa Task split complete. Start time: 2025-10-14 08:26:00.276323 End time: 2025-10-14 08:26:01.183747 2025-10-14 08:26:01 INFO split::::casa ##### End Task: split ##### 2025-10-14 08:26:01 INFO split::::casa ########################################## 2025-10-14 08:26:01 INFO cvel2::::casa ########################################## 2025-10-14 08:26:01 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:26:01 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=-1, start=0, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='SOURCE', veltype='radio', hanning=False ) 2025-10-14 08:26:01 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:26:01 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:26:01 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:01 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:26:01 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:26:01 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:26:01 INFO MSTransformManager::parseRefFrameTransParams Output reference frame is SOURCE 2025-10-14 08:26:01 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:26:01 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:26:01 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:26:01 INFO MSTransformManager::parseFreqSpecParams Start is 0 2025-10-14 08:26:01 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:26:01 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:01 INFO MSTransformManager::open Select data 2025-10-14 08:26:01 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:01 INFO MSTransformDataHandler::copyEphemerisTable Transferring ephemeris EPHEM0_Jupiter_54708-55437dUTC.tab for output field JUPITER 2025-10-14 08:26:02 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:02 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:26:02 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:26:02 INFO MSTransformRegridder::combineSpwsCore SPW 1: 1 channels, first channel = 4.835100000e+09 Hz 2025-10-14 08:26:02 INFO MSTransformRegridder::combineSpwsCore SPW 0: 1 channels, first channel = 4.885100000e+09 Hz 2025-10-14 08:26:02 INFO MSTransformManager::regridSpwAux Combined SPW: 2 channels, first channel = 4.835100000e+09 Hz, last channel = 4.885100000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:26:02 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:26:02 INFO MSTransformRegridder::calcChanFreqs Note: The given additional radial velocity of 21762.7 m/s will be taken into account. 2025-10-14 08:26:02 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:26:02 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 4.86045e+09 Hz 2025-10-14 08:26:02 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 5.00036e+07 Hz 2025-10-14 08:26:02 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 2 2025-10-14 08:26:02 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1.00007e+08 Hz 2025-10-14 08:26:02 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 4.81044e+09 Hz, upper edge = 4.91045e+09 Hz 2025-10-14 08:26:02 INFO MSTransformManager::regridSpwAux Output SPW: 2 channels, first channel = 4.835445569e+09 Hz, last channel = 4.885449143e+09 Hz, first width = 5.000357355e+07 Hz, last width = 5.000357355e+07 Hz 2025-10-14 08:26:02 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:26:02 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:26:02 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:26:02 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:26:02 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:26:03 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:26:01.266736 End time: 2025-10-14 08:26:03.034672 2025-10-14 08:26:03 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:26:03 INFO cvel2::::casa ########################################## Testing channel frequencies ... .2025-10-14 08:26:03 INFO cvel2::::casa ########################################## 2025-10-14 08:26:03 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:26:03 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=True, field='1', spw='0', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=32, start=10, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:26:03 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:26:03 WARN cvel2::::casa Parameter passall=True is not supported in cvel2 2025-10-14 08:26:03 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:26:03 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:03 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:26:03 INFO MSTransformManager::parseDataSelParams field selection is 1 2025-10-14 08:26:03 INFO MSTransformManager::parseDataSelParams spw selection is 0 2025-10-14 08:26:03 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:26:03 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:26:03 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:26:03 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:26:03 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 32 2025-10-14 08:26:03 INFO MSTransformManager::parseFreqSpecParams Start is 10 2025-10-14 08:26:03 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:26:03 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:03 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [1] 2025-10-14 08:26:03 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:03 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 63, 1] 2025-10-14 08:26:03 INFO MSTransformManager::open Select data 2025-10-14 08:26:03 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:03 INFO MSTransformDataHandler::makeSelection 1865 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:03 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:03 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:26:03 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:26:03 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:26:03 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:26:03 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:26:03 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.1499e+11 Hz 2025-10-14 08:26:03 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.5625e+06 Hz 2025-10-14 08:26:03 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 32 2025-10-14 08:26:03 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 5e+07 Hz 2025-10-14 08:26:03 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14965e+11 Hz, upper edge = 1.15015e+11 Hz 2025-10-14 08:26:03 INFO MSTransformManager::regridSpwAux Output SPW: 32 channels, first channel = 1.149658156e+11 Hz, last channel = 1.150142531e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:26:03 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:26:03.070540 End time: 2025-10-14 08:26:03.460861 2025-10-14 08:26:03 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:26:03 INFO cvel2::::casa ########################################## 2025-10-14 08:26:03 INFO split::::casa ########################################## 2025-10-14 08:26:03 INFO split::::casa ##### Begin Task: split ##### 2025-10-14 08:26:03 INFO split::::casa split( vis='myinput.ms', outputvis='cvel-output.ms.deselected', keepmms=True, field='0,2,3,4,5,6', spw='0', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', keepflags=True, width=1, timebin='0s', combine='' ) 2025-10-14 08:26:03 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:26:03 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:03 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms.deselected 2025-10-14 08:26:03 INFO MSTransformManager::parseDataSelParams field selection is 0,2,3,4,5,6 2025-10-14 08:26:03 INFO MSTransformManager::parseDataSelParams spw selection is 0 2025-10-14 08:26:03 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:03 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [0, 2, 3, 4, 5, 6] 2025-10-14 08:26:03 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:03 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 63, 1] 2025-10-14 08:26:03 INFO MSTransformManager::open Select data 2025-10-14 08:26:03 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:04 INFO MSTransformDataHandler::makeSelection 11880 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:04 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:04 INFO split::::casa Task split complete. Start time: 2025-10-14 08:26:03.466764 End time: 2025-10-14 08:26:04.356533 2025-10-14 08:26:04 INFO split::::casa ##### End Task: split ##### 2025-10-14 08:26:04 INFO split::::casa ########################################## 2025-10-14 08:26:04 INFO MSConcat::concatenate Appending /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel-output.ms.deselected to /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel-output.ms 2025-10-14 08:26:04 INFO MSConcat::concatenate No valid state tables present. Result won't have one either. 2025-10-14 08:26:04 INFO MSConcat::concatenate Added 6 rows to the source subtable 2025-10-14 08:26:04 INFO MSConcat::concatenate Added 1 rows and matched 0 from the data description subtable 2025-10-14 08:26:04 INFO MSConcat::concatenate Added 1 rows and matched 0 from the spectral window subtable 2025-10-14 08:26:04 INFO MSConcat::concatenate Added 0 rows and matched 12 from the antenna subtable 2025-10-14 08:26:04 INFO MSConcat::concatenate + Added 0 rows to the feed subtable 2025-10-14 08:26:04 INFO MSConcat::concatenate + Added 6 rows and matched 0 from the field subtable 2025-10-14 08:26:04 INFO MSConcat::copyObservation Added 0 rows and matched 1 rows in the observation subtable. 2025-10-14 08:26:04 INFO MSConcat::copyProcessor Added 0 rows and matched 0 rows in the processor subtable. 2025-10-14 08:26:04 INFO MSConcat::copyPointing No valid pointing tables present. Result won't have one either. 2025-10-14 08:26:04 INFO MSConcat::copySysCal No valid syscal tables present. Result won't have one either. 2025-10-14 08:26:04 INFO MSConcat::copyWeather No valid weather tables present. Result won't have one either. 2025-10-14 08:26:04 INFO MSConcat::copyGainCurve No valid gain curve tables present. Result won't have one either. 2025-10-14 08:26:04 INFO MSConcat::copyPhaseCal No valid gain curve tables present. Result won't have one either. .2025-10-14 08:26:05 INFO cvel2::::casa ########################################## 2025-10-14 08:26:05 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:26:05 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=True, field='1', spw='0', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='ALL', mode='channel', nchan=32, start=10, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:26:05 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:26:05 WARN cvel2::::casa Parameter passall=True is not supported in cvel2 2025-10-14 08:26:05 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:26:05 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:05 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:26:05 INFO MSTransformManager::parseDataSelParams field selection is 1 2025-10-14 08:26:05 INFO MSTransformManager::parseDataSelParams spw selection is 0 2025-10-14 08:26:05 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:26:05 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:26:05 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:26:05 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:26:05 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 32 2025-10-14 08:26:05 INFO MSTransformManager::parseFreqSpecParams Start is 10 2025-10-14 08:26:05 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:26:05 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:05 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [1] 2025-10-14 08:26:05 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:05 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 63, 1] 2025-10-14 08:26:05 INFO MSTransformManager::open Select data 2025-10-14 08:26:05 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:05 INFO MSTransformDataHandler::makeSelection 1865 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:05 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:05 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:26:05 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 0 2025-10-14 08:26:05 INFO MSTransformManager::regridSpwAux Input SPW: 64 channels, first channel = 1.149501906e+11 Hz, last channel = 1.150486281e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:26:05 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:26:05 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:26:05 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 1.1499e+11 Hz 2025-10-14 08:26:05 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1.5625e+06 Hz 2025-10-14 08:26:05 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 32 2025-10-14 08:26:05 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 5e+07 Hz 2025-10-14 08:26:05 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 1.14965e+11 Hz, upper edge = 1.15015e+11 Hz 2025-10-14 08:26:05 INFO MSTransformManager::regridSpwAux Output SPW: 32 channels, first channel = 1.149658156e+11 Hz, last channel = 1.150142531e+11 Hz, first width = 1.562500000e+06 Hz, last width = 1.562500000e+06 Hz 2025-10-14 08:26:05 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:26:04.811377 End time: 2025-10-14 08:26:05.281114 2025-10-14 08:26:05 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:26:05 INFO cvel2::::casa ########################################## 2025-10-14 08:26:05 INFO split::::casa ########################################## 2025-10-14 08:26:05 INFO split::::casa ##### Begin Task: split ##### 2025-10-14 08:26:05 INFO split::::casa split( vis='myinput.ms', outputvis='cvel-output.ms.deselected', keepmms=True, field='0,2,3,4,5,6', spw='0', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', keepflags=True, width=1, timebin='0s', combine='' ) 2025-10-14 08:26:05 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:26:05 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:05 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms.deselected 2025-10-14 08:26:05 INFO MSTransformManager::parseDataSelParams field selection is 0,2,3,4,5,6 2025-10-14 08:26:05 INFO MSTransformManager::parseDataSelParams spw selection is 0 2025-10-14 08:26:05 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:05 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [0, 2, 3, 4, 5, 6] 2025-10-14 08:26:05 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:05 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 63, 1] 2025-10-14 08:26:05 INFO MSTransformManager::open Select data 2025-10-14 08:26:05 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:05 INFO MSTransformDataHandler::makeSelection 11880 out of 13860 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:06 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:06 INFO split::::casa Task split complete. Start time: 2025-10-14 08:26:05.288735 End time: 2025-10-14 08:26:06.194504 2025-10-14 08:26:06 INFO split::::casa ##### End Task: split ##### 2025-10-14 08:26:06 INFO split::::casa ########################################## 2025-10-14 08:26:06 INFO MSConcat::concatenate Appending /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel-output.ms.deselected to /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel-output.ms 2025-10-14 08:26:06 INFO MSConcat::concatenate No valid state tables present. Result won't have one either. 2025-10-14 08:26:06 INFO MSConcat::concatenate Added 6 rows to the source subtable 2025-10-14 08:26:06 INFO MSConcat::concatenate Added 1 rows and matched 0 from the data description subtable 2025-10-14 08:26:06 INFO MSConcat::concatenate Added 1 rows and matched 0 from the spectral window subtable 2025-10-14 08:26:06 INFO MSConcat::concatenate Added 0 rows and matched 12 from the antenna subtable 2025-10-14 08:26:06 INFO MSConcat::concatenate + Added 0 rows to the feed subtable 2025-10-14 08:26:06 INFO MSConcat::concatenate + Added 6 rows and matched 0 from the field subtable 2025-10-14 08:26:06 INFO MSConcat::copyObservation Added 0 rows and matched 1 rows in the observation subtable. 2025-10-14 08:26:06 INFO MSConcat::copyProcessor Added 0 rows and matched 0 rows in the processor subtable. 2025-10-14 08:26:06 INFO MSConcat::copyPointing No valid pointing tables present. Result won't have one either. 2025-10-14 08:26:06 INFO MSConcat::copySysCal No valid syscal tables present. Result won't have one either. 2025-10-14 08:26:06 INFO MSConcat::copyWeather No valid weather tables present. Result won't have one either. 2025-10-14 08:26:06 INFO MSConcat::copyGainCurve No valid gain curve tables present. Result won't have one either. 2025-10-14 08:26:06 INFO MSConcat::copyPhaseCal No valid gain curve tables present. Result won't have one either. .2025-10-14 08:26:07 INFO cvel2::::casa ########################################## 2025-10-14 08:26:07 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:26:07 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='12', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=-1, start=0, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:26:07 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:26:07 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:26:07 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:07 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:26:07 INFO MSTransformManager::parseDataSelParams field selection is 12 2025-10-14 08:26:07 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:26:07 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:26:07 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:26:07 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:26:07 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:26:07 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:26:07 INFO MSTransformManager::parseFreqSpecParams Start is 0 2025-10-14 08:26:07 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:26:07 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:07 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [12] 2025-10-14 08:26:07 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:07 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:26:07 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:26:07 INFO MSTransformManager::open Select data 2025-10-14 08:26:07 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:07 INFO MSTransformDataHandler::makeSelection 58740 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:07 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:07 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:26:07 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:26:07 INFO MSTransformRegridder::combineSpwsCore SPW 1: 1 channels, first channel = 4.835100000e+09 Hz 2025-10-14 08:26:07 INFO MSTransformRegridder::combineSpwsCore SPW 0: 1 channels, first channel = 4.885100000e+09 Hz 2025-10-14 08:26:07 INFO MSTransformManager::regridSpwAux Combined SPW: 2 channels, first channel = 4.835100000e+09 Hz, last channel = 4.885100000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:26:07 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:26:07 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:26:07 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 4.8601e+09 Hz 2025-10-14 08:26:07 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 5e+07 Hz 2025-10-14 08:26:07 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 2 2025-10-14 08:26:07 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1e+08 Hz 2025-10-14 08:26:07 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 4.8101e+09 Hz, upper edge = 4.9101e+09 Hz 2025-10-14 08:26:07 INFO MSTransformManager::regridSpwAux Output SPW: 2 channels, first channel = 4.835100000e+09 Hz, last channel = 4.885100000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:26:07 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:26:07 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:26:07 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:26:07 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:26:07 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:26:08 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:26:06.605317 End time: 2025-10-14 08:26:08.229165 2025-10-14 08:26:08 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:26:08 INFO cvel2::::casa ########################################## .2025-10-14 08:26:08 INFO cvel2::::casa ########################################## 2025-10-14 08:26:08 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:26:08 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='11', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=1, start=0, width=2, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:26:08 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:26:08 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:26:08 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:08 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:26:08 INFO MSTransformManager::parseDataSelParams field selection is 11 2025-10-14 08:26:08 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:26:08 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:26:08 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:26:08 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:26:08 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:26:08 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 1 2025-10-14 08:26:08 INFO MSTransformManager::parseFreqSpecParams Start is 0 2025-10-14 08:26:08 INFO MSTransformManager::parseFreqSpecParams Width is 2 2025-10-14 08:26:08 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:08 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [11] 2025-10-14 08:26:08 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:08 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:26:08 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:26:08 INFO MSTransformManager::open Select data 2025-10-14 08:26:08 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:08 INFO MSTransformDataHandler::makeSelection 52226 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:09 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:09 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:26:09 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:26:09 INFO MSTransformRegridder::combineSpwsCore SPW 1: 1 channels, first channel = 4.835100000e+09 Hz 2025-10-14 08:26:09 INFO MSTransformRegridder::combineSpwsCore SPW 0: 1 channels, first channel = 4.885100000e+09 Hz 2025-10-14 08:26:09 INFO MSTransformManager::regridSpwAux Combined SPW: 2 channels, first channel = 4.835100000e+09 Hz, last channel = 4.885100000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:26:09 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:26:09 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:26:09 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 4.8601e+09 Hz 2025-10-14 08:26:09 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 1e+08 Hz 2025-10-14 08:26:09 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 1 2025-10-14 08:26:09 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1e+08 Hz 2025-10-14 08:26:09 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 4.8101e+09 Hz, upper edge = 4.9101e+09 Hz 2025-10-14 08:26:09 INFO MSTransformManager::regridSpwAux Output SPW: 1 channels, first channel = 4.860100000e+09 Hz, last channel = 4.860100000e+09 Hz, first width = 1.000000000e+08 Hz, last width = 1.000000000e+08 Hz 2025-10-14 08:26:09 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:26:09 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:26:09 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:26:09 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:26:09 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:26:10 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:26:08.268395 End time: 2025-10-14 08:26:09.883593 2025-10-14 08:26:10 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:26:10 INFO cvel2::::casa ########################################## .2025-10-14 08:26:10 INFO cvel2::::casa ########################################## 2025-10-14 08:26:10 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:26:10 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='10', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=1, start=1, width=1, interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:26:10 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:26:10 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:26:10 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:10 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:26:10 INFO MSTransformManager::parseDataSelParams field selection is 10 2025-10-14 08:26:10 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:26:10 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:26:10 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:26:10 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:26:10 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:26:10 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 1 2025-10-14 08:26:10 INFO MSTransformManager::parseFreqSpecParams Start is 1 2025-10-14 08:26:10 INFO MSTransformManager::parseFreqSpecParams Width is 1 2025-10-14 08:26:10 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:10 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [10] 2025-10-14 08:26:10 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:10 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:26:10 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:26:10 INFO MSTransformManager::open Select data 2025-10-14 08:26:10 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:10 INFO MSTransformDataHandler::makeSelection 81348 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:10 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:10 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:26:10 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:26:10 INFO MSTransformRegridder::combineSpwsCore SPW 1: 1 channels, first channel = 4.835100000e+09 Hz 2025-10-14 08:26:10 INFO MSTransformRegridder::combineSpwsCore SPW 0: 1 channels, first channel = 4.885100000e+09 Hz 2025-10-14 08:26:10 INFO MSTransformManager::regridSpwAux Combined SPW: 2 channels, first channel = 4.835100000e+09 Hz, last channel = 4.885100000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:26:10 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:26:10 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:26:10 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 4.8851e+09 Hz 2025-10-14 08:26:10 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 5e+07 Hz 2025-10-14 08:26:10 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 1 2025-10-14 08:26:10 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 5e+07 Hz 2025-10-14 08:26:10 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 4.8601e+09 Hz, upper edge = 4.9101e+09 Hz 2025-10-14 08:26:10 INFO MSTransformManager::regridSpwAux Output SPW: 1 channels, first channel = 4.885100000e+09 Hz, last channel = 4.885100000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:26:10 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:26:10 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:26:10 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:26:10 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:26:10 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:26:12 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:26:09.914658 End time: 2025-10-14 08:26:12.063446 2025-10-14 08:26:12 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:26:12 INFO cvel2::::casa ########################################## .2025-10-14 08:26:12 INFO partition::::casa ########################################## 2025-10-14 08:26:12 INFO partition::::casa ##### Begin Task: partition ##### 2025-10-14 08:26:12 INFO partition::::casa partition( vis='jupiter6cm.demo-thinned.ms', outputvis='cvel_input_test.mms', createmms=True, separationaxis='spw', numsubms=64, flagbackup=False, datacolumn='all', field='', spw='', scan='8,11', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', disableparallel=False, ddistart=-1, taql='' ) 2025-10-14 08:26:12 INFO ParallelDataHelper::::casa Analyzing MS for partitioning 2025-10-14 08:26:12 INFO partition::::casa ########################################## 2025-10-14 08:26:12 INFO partition::::casa ##### Begin Task: partition ##### 2025-10-14 08:26:12 INFO partition::::casa partition( vis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms', outputvis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0000.ms', createmms=False, separationaxis='spw', numsubms=64, flagbackup=False, datacolumn='all', field='', spw='0', scan='8,11', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', disableparallel=False, ddistart=0, taql='' ) 2025-10-14 08:26:12 INFO MSTransformManager::parseMsSpecParams Input file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms 2025-10-14 08:26:12 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:12 INFO MSTransformManager::parseMsSpecParams Output file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0000.ms 2025-10-14 08:26:12 INFO MSTransformManager::parseDataSelParams scan selection is 8,11 2025-10-14 08:26:12 INFO MSTransformManager::parseDataSelParams spw selection is 0 2025-10-14 08:26:12 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:12 INFO MSTransformManager::initDataSelectionParams Selected Scans Ids are [8, 11] 2025-10-14 08:26:12 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:12 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1] 2025-10-14 08:26:12 INFO MSTransformManager::open Select data 2025-10-14 08:26:12 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:12 INFO MSTransformDataHandler::makeSelection 10142 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:12 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:12 INFO partition::::casa Run the tool to partition the MS 2025-10-14 08:26:13 INFO partition::::casa Task partition complete. Start time: 2025-10-14 08:26:12.232668 End time: 2025-10-14 08:26:12.660742 2025-10-14 08:26:13 INFO partition::::casa ##### End Task: partition ##### 2025-10-14 08:26:13 INFO partition::::casa ########################################## 2025-10-14 08:26:13 INFO partition::::casa ########################################## 2025-10-14 08:26:13 INFO partition::::casa ##### Begin Task: partition ##### 2025-10-14 08:26:13 INFO partition::::casa partition( vis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms', outputvis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0001.ms', createmms=False, separationaxis='spw', numsubms=64, flagbackup=False, datacolumn='all', field='', spw='1', scan='8,11', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', disableparallel=False, ddistart=1, taql='' ) 2025-10-14 08:26:13 INFO MSTransformManager::parseMsSpecParams Input file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms 2025-10-14 08:26:13 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:13 INFO MSTransformManager::parseMsSpecParams Output file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0001.ms 2025-10-14 08:26:13 INFO MSTransformManager::parseDataSelParams scan selection is 8,11 2025-10-14 08:26:13 INFO MSTransformManager::parseDataSelParams spw selection is 1 2025-10-14 08:26:13 INFO MSTransformManager::parseFreqTransParams DDI start is 1 2025-10-14 08:26:13 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:13 INFO MSTransformManager::initDataSelectionParams Selected Scans Ids are [8, 11] 2025-10-14 08:26:13 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:13 INFO MSTransformManager::initDataSelectionParams+ [1, 0, 0, 1] 2025-10-14 08:26:13 INFO MSTransformManager::open Select data 2025-10-14 08:26:13 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:13 INFO MSTransformDataHandler::makeSelection 10142 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:13 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:13 INFO partition::::casa Run the tool to partition the MS 2025-10-14 08:26:13 INFO partition::::casa Task partition complete. Start time: 2025-10-14 08:26:12.664765 End time: 2025-10-14 08:26:13.068230 2025-10-14 08:26:13 INFO partition::::casa ##### End Task: partition ##### 2025-10-14 08:26:13 INFO partition::::casa ########################################## 2025-10-14 08:26:13 INFO ParallelDataHelper::::casa Consolidate the sub-tables 2025-10-14 08:26:13 INFO MSTransformDataHandler::mergeSpwSubTables Merging SPECTRAL_WINDOW sub-tables from all sub-MSs to form MMS-level SPECTRAL_WINDOW sub-table 2025-10-14 08:26:13 INFO MSTransformDataHandler::mergeDDISubTables Merging DDI sub-tables from all sub-MSs to form MMS-level DDI sub-table 2025-10-14 08:26:13 INFO MSTransformDataHandler::mergeFeedSubTables Merging FEED sub-tables from all sub-MSs to form MMS-level FEED sub-table 2025-10-14 08:26:13 SEVERE MSTransformDataHandler::mergeSourceSubTables SOURCE sub-table found but has no valid content 2025-10-14 08:26:13 INFO ParallelDataHelper::::casa Finalizing MMS structure 2025-10-14 08:26:13 INFO ms::createmultims Copying subtables from /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0000.ms to the other MMS members. 2025-10-14 08:26:13 INFO partition::::casa Task partition complete. Start time: 2025-10-14 08:26:12.109106 End time: 2025-10-14 08:26:13.421761 2025-10-14 08:26:13 INFO partition::::casa ##### End Task: partition ##### 2025-10-14 08:26:13 INFO partition::::casa ########################################## 2025-10-14 08:26:13 INFO cvel2::::casa ########################################## 2025-10-14 08:26:13 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:26:13 INFO cvel2::::casa cvel2( vis='cvel_input_test.mms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='5,6', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=2, start='4.8101 GHz', width='50 MHz', interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:26:14 WARN cvel2::::casa Cannot combine spws in parallel because the subMSs do not contain all the selected spws 2025-10-14 08:26:14 SEVERE cvel2::::casa Please set keepmms to False or use task mstransform in this case. 2025-10-14 08:26:14 SEVERE cvel2::::casa Exception Reported: Error in cvel2: Unable to continue with MMS processing 2025-10-14 08:26:14 INFO cvel2::::casa Traceback (most recent call last): 2025-10-14 08:26:14 INFO cvel2::::casa+ File "/wheeldirectory/casa-6.7.1-12-py3.12.el8/lib/py/lib/python3.12/site-packages/casashell/private/cvel2.py", line 1101, in __call__ 2025-10-14 08:26:14 INFO cvel2::::casa+ task_result = _cvel2_t( _pc.document['vis'],_pc.document['outputvis'],_pc.document['keepmms'],_pc.document['passall'],_pc.document['field'],_pc.document['spw'],_pc.document['scan'],_pc.document['antenna'],_pc.document['correlation'],_pc.document['timerange'],_pc.document['intent'],_pc.document['array'],_pc.document['uvrange'],_pc.document['observation'],_pc.document['feed'],_pc.document['datacolumn'],_pc.document['mode'],_pc.document['nchan'],_pc.document['start'],_pc.document['width'],_pc.document['interpolation'],_pc.document['phasecenter'],_pc.document['restfreq'],_pc.document['outframe'],_pc.document['veltype'],_pc.document['hanning'] ) 2025-10-14 08:26:14 INFO cvel2::::casa+ ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ 2025-10-14 08:26:14 INFO cvel2::::casa+ File "/wheeldirectory/casa-6.7.1-12-py3.12.el8/lib/py/lib/python3.12/site-packages/casatasks/private/task_cvel2.py", line 64, in cvel2 2025-10-14 08:26:14 INFO cvel2::::casa+ raise RuntimeError('Unable to continue with MMS processing') 2025-10-14 08:26:14 INFO cvel2::::casa+ RuntimeError: Unable to continue with MMS processing 2025-10-14 08:26:14 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:26:13.427853 End time: 2025-10-14 08:26:13.560174 2025-10-14 08:26:14 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:26:14 INFO cvel2::::casa ########################################## ................. Creating test MMS .................. Expected error! .2025-10-14 08:26:14 INFO partition::::casa ########################################## 2025-10-14 08:26:14 INFO partition::::casa ##### Begin Task: partition ##### 2025-10-14 08:26:14 INFO partition::::casa partition( vis='jupiter6cm.demo-thinned.ms', outputvis='cvel_input_test.mms', createmms=True, separationaxis='auto', numsubms=64, flagbackup=False, datacolumn='all', field='', spw='0,1', scan='8,11', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', disableparallel=False, ddistart=-1, taql='' ) 2025-10-14 08:26:14 INFO ParallelDataHelper::::casa Analyzing MS for partitioning 2025-10-14 08:26:14 INFO ParallelDataHelper::::casa Automatically distribute the scan/spw pairs to balance the load along field, spw and scan axes 2025-10-14 08:26:14 INFO msmetadata_cmpt.cc::open Performing internal consistency checks on /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms... 2025-10-14 08:26:14 WARN ParallelDataHelper::getPartitionMap::casa Number of subMSs (64) is greater than available scan,ddi pairs (4), setting nsubms to 4 2025-10-14 08:26:14 INFO partition::::casa ########################################## 2025-10-14 08:26:14 INFO partition::::casa ##### Begin Task: partition ##### 2025-10-14 08:26:14 INFO partition::::casa partition( vis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms', outputvis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0000.ms', createmms=False, separationaxis='auto', numsubms=64, flagbackup=False, datacolumn='all', field='', spw='0,1', scan='8,11', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', disableparallel=False, ddistart=-1, taql='(DATA_DESC_ID==1 && (SCAN_NUMBER IN [8]))' ) 2025-10-14 08:26:14 INFO MSTransformManager::parseMsSpecParams Input file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms 2025-10-14 08:26:14 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:14 INFO MSTransformManager::parseMsSpecParams Output file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0000.ms 2025-10-14 08:26:14 INFO MSTransformManager::parseDataSelParams scan selection is 8,11 2025-10-14 08:26:14 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:26:14 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:14 INFO MSTransformManager::initDataSelectionParams Selected Scans Ids are [8, 11] 2025-10-14 08:26:14 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:14 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:26:14 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:26:14 INFO MSTransformManager::open Select data 2025-10-14 08:26:14 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:14 INFO MSTransformDataHandler::makeSelection 5457 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:14 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:14 INFO partition::::casa Run the tool to partition the MS 2025-10-14 08:26:14 INFO partition::::casa Task partition complete. Start time: 2025-10-14 08:26:13.803753 End time: 2025-10-14 08:26:14.264726 2025-10-14 08:26:14 INFO partition::::casa ##### End Task: partition ##### 2025-10-14 08:26:14 INFO partition::::casa ########################################## 2025-10-14 08:26:14 INFO partition::::casa ########################################## 2025-10-14 08:26:14 INFO partition::::casa ##### Begin Task: partition ##### 2025-10-14 08:26:14 INFO partition::::casa partition( vis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms', outputvis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0001.ms', createmms=False, separationaxis='auto', numsubms=64, flagbackup=False, datacolumn='all', field='', spw='0,1', scan='8,11', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', disableparallel=False, ddistart=-1, taql='(DATA_DESC_ID==0 && (SCAN_NUMBER IN [8]))' ) 2025-10-14 08:26:14 INFO MSTransformManager::parseMsSpecParams Input file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms 2025-10-14 08:26:14 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:14 INFO MSTransformManager::parseMsSpecParams Output file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0001.ms 2025-10-14 08:26:14 INFO MSTransformManager::parseDataSelParams scan selection is 8,11 2025-10-14 08:26:14 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:26:14 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:14 INFO MSTransformManager::initDataSelectionParams Selected Scans Ids are [8, 11] 2025-10-14 08:26:14 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:14 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:26:14 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:26:14 INFO MSTransformManager::open Select data 2025-10-14 08:26:14 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:14 INFO MSTransformDataHandler::makeSelection 5457 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:15 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:15 INFO partition::::casa Run the tool to partition the MS 2025-10-14 08:26:15 INFO partition::::casa Task partition complete. Start time: 2025-10-14 08:26:14.269625 End time: 2025-10-14 08:26:14.675620 2025-10-14 08:26:15 INFO partition::::casa ##### End Task: partition ##### 2025-10-14 08:26:15 INFO partition::::casa ########################################## 2025-10-14 08:26:15 INFO partition::::casa ########################################## 2025-10-14 08:26:15 INFO partition::::casa ##### Begin Task: partition ##### 2025-10-14 08:26:15 INFO partition::::casa partition( vis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms', outputvis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0002.ms', createmms=False, separationaxis='auto', numsubms=64, flagbackup=False, datacolumn='all', field='', spw='0,1', scan='8,11', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', disableparallel=False, ddistart=-1, taql='(DATA_DESC_ID==1 && (SCAN_NUMBER IN [11]))' ) 2025-10-14 08:26:15 INFO MSTransformManager::parseMsSpecParams Input file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms 2025-10-14 08:26:15 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:15 INFO MSTransformManager::parseMsSpecParams Output file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0002.ms 2025-10-14 08:26:15 INFO MSTransformManager::parseDataSelParams scan selection is 8,11 2025-10-14 08:26:15 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:26:15 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:15 INFO MSTransformManager::initDataSelectionParams Selected Scans Ids are [8, 11] 2025-10-14 08:26:15 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:15 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:26:15 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:26:15 INFO MSTransformManager::open Select data 2025-10-14 08:26:15 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:15 INFO MSTransformDataHandler::makeSelection 4685 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:15 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:15 INFO partition::::casa Run the tool to partition the MS 2025-10-14 08:26:15 INFO partition::::casa Task partition complete. Start time: 2025-10-14 08:26:14.679684 End time: 2025-10-14 08:26:15.107779 2025-10-14 08:26:15 INFO partition::::casa ##### End Task: partition ##### 2025-10-14 08:26:15 INFO partition::::casa ########################################## 2025-10-14 08:26:15 INFO partition::::casa ########################################## 2025-10-14 08:26:15 INFO partition::::casa ##### Begin Task: partition ##### 2025-10-14 08:26:15 INFO partition::::casa partition( vis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms', outputvis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0003.ms', createmms=False, separationaxis='auto', numsubms=64, flagbackup=False, datacolumn='all', field='', spw='0,1', scan='8,11', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', disableparallel=False, ddistart=-1, taql='(DATA_DESC_ID==0 && (SCAN_NUMBER IN [11]))' ) 2025-10-14 08:26:15 INFO MSTransformManager::parseMsSpecParams Input file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms 2025-10-14 08:26:15 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:15 INFO MSTransformManager::parseMsSpecParams Output file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0003.ms 2025-10-14 08:26:15 INFO MSTransformManager::parseDataSelParams scan selection is 8,11 2025-10-14 08:26:15 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:26:15 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:15 INFO MSTransformManager::initDataSelectionParams Selected Scans Ids are [8, 11] 2025-10-14 08:26:15 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:15 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:26:15 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:26:15 INFO MSTransformManager::open Select data 2025-10-14 08:26:15 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:15 INFO MSTransformDataHandler::makeSelection 4685 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:15 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:15 INFO partition::::casa Run the tool to partition the MS 2025-10-14 08:26:16 INFO partition::::casa Task partition complete. Start time: 2025-10-14 08:26:15.115119 End time: 2025-10-14 08:26:15.553776 2025-10-14 08:26:16 INFO partition::::casa ##### End Task: partition ##### 2025-10-14 08:26:16 INFO partition::::casa ########################################## 2025-10-14 08:26:16 INFO ParallelDataHelper::::casa Finalizing MMS structure 2025-10-14 08:26:16 INFO ms::createmultims Copying subtables from /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0000.ms to the other MMS members. 2025-10-14 08:26:16 INFO partition::::casa Task partition complete. Start time: 2025-10-14 08:26:13.587090 End time: 2025-10-14 08:26:16.179620 2025-10-14 08:26:16 INFO partition::::casa ##### End Task: partition ##### 2025-10-14 08:26:16 INFO partition::::casa ########################################## 2025-10-14 08:26:16 INFO cvel2::::casa ########################################## 2025-10-14 08:26:16 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:26:16 INFO cvel2::::casa cvel2( vis='cvel_input_test.mms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='5,6', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=2, start='4.8101 GHz', width='50 MHz', interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:26:16 WARN cvel2::::casa Cannot combine spws in parallel because the subMSs do not contain all the selected spws 2025-10-14 08:26:16 SEVERE cvel2::::casa Please set keepmms to False or use task mstransform in this case. 2025-10-14 08:26:16 SEVERE cvel2::::casa Exception Reported: Error in cvel2: Unable to continue with MMS processing 2025-10-14 08:26:16 INFO cvel2::::casa Traceback (most recent call last): 2025-10-14 08:26:16 INFO cvel2::::casa+ File "/wheeldirectory/casa-6.7.1-12-py3.12.el8/lib/py/lib/python3.12/site-packages/casashell/private/cvel2.py", line 1101, in __call__ 2025-10-14 08:26:16 INFO cvel2::::casa+ task_result = _cvel2_t( _pc.document['vis'],_pc.document['outputvis'],_pc.document['keepmms'],_pc.document['passall'],_pc.document['field'],_pc.document['spw'],_pc.document['scan'],_pc.document['antenna'],_pc.document['correlation'],_pc.document['timerange'],_pc.document['intent'],_pc.document['array'],_pc.document['uvrange'],_pc.document['observation'],_pc.document['feed'],_pc.document['datacolumn'],_pc.document['mode'],_pc.document['nchan'],_pc.document['start'],_pc.document['width'],_pc.document['interpolation'],_pc.document['phasecenter'],_pc.document['restfreq'],_pc.document['outframe'],_pc.document['veltype'],_pc.document['hanning'] ) 2025-10-14 08:26:16 INFO cvel2::::casa+ ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ 2025-10-14 08:26:16 INFO cvel2::::casa+ File "/wheeldirectory/casa-6.7.1-12-py3.12.el8/lib/py/lib/python3.12/site-packages/casatasks/private/task_cvel2.py", line 64, in cvel2 2025-10-14 08:26:16 INFO cvel2::::casa+ raise RuntimeError('Unable to continue with MMS processing') 2025-10-14 08:26:16 INFO cvel2::::casa+ RuntimeError: Unable to continue with MMS processing 2025-10-14 08:26:16 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:26:16.185851 End time: 2025-10-14 08:26:16.366332 2025-10-14 08:26:16 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:26:16 INFO cvel2::::casa ########################################## ................. Creating test MMS .................. Expected error! .2025-10-14 08:26:16 INFO partition::::casa ########################################## 2025-10-14 08:26:16 INFO partition::::casa ##### Begin Task: partition ##### 2025-10-14 08:26:16 INFO partition::::casa partition( vis='jupiter6cm.demo-thinned.ms', outputvis='cvel_input_test.mms', createmms=True, separationaxis='auto', numsubms=64, flagbackup=False, datacolumn='all', field='', spw='0,1', scan='8,11', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', disableparallel=False, ddistart=-1, taql='' ) 2025-10-14 08:26:16 INFO ParallelDataHelper::::casa Analyzing MS for partitioning 2025-10-14 08:26:16 INFO ParallelDataHelper::::casa Automatically distribute the scan/spw pairs to balance the load along field, spw and scan axes 2025-10-14 08:26:17 INFO msmetadata_cmpt.cc::open Performing internal consistency checks on /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms... 2025-10-14 08:26:17 WARN ParallelDataHelper::getPartitionMap::casa Number of subMSs (64) is greater than available scan,ddi pairs (4), setting nsubms to 4 2025-10-14 08:26:17 INFO partition::::casa ########################################## 2025-10-14 08:26:17 INFO partition::::casa ##### Begin Task: partition ##### 2025-10-14 08:26:17 INFO partition::::casa partition( vis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms', outputvis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0000.ms', createmms=False, separationaxis='auto', numsubms=64, flagbackup=False, datacolumn='all', field='', spw='0,1', scan='8,11', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', disableparallel=False, ddistart=-1, taql='(DATA_DESC_ID==1 && (SCAN_NUMBER IN [8]))' ) 2025-10-14 08:26:17 INFO MSTransformManager::parseMsSpecParams Input file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms 2025-10-14 08:26:17 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:17 INFO MSTransformManager::parseMsSpecParams Output file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0000.ms 2025-10-14 08:26:17 INFO MSTransformManager::parseDataSelParams scan selection is 8,11 2025-10-14 08:26:17 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:26:17 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:17 INFO MSTransformManager::initDataSelectionParams Selected Scans Ids are [8, 11] 2025-10-14 08:26:17 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:17 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:26:17 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:26:17 INFO MSTransformManager::open Select data 2025-10-14 08:26:17 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:17 INFO MSTransformDataHandler::makeSelection 5457 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:17 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:17 INFO partition::::casa Run the tool to partition the MS 2025-10-14 08:26:17 INFO partition::::casa Task partition complete. Start time: 2025-10-14 08:26:16.652995 End time: 2025-10-14 08:26:17.111001 2025-10-14 08:26:17 INFO partition::::casa ##### End Task: partition ##### 2025-10-14 08:26:17 INFO partition::::casa ########################################## 2025-10-14 08:26:17 INFO partition::::casa ########################################## 2025-10-14 08:26:17 INFO partition::::casa ##### Begin Task: partition ##### 2025-10-14 08:26:17 INFO partition::::casa partition( vis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms', outputvis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0001.ms', createmms=False, separationaxis='auto', numsubms=64, flagbackup=False, datacolumn='all', field='', spw='0,1', scan='8,11', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', disableparallel=False, ddistart=-1, taql='(DATA_DESC_ID==0 && (SCAN_NUMBER IN [8]))' ) 2025-10-14 08:26:17 INFO MSTransformManager::parseMsSpecParams Input file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms 2025-10-14 08:26:17 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:17 INFO MSTransformManager::parseMsSpecParams Output file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0001.ms 2025-10-14 08:26:17 INFO MSTransformManager::parseDataSelParams scan selection is 8,11 2025-10-14 08:26:17 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:26:17 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:17 INFO MSTransformManager::initDataSelectionParams Selected Scans Ids are [8, 11] 2025-10-14 08:26:17 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:17 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:26:17 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:26:17 INFO MSTransformManager::open Select data 2025-10-14 08:26:17 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:17 INFO MSTransformDataHandler::makeSelection 5457 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:17 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:17 INFO partition::::casa Run the tool to partition the MS 2025-10-14 08:26:18 INFO partition::::casa Task partition complete. Start time: 2025-10-14 08:26:17.116359 End time: 2025-10-14 08:26:17.606708 2025-10-14 08:26:18 INFO partition::::casa ##### End Task: partition ##### 2025-10-14 08:26:18 INFO partition::::casa ########################################## 2025-10-14 08:26:18 INFO partition::::casa ########################################## 2025-10-14 08:26:18 INFO partition::::casa ##### Begin Task: partition ##### 2025-10-14 08:26:18 INFO partition::::casa partition( vis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms', outputvis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0002.ms', createmms=False, separationaxis='auto', numsubms=64, flagbackup=False, datacolumn='all', field='', spw='0,1', scan='8,11', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', disableparallel=False, ddistart=-1, taql='(DATA_DESC_ID==1 && (SCAN_NUMBER IN [11]))' ) 2025-10-14 08:26:18 INFO MSTransformManager::parseMsSpecParams Input file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms 2025-10-14 08:26:18 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:18 INFO MSTransformManager::parseMsSpecParams Output file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0002.ms 2025-10-14 08:26:18 INFO MSTransformManager::parseDataSelParams scan selection is 8,11 2025-10-14 08:26:18 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:26:18 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:18 INFO MSTransformManager::initDataSelectionParams Selected Scans Ids are [8, 11] 2025-10-14 08:26:18 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:18 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:26:18 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:26:18 INFO MSTransformManager::open Select data 2025-10-14 08:26:18 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:18 INFO MSTransformDataHandler::makeSelection 4685 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:18 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:18 INFO partition::::casa Run the tool to partition the MS 2025-10-14 08:26:18 INFO partition::::casa Task partition complete. Start time: 2025-10-14 08:26:17.611112 End time: 2025-10-14 08:26:18.002740 2025-10-14 08:26:18 INFO partition::::casa ##### End Task: partition ##### 2025-10-14 08:26:18 INFO partition::::casa ########################################## 2025-10-14 08:26:18 INFO partition::::casa ########################################## 2025-10-14 08:26:18 INFO partition::::casa ##### Begin Task: partition ##### 2025-10-14 08:26:18 INFO partition::::casa partition( vis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms', outputvis='/home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0003.ms', createmms=False, separationaxis='auto', numsubms=64, flagbackup=False, datacolumn='all', field='', spw='0,1', scan='8,11', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', disableparallel=False, ddistart=-1, taql='(DATA_DESC_ID==0 && (SCAN_NUMBER IN [11]))' ) 2025-10-14 08:26:18 INFO MSTransformManager::parseMsSpecParams Input file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/jupiter6cm.demo-thinned.ms 2025-10-14 08:26:18 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:18 INFO MSTransformManager::parseMsSpecParams Output file name is /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0003.ms 2025-10-14 08:26:18 INFO MSTransformManager::parseDataSelParams scan selection is 8,11 2025-10-14 08:26:18 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:26:18 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:18 INFO MSTransformManager::initDataSelectionParams Selected Scans Ids are [8, 11] 2025-10-14 08:26:18 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:18 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:26:18 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:26:18 INFO MSTransformManager::open Select data 2025-10-14 08:26:18 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:18 INFO MSTransformDataHandler::makeSelection 4685 out of 1052108 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:18 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:18 INFO partition::::casa Run the tool to partition the MS 2025-10-14 08:26:18 INFO partition::::casa Task partition complete. Start time: 2025-10-14 08:26:18.007385 End time: 2025-10-14 08:26:18.449514 2025-10-14 08:26:18 INFO partition::::casa ##### End Task: partition ##### 2025-10-14 08:26:18 INFO partition::::casa ########################################## 2025-10-14 08:26:18 INFO ParallelDataHelper::::casa Finalizing MMS structure 2025-10-14 08:26:18 INFO ms::createmultims Copying subtables from /home/casatest/casa6/casatasks/tests/casashell_tests/work/test_task_cvel2_casashell/cvel_input_test.mms.data/cvel_input_test.mms.0000.ms to the other MMS members. 2025-10-14 08:26:19 INFO partition::::casa Task partition complete. Start time: 2025-10-14 08:26:16.387772 End time: 2025-10-14 08:26:19.027580 2025-10-14 08:26:19 INFO partition::::casa ##### End Task: partition ##### 2025-10-14 08:26:19 INFO partition::::casa ########################################## 2025-10-14 08:26:19 INFO cvel2::::casa ########################################## 2025-10-14 08:26:19 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:26:19 INFO cvel2::::casa cvel2( vis='cvel_input_test.mms', outputvis='cvel-output.ms', keepmms=False, passall=False, field='5,6', spw='0,1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='frequency', nchan=2, start='4.8101 GHz', width='50 MHz', interpolation='linear', phasecenter='', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:26:19 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:26:19 INFO MSTransformManager::parseMsSpecParams Input file name is cvel_input_test.mms 2025-10-14 08:26:19 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:19 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:26:19 INFO MSTransformManager::parseDataSelParams field selection is 5,6 2025-10-14 08:26:19 INFO MSTransformManager::parseDataSelParams spw selection is 0,1 2025-10-14 08:26:19 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:26:19 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:26:19 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:26:19 INFO MSTransformManager::parseFreqSpecParams Mode is frequency 2025-10-14 08:26:19 INFO MSTransformManager::parseFreqSpecParams Number of output channels is 2 2025-10-14 08:26:19 INFO MSTransformManager::parseFreqSpecParams Start is 4.8101 GHz 2025-10-14 08:26:19 INFO MSTransformManager::parseFreqSpecParams Width is 50 MHz 2025-10-14 08:26:19 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:19 INFO MSTransformManager::initDataSelectionParams Selected Fields Ids are [5, 6] 2025-10-14 08:26:19 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [2, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:19 INFO MSTransformManager::initDataSelectionParams+ [0, 0, 0, 1 2025-10-14 08:26:19 INFO MSTransformManager::initDataSelectionParams+ 1, 0, 0, 1] 2025-10-14 08:26:19 INFO MSTransformManager::open Select data 2025-10-14 08:26:19 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:19 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:19 INFO MSTransformManager::regridAndCombineSpwSubtable Calculate combined SPW frequencies 2025-10-14 08:26:19 INFO MSTransformRegridder::combineSpwsCore Input SPWs sorted by first (lowest) channel frequency: 2025-10-14 08:26:19 INFO MSTransformRegridder::combineSpwsCore SPW 1: 1 channels, first channel = 4.835100000e+09 Hz 2025-10-14 08:26:19 INFO MSTransformRegridder::combineSpwsCore SPW 0: 1 channels, first channel = 4.885100000e+09 Hz 2025-10-14 08:26:19 INFO MSTransformManager::regridSpwAux Combined SPW: 2 channels, first channel = 4.835100000e+09 Hz, last channel = 4.885100000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:26:19 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:26:19 INFO MSTransformRegridder::calcChanFreqs *** Requested center of SPW (4.7851e+09 Hz) is smaller than minimum possible value by 2.5e+07 Hz 2025-10-14 08:26:19 INFO MSTransformRegridder::calcChanFreqs+ *** Reset to minimum possible value 4.8101e+09 Hz Channels equidistant in freq 2025-10-14 08:26:19 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 4.8601e+09 Hz 2025-10-14 08:26:19 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 5e+07 Hz 2025-10-14 08:26:19 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 2 2025-10-14 08:26:19 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 1e+08 Hz 2025-10-14 08:26:19 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 4.8101e+09 Hz, upper edge = 4.9101e+09 Hz 2025-10-14 08:26:19 INFO MSTransformManager::regridSpwAux Output SPW: 2 channels, first channel = 4.835100000e+09 Hz, last channel = 4.885100000e+09 Hz, first width = 5.000000000e+07 Hz, last width = 5.000000000e+07 Hz 2025-10-14 08:26:19 INFO MSTransformManager::regridAndCombineSpwSubtable Write output SPW subtable 2025-10-14 08:26:19 INFO MSTransformManager::reindexDDISubTable Re-indexing DDI sub-table 2025-10-14 08:26:19 INFO MSTransformManager::reindexSourceSubTable Re-indexing SOURCE sub-table 2025-10-14 08:26:19 INFO MSTransformManager::reindexGenericTimeDependentSubTable Re-indexing SPW column of FEED sub-table and removing duplicates 2025-10-14 08:26:19 INFO MSTransformManager::setIterationApproach Combining data from selected spectral windows 2025-10-14 08:26:20 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:26:19.033669 End time: 2025-10-14 08:26:19.832383 2025-10-14 08:26:20 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:26:20 INFO cvel2::::casa ########################################## ................. Creating test MMS .................. .2025-10-14 08:26:20 INFO cvel2::::casa ########################################## 2025-10-14 08:26:20 INFO cvel2::::casa ##### Begin Task: cvel2 ##### 2025-10-14 08:26:20 INFO cvel2::::casa cvel2( vis='myinput.ms', outputvis='cvel-output.ms', keepmms=True, passall=False, field='', spw='1', scan='', antenna='', correlation='', timerange='', intent='', array='', uvrange='', observation='', feed='', datacolumn='all', mode='channel', nchan=-1, start=98, width=3, interpolation='linear', phasecenter='J2000 18h25m56.09 -12d04m28.20', restfreq='', outframe='', veltype='radio', hanning=False ) 2025-10-14 08:26:20 INFO cvel2::::casa Will work on datacolumn = ALL 2025-10-14 08:26:20 INFO MSTransformManager::parseMsSpecParams Input file name is myinput.ms 2025-10-14 08:26:20 INFO MSTransformManager::parseMsSpecParams Data column is ALL 2025-10-14 08:26:20 INFO MSTransformManager::parseMsSpecParams Output file name is cvel-output.ms 2025-10-14 08:26:20 INFO MSTransformManager::parseDataSelParams spw selection is 1 2025-10-14 08:26:20 INFO MSTransformManager::parseFreqTransParams Combine Spectral Windows is activated 2025-10-14 08:26:20 INFO MSTransformManager::parseRefFrameTransParams Regrid MS is activated 2025-10-14 08:26:20 INFO MSTransformManager::parseRefFrameTransParams Phase center is J2000 18h25m56.09 -12d04m28.20 2025-10-14 08:26:20 INFO MSTransformManager::parseRefFrameTransParams Interpolation method is linear 2025-10-14 08:26:20 INFO MSTransformManager::parseFreqSpecParams Mode is channel 2025-10-14 08:26:20 INFO MSTransformManager::parseFreqSpecParams Number of output channels is -1 2025-10-14 08:26:20 INFO MSTransformManager::parseFreqSpecParams Start is 98 2025-10-14 08:26:20 INFO MSTransformManager::parseFreqSpecParams Width is 3 2025-10-14 08:26:20 INFO MSTransformManager::colCheckInfo Adding DATA column to output MS from input DATA column 2025-10-14 08:26:20 INFO MSTransformManager::colCheckInfo Adding CORRECTED_DATA column to output MS from input CORRECTED_DATA column 2025-10-14 08:26:20 INFO MSTransformManager::colCheckInfo Adding MODEL_DATA column to output MS from input MODEL_DATA column 2025-10-14 08:26:20 INFO MSTransformManager::initDataSelectionParams Selected SPWs Ids are Axis Lengths: [1, 4] (NB: Matrix in Row/Column order) 2025-10-14 08:26:20 INFO MSTransformManager::initDataSelectionParams+ [1, 0, 127, 1] 2025-10-14 08:26:20 INFO MSTransformManager::open Select data 2025-10-14 08:26:20 INFO MSTransformManager::createOutputMSStructure Create output MS structure 2025-10-14 08:26:20 INFO MSTransformDataHandler::makeSelection 275 out of 7920 rows are going to be considered due to the selection criteria. 2025-10-14 08:26:20 INFO MSTransformManager::checkFillWeightSpectrum Optional column WEIGHT_SPECTRUM found in input MS will be written to output MS 2025-10-14 08:26:20 WARN MSTransformManager::setup There is only one selected SPW, no need to combine 2025-10-14 08:26:20 INFO MSTransformManager::regridSpwSubTable Regridding SPW with Id 1 2025-10-14 08:26:20 INFO MSTransformManager::regridSpwAux Input SPW: 128 channels, first channel = 2.306596313e+11 Hz, last channel = 2.307628188e+11 Hz, first width = 8.125000000e+05 Hz, last width = 8.125000000e+05 Hz 2025-10-14 08:26:20 INFO MSTransformManager::regridSpwAux Calculate frequencies in output reference frame 2025-10-14 08:26:20 INFO MSTransformRegridder::calcChanFreqs Channels equidistant in freq 2025-10-14 08:26:20 INFO MSTransformRegridder::calcChanFreqs+ Central frequency (in output frame) = 2.30751e+11 Hz 2025-10-14 08:26:20 INFO MSTransformRegridder::calcChanFreqs+ Width of central channel (in output frame) = 2.4375e+06 Hz 2025-10-14 08:26:20 INFO MSTransformRegridder::calcChanFreqs+ Number of channels = 10 2025-10-14 08:26:20 INFO MSTransformRegridder::calcChanFreqs+ Total width of SPW (in output frame) = 2.4375e+07 Hz 2025-10-14 08:26:20 INFO MSTransformRegridder::calcChanFreqs+ Lower edge = 2.30739e+11 Hz, upper edge = 2.30763e+11 Hz 2025-10-14 08:26:20 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Ratio between input and output width is >=2: 3, but not doing pre-channel average (it is disabled by default since CASA release 5.0). 2025-10-14 08:26:20 INFO MSTransformManager::checkAndPreaverageChannelsIfNeeded Regridding to intermediate grid (128 channels) for interpolation as in tclean when the ratio between the output and input widths is >2. 2025-10-14 08:26:20 INFO MSTransformManager::regridSpwAux Output SPW: 10 channels, first channel = 2.307400688e+11 Hz, last channel = 2.307620063e+11 Hz, first width = 2.437500000e+06 Hz, last width = 2.437500000e+06 Hz 2025-10-14 08:26:20 INFO cvel2::::casa Task cvel2 complete. Start time: 2025-10-14 08:26:19.897341 End time: 2025-10-14 08:26:20.370439 2025-10-14 08:26:20 INFO cvel2::::casa ##### End Task: cvel2 ##### 2025-10-14 08:26:20 INFO cvel2::::casa ########################################## . ---------------------------------------------------------------------- Ran 60 tests in 94.893s OK Generating XML reports...