Build: #1 failed

Job: Test Tasks ARM Macos 14 Py3.10 failed

wproject.test wterm squint awp2: Test case result

The below summarizes the result of the test " wproject.test wterm squint awp2" in build 1 of CASASPECS - Dev Test 3.10 - CAS-14146 - Test Tasks ARM Macos 14 Py3.10. View test case history
Description
wproject.test wterm squint awp2
Test class
test_task_tclean
Method
test_wproject.test_wterm_squint_awp2
Duration
3 secs
Status
Failed (New Failure)

Error Log

RuntimeError: Error in making PSF : Not enough memory to hold all AW with squint correction convolution functions
test_task_tclean.py:3947: in test_wterm_squint_awp2
    tclean(vis=msname, imagename=self.img+'.awp2',  imsize=1200, cell='1.6arcsec',field='1',
../../../../casa6testenv/lib/python3.10/site-packages/casatasks/tclean.py:1871: in __call__
    task_result = _tclean_t( _pc.document['vis'], _pc.document['selectdata'], _pc.document['field'], _pc.document['spw'], _pc.document['timerange'], _pc.document['uvrange'], _pc.document['antenna'], _pc.document['scan'], _pc.document['observation'], _pc.document['intent'], _pc.document['datacolumn'], _pc.document['imagename'], _pc.document['imsize'], _pc.document['cell'], _pc.document['phasecenter'], _pc.document['stokes'], _pc.document['projection'], _pc.document['startmodel'], _pc.document['specmode'], _pc.document['reffreq'], _pc.document['nchan'], _pc.document['start'], _pc.document['width'], _pc.document['outframe'], _pc.document['veltype'], _pc.document['restfreq'], _pc.document['interpolation'], _pc.document['perchanweightdensity'], _pc.document['gridder'], _pc.document['facets'], _pc.document['psfphasecenter'], _pc.document['wprojplanes'], _pc.document['vptable'], _pc.document['mosweight'], _pc.document['aterm'], _pc.document['psterm'], _pc.document['wbawp'], _pc.document['conjbeams'], _pc.document['cfcache'], _pc.document['usepointing'], _pc.document['computepastep'], _pc.document['rotatepastep'], _pc.document['pointingoffsetsigdev'], _pc.document['pblimit'], _pc.document['normtype'], _pc.document['deconvolver'], _pc.document['scales'], _pc.document['nterms'], _pc.document['smallscalebias'], _pc.document['fusedthreshold'], _pc.document['largestscale'], _pc.document['restoration'], _pc.document['restoringbeam'], _pc.document['pbcor'], _pc.document['outlierfile'], _pc.document['weighting'], _pc.document['robust'], _pc.document['noise'], _pc.document['npixels'], _pc.document['uvtaper'], _pc.document['niter'], _pc.document['gain'], _pc.document['threshold'], _pc.document['nsigma'], _pc.document['cycleniter'], _pc.document['cyclefactor'], _pc.document['minpsffraction'], _pc.document['maxpsffraction'], _pc.document['interactive'], _pc.document['nmajor'], _pc.document['fullsummary'], _pc.document['usemask'], _pc.document['mask'], _pc.document['pbmask'], _pc.document['sidelobethreshold'], _pc.document['noisethreshold'], _pc.document['lownoisethreshold'], _pc.document['negativethreshold'], _pc.document['smoothfactor'], _pc.document['minbeamfrac'], _pc.document['cutthreshold'], _pc.document['growiterations'], _pc.document['dogrowprune'], _pc.document['minpercentchange'], _pc.document['verbose'], _pc.document['fastnoise'], _pc.document['restart'], _pc.document['savemodel'], _pc.document['calcres'], _pc.document['calcpsf'], _pc.document['psfcutoff'], _pc.document['parallel'] )
../../../../casa6testenv/lib/python3.10/site-packages/casatasks/private/task_tclean.py:478: in tclean
    imager.makePSF()
../../../../casa6testenv/lib/python3.10/site-packages/casatasks/private/imagerhelpers/imager_base.py:429: in makePSF
    self.makePSFCore()
../../../../casa6testenv/lib/python3.10/site-packages/casatasks/private/imagerhelpers/imager_base.py:638: in makePSFCore
    self.SItool.makepsf()
../../../../casa6testenv/lib/python3.10/site-packages/casatools/synthesisimager.py:62: in makepsf
    return self._swigobj.makepsf()
../../../../casa6testenv/lib/python3.10/site-packages/casatools/__casac__/synthesisimager.py:263: in makepsf
    return _synthesisimager.synthesisimager_makepsf(self)
E   RuntimeError: Error in making PSF : Not enough memory to hold all AW with squint correction convolution functions