import os, sys from AIPS import AIPS from AIPSTask import AIPSTask as task from AIPSData import AIPSUVData as UV from AIPSData import AIPSImage as IM import time import numpy as np # MISSING AMPCAL FOR EB AND Y #Ant 1 = BR BX= -226572.9744 BY= -1345828.7535 BZ= 1099750.4969 #Ant 2 = EB BX= -5540964.0099 BY= 3860560.8975 BZ= 1273367.8529 #Ant 3 = FD BX= 1214503.5199 BY= -254548.9301 BZ= -395100.7821 #Ant 4 = HN BX= -194967.8010 BY= 2289130.2024 BZ= 695243.0264 #Ant 5 = LA BX= 889141.2187 BY= -447723.6881 BZ= 82060.6694 #Ant 6 = NL BX= 422093.0763 BY= 803943.9258 BZ= 599787.8310 #Ant 7 = PT BX= 965324.1594 BY= -627489.4996 BZ= -51651.3871 #Ant 8 = SC BX= 597663.5708 BY= 3631749.6626 BZ= -1694323.4097 #Ant 9 = KP BX= 1056832.3699 BY= -970945.9424 BZ= -269735.1525 #Ant 10 = MK BX= -757068.7929 BY= -4869875.8125 BZ= -1478765.7449 #Ant 11 = OV BX= 589841.0971 BY= -1485798.7408 BZ= 211554.1675 #Ant 12 = Y BX= 984174.5660 BY= -583173.3215 BZ= -72187.5677 whattodo = {'load_data': True, # ->CL1 'msort': True, 'indxr': True, 'preflagging': True, 'ion_corr': True, # ->CL2 'eops_corr': True, # ->CL3 'par_ang_cor': True, # ->CL4 'accor' : True, # SN1, CL5 'fring_ampcal' : True, #->SN2, CL6 'bpass_ampcal': True, # BP 1 'acscl': True, # SN3, CL7 'mergecal': True, # HAS TO BE RUN MANUALLY #RUN MERGECAL 'apcal' : True, # SN4, CL8 # Note, antennas EB and Y have very low amps. # Based on other VLBA ants, and previous experience # with J1516, it seems EB and Y are off. # They are therefore excluded from imaging, and # receive corrections from selfcal below. # Then included again. 'image_ampcal_1': True, 'selfcal_ampcal' : True, # -> SN5, CL8 'image_ampcal_2': True, 'fring_phasecal' : True, #->SN6, CL9 'clip_pcal': True, #USE PREFLAGGING AS WELL TO CLEAN FG 'image_phasecal_1': True, 'selfcal_phasecal' : True, # -> SN7,8, CL10 'image_phasecal_2': True, # 'clip_target': True, #USE PREFLAGGING AS WELL TO CLEAN FG 'image_ARP220': True, 'selfcal_arp220': True, # ->SN9, CL11 'image_ARP220_final': True, 'image_ARP220_southwest': False, 'export_results': True, 'save_calsols': True, } ########## Initialize observation data ########## AIPS.userno = 1000 clint = 10.0/60 # Seconds NAME = 'BB335B_C' CLASS = 'UVDATA' DISK = 1 AMPCALIM = NAME + '_AC' PCALIM = NAME + '_PC' TCALIM = NAME + '_TC' OUTPREFIX = NAME target = 'ARP220' ampcal = 'J1516+1932' phasecal = 'J1532+2344' sorted_class = 'MSORT' logfile = 'log_'+OUTPREFIX+'_PTred.log' refant = 3 uvrange = [None, 7000,0] #########^^^ END OF CONFIG VARIABLES ^^^################ tic = time.time() ########## Initialize Log file ########## try: os.system('cp ' + logfile + ' ' + logfile + '.old') os.system('rm -f ' + logfile) except: pass AIPS.log = open(logfile, 'a') AIPS.log.write('whattodo = '+repr(whattodo)+'\n') ########## LOAD DATA ########## if whattodo['load_data']: fitld = task('fitld') fitld.default() outdata = UV(NAME, CLASS, DISK, 1) fitld.datain = '/data1/eskil/RAWDATA/BB335B/BB335B_C.FITS1' fitld.outdata = outdata fitld.ncount = 2 fitld.digicor = 1 fitld.clint = clint fitld.wtthresh = 0.7 fitld.doconcat = 1 fitld.douvcomp = -1 if outdata.exists(): print 'WARNING: Removing existing file ' + NAME + '.' + CLASS outdata.zap() print ' File removed. Proceeding with FITLD...' fitld.go() if whattodo['msort']: msort = task('msort') data = UV(NAME, CLASS, DISK, 1) outdata = UV(NAME, sorted_class, DISK, 1) msort.default() msort.indata = data msort.outdata = outdata msort.sort = 'TB' if outdata.exists(): print 'WARNING: Removing existing file ' + NAME + '.' + sorted_class outdata.zap() print ' File removed. Proceeding with FITLD...' msort.go() if data.exists(): print 'WARNING: Removing existing file ' + NAME + '.' + CLASS data.zap() print ' File removed. Proceeding with FITLD...' if whattodo['indxr']: indxr = task('indxr') indxr.default() data = UV(NAME, sorted_class, DISK, 1) indxr.indata = data indxr.cparm[3] = clint indxr.go() ########## PREFLAGGING ########## #Flag data known to be bad (whole antennas etc.) if whattodo['preflagging']: data = UV(NAME, sorted_class, DISK, 1) infgver = 1 outfgver = 2 # Remove all FG tables higher than infgver. for i in range(data.table_highver('FG'), infgver, -1): data.zap_table('FG', i) data = UV(NAME, sorted_class, DISK, 1) # Copy flag table 1 to flagtable 2 tacop = task('tacop') tacop.default() tacop.indata = data tacop.inext = 'FG' tacop.inver = infgver tacop.ncount = 1 tacop.outdata = data tacop.outvers = outfgver tacop.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 1,3] # Spikes in ACCOR sols uvflg.timeran = [None, 0, 14, 30, 0, 0, 14, 40, 0] uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' #uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 1, 3] uvflg.timeran = [None, 0, 0, 0, 0, 0, 14, 40, 0] uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 5] uvflg.timeran = [None, 0, 19, 37, 0, 0, 19, 43, 0] uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 7] uvflg.timeran = [None, 0, 0, 0, 0, 0, 14, 15, 0] uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 8] uvflg.timeran = [None, 0, 19, 12, 0, 0, 19, 42, 0] uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 9] uvflg.stokes = 'LL' uvflg.timeran = [None, 0, 19, 23, 0, 0, 29, 28, 0] uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 9] uvflg.timeran = [None, 0, 17, 50, 0, 0, 18, 0, 0] uvflg.outfgver = outfgver uvflg.sour = [None, ampcal] uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 11] uvflg.timeran = [None, 0, 0, 0, 0, 0, 15, 50, 0] uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 12] uvflg.timeran = [None, 0, 17, 0, 0, 0, 18, 30, 0] uvflg.outfgver = outfgver #Flag all sources, error is at least in both cals uvflg.opcode = 'FLAG' uvflg.go() # Flag edges uvflg = task('uvflg') uvflg.default() uvflg.indata = data #uvflg.antennas = [None, 2,3,4] uvflg.bchan = 1 uvflg.echan = 4 uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data #uvflg.antennas = [None, 2,3,4] uvflg.bchan = 60 uvflg.echan = 64 uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 2] uvflg.timeran = [None, 0, 17, 50, 0, 0, 18, 0, 0] uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 1] uvflg.timeran = [None, 0, 18, 29, 15, 0, 18, 29,45] uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data # Flag all antennas not only 7 #uvflg.antennas = [None, 7] uvflg.timeran = [None, 0, 17, 50, 0, 0, 17, 55, 0] uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 5] uvflg.timeran = [None, 0, 22, 10, 0, 0, 22, 13, 0] uvflg.bif = 4 uvflg.eif = 4 uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() # Flag edges uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 2] uvflg.bchan = 1 uvflg.echan = 6 uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 2] uvflg.bchan = 58 uvflg.echan = 64 uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() # qack for eb since fail in start of scans quack = task('quack') quack.default() quack.indata = data #quack.sour = [none, ampcal] quack.antenna = [None, 2] quack.opcode = 'BEG' quack.aparm[2] = 20.0/60 quack.go() # qack for eb since fail in start of scans quack = task('quack') quack.default() quack.indata = data quack.sour = [None, ampcal] quack.antenna = [None, 2] quack.opcode = 'BEG' quack.aparm[2] = 40.0/60 quack.timeran = [None, 0, 19, 40, 0, 0, 20, 0, 0] quack.go() # Flag based on pcal uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 3,5] uvflg.timeran = [None, 0, 18, 46, 0, 0, 18, 47, 30] uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 1,4] uvflg.timeran = [None, 0, 14, 52, 0, 0, 14, 52, 15] uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 1,6] uvflg.timeran = [None, 0, 15, 57, 0, 0, 15, 57, 20] uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 3,9] uvflg.timeran = [None, 0, 15, 39, 0, 0, 15, 40, 0] uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() uvflg = task('uvflg') uvflg.default() uvflg.indata = data uvflg.antennas = [None, 12] uvflg.baselin = [None, 4] uvflg.timeran = [None, 0, 15, 30, 0, 0, 15, 35, 0] uvflg.outfgver = outfgver uvflg.opcode = 'FLAG' uvflg.go() ########## IONOSPHERIC CORRECTIONS ########## # => CL2 if whattodo['ion_corr']: clinver = 1 cloutver = 2 data = UV(NAME, sorted_class, DISK, 1) # Remove all CL tables higher than cloutver-1. for i in range(data.table_highver('CL'), cloutver-1, -1): data.zap_table('CL', i) data = UV(NAME, sorted_class, DISK, 1) tecor = task('tecor') tecor.default() tecor.indata = data tecor.gainver = clinver tecor.gainuse = cloutver # Observation was 13-OCT-2014 and streched into the night # According to http://mistupid.com/calendar/dayofyear.htm # This means day of the year DDD=286,287 # Fetch and uncompress file for this day doy = str(286) year = str(2014) tecfile = 'jplg' + doy + '0.'+year[-2:]+'i' if not os.path.exists(tecfile): os.system('wget ftp://cddis.gsfc.nasa.gov/gps/products/ionex/'+year+'/'+doy+'/' + tecfile + '.Z') os.system('gunzip ' + tecfile+ '.Z') doy = str(287) year = str(2014) tecfile = 'jplg' + doy + '0.'+year[-2:]+'i' if not os.path.exists(tecfile): os.system('wget ftp://cddis.gsfc.nasa.gov/gps/products/ionex/'+year+'/'+doy+'/' + tecfile + '.Z') os.system('gunzip ' + tecfile+ '.Z') #Reset name to first file for input to tecor doy = str(286) year = str(2014) tecfile = 'jplg' + doy + '0.'+year[-2:]+'i' tecor.infile = 'PWD:' + tecfile tecor.nfiles = 2 tecor.go() ########## EARTH ORIENTATION PARAMETERS CORRECTION ########## # => CL3 if whattodo['eops_corr']: clinver = 2 cloutver = 3 data = UV(NAME, sorted_class, DISK, 1) # Remove all CL tables higher than cloutver-1. for i in range(data.table_highver('CL'), cloutver-1, -1): data.zap_table('CL', i) data = UV(NAME, sorted_class, DISK, 1) clcor = task('clcor') clcor.default() clcor.indata = data clcor.gainver = clinver clcor.gainuse = cloutver clcor.opcode = 'EOPS' clcor.clcorprm = [None, 1, 0] if not os.path.exists('./usno_finals.erp'): os.system('wget http://gemini.gsfc.nasa.gov/solve_save/usno_finals.erp') clcor.infile = 'PWD:usno_finals.erp' clcor.go() ########## PARALLACTIC ANGLE CORRECTION ########## # => CL4 if whattodo['par_ang_cor']: clinver = 3 cloutver = 4 data = UV(NAME, sorted_class, DISK, 1) # Remove all CL tables higher than cloutver-1. for i in range(data.table_highver('CL'), cloutver-1, -1): data.zap_table('CL', i) data = UV(NAME, sorted_class, DISK, 1) clcor = task('clcor') clcor.default() clcor.indata = data clcor.gainver = clinver clcor.gainuse = cloutver clcor.opcode = 'PANG' clcor.clcorprm = [None, 1, 0] if not os.path.exists('./usno_finals.erp'): os.system('wget http://gemini.gsfc.nasa.gov/solve_save/usno_finals.erp') clcor.infile = 'PWD:usno_finals.erp' clcor.go() ############# AMPLITUDE calibration ############## # => CL5 # => SN1(accor), if whattodo['accor']: # Define initial versionnumbers, increased further down clinver = 4 cloutver = 5 snoutver = 1 ## RUN ACCOR data = UV(NAME, sorted_class, DISK, 1) # Remove all SN tables higher than version snoutver-1. for i in range(data.table_highver('SN'), snoutver-1, -1): data.zap_table('SN', i) data = UV(NAME, sorted_class, DISK, 1) accor = task('accor') accor.indata = data accor.solint = 0 # Use default accor.go() # Now we have a new SN-table! data = UV(NAME, sorted_class, DISK, 1) # Remove all CL tables higher than version cloutver-1. for i in range(data.table_highver('CL'), cloutver-1, -1): data.zap_table('CL', i) data = UV(NAME, sorted_class, DISK, 1) # Make CL table clcal = task('clcal') clcal.indata = data clcal.snver = snoutver clcal.invers = snoutver clcal.gainver = clinver clcal.gainuse = cloutver clcal.refant = refant clcal.interpol = 'SELF' clcal.go() # FRING on AMPCAL if whattodo['fring_ampcal']: clinver = 5 cloutver = 6 snoutver = 2 data = UV(NAME, sorted_class, DISK, 1) # Remove all SN tables higher than version snoutver-1. for i in range(data.table_highver('SN'), snoutver-1, -1): data.zap_table('SN', i) data = UV(NAME, sorted_class, DISK, 1) fring=task('fring') fring.default() fring.indata = data fring.docalib = 1 fring.gainuse = clinver fring.calsour = [None, ampcal] fring.refant = refant fring.solint = 5 # Longer than scan fring.snver = snoutver fring.go() # Apply SN-table data = UV(NAME, sorted_class, DISK, 1) # Remove all CL tables higher than version cloutver-1. for i in range(data.table_highver('CL'), cloutver-1, -1): data.zap_table('CL', i) data = UV(NAME, sorted_class, DISK, 1) # Make CL table clcal = task('clcal') clcal.default() clcal.indata = data clcal.snver = snoutver clcal.invers = snoutver clcal.calsour = [None, ampcal] clcal.sour = [None, ''] # All sources clcal.gainver = clinver clcal.gainuse = cloutver clcal.refant = refant clcal.go() if whattodo['bpass_ampcal']: clinver = 6 bpoutver = 1 data = UV(NAME, sorted_class, DISK, 1) # Remove all BP tables higher than version bpoutver-1. for i in range(data.table_highver('BP'), bpoutver-1, -1): data.zap_table('BP', i) data = UV(NAME, sorted_class, DISK, 1) data = UV(NAME, sorted_class, DISK, 1) bpass = task('bpass') bpass.default() bpass.indata = data bpass.calsour = [None,ampcal] bpass.timeran = [None, 0] # Use all scans to get all ants bpass.gainuse = clinver bpass.docal = 1 bpass.refant = 1 bpass.solint = -1 # Whole timerange bpass.flagver = 0 bpass.outvers = bpoutver bpass.doband = -1 bpass.bpassprm[10]=6 # Normalize amps using power and all channels # according to VLBAS_37 bpass.go() if whattodo['acscl']: # Define initial versionnumbers clinver = 6 cloutver = 7 snoutver = 3 bpinver = 1 data = UV(NAME, sorted_class, DISK, 1) # Remove all SN tables higher than version snoutver-1. for i in range(data.table_highver('SN'), snoutver-1, -1): data.zap_table('SN', i) data = UV(NAME, sorted_class, DISK, 1) acscl = task('acscl') acscl.indata = data acscl.solint = 0 # Use default acscl.doband = 1 acscl.bpver = bpinver acscl.gainuse = clinver acscl.docal = 1 acscl.go() # Now we have a new SN-table! data = UV(NAME, sorted_class, DISK, 1) # Remove all CL tables higher than version cloutver-1. for i in range(data.table_highver('CL'), cloutver-1, -1): data.zap_table('CL', i) data = UV(NAME, sorted_class, DISK, 1) # Make CL table clcal = task('clcal') clcal.indata = data clcal.snver = snoutver clcal.invers = snoutver clcal.gainver = clinver clcal.gainuse = cloutver clcal.refant = refant clcal.interpol = 'SELF' clcal.go() ## MERGECAL IS REQUIRED TO OBTAIN GC AND TY versions 2 from versions 1, else APCAL may fail. if whattodo['mergecal']: ans = raw_input('Please run the procedure MERGECAL in AIPS before proceeding with apcal. Type Yes if you have run mergecal already.') if ans=='Yes': print 'Great!' else: print 'Mergecal needed! Exiting...' sys.exit() if whattodo['apcal']: ## RUN APCAL #redefine versions clinver = 7 cloutver = 8 snoutver = 4 data = UV(NAME, sorted_class, DISK, 1) # Remove all SN tables higher than version snoutver-1. for i in range(data.table_highver('SN'), snoutver-1, -1): data.zap_table('SN', i) apcal = task('apcal') apcal.indata = data apcal.tyver = 2 apcal.gcver = 2 apcal.snver = snoutver apcal.invers = 1 # WX table version apcal.solint = 2 # Same as accor apcal.go() # Now we have a new SN-table! data = UV(NAME, sorted_class, DISK, 1) # Remove all CL tables higher than version cloutver-1. for i in range(data.table_highver('CL'), cloutver-1, -1): data.zap_table('CL', i) # Make CL table clcal = task('clcal') clcal.indata = data clcal.snver = snoutver clcal.invers = snoutver clcal.gainver = clinver clcal.gainuse = cloutver clcal.refant = refant clcal.interpol = 'SELF' clcal.go() if whattodo['image_ampcal_1']: clinver = 8 imagename = AMPCALIM + '1' imagedisk = 1 imageseq = 1 data = UV(NAME, sorted_class, DISK, 1) imagr = task('imagr') imagr.default() imagr.indata = data imagr.sources = [None, ampcal] imagr.gainuse = clinver imagr.flagver = 0 imagr.nchav = 512 imagr.stokes = 'I' imagr.cellsize = [None, 0.1e-3, 0.1e-3] imagr.imsize = [None, 512,512] imagr.docalib = 1 imagr.dotv = -1 imagr.outname = imagename imagr.outdisk = imagedisk imagr.outseq = imageseq imagr.niter = 300 imagr.doband = 1 imagr.bpver = 1 imagr.uvrange = uvrange imagr.antenna = [None, -2, -12] imagr.clbox = [None, [None, 239, 224, 273, 290], [None, 250, 294, 283, 335]] imagr.nbox = 2 if imagr.niter == 0: imageclass = 'IIM001' else: imageclass = 'ICL001' # Remove previous old image image = IM(imagename, imageclass, imagedisk, imageseq) if image.exists(): image.zap() # Also remove old beam image image = IM(imagename, 'IBM001', imagedisk, imageseq) if image.exists(): image.zap() imagr.robust = 0.5 imagr.go() if whattodo['selfcal_ampcal']: clinver = 8 cloutver = 9 snoutver = 5 data = UV(NAME, sorted_class, DISK, 1) # Remove all SN tables higher than version snoutver-1. for i in range(data.table_highver('SN'), snoutver-1, -1): data.zap_table('SN', i) data = UV(NAME, sorted_class, DISK, 1) calib = task('calib') calib.default() calib.indata = data calib.in2data = IM(AMPCALIM + '1', 'ICL001', 1, 1) calib.calsour = [None, ampcal] calib.refant = refant calib.docalib = 1 calib.gainuse = clinver calib.flagver = 0 calib.snver = snoutver calib.solmode = 'A&P' calib.solint = 5 # calib.aparm[7] = 5 # SNR #calib.cmethod = 'DFT' calib.aparm[6] = 1 # Print level calib.aparm[9] = 1 # Pass on failed sols, for scans without these ants calib.aparm[1] = 4 # Min no antennas, needed in parts of exp calib.dofit = [None, 2,12] # Fit calib.doband = 1 calib.bpver = 1 calib.go() # Apply SN-table data = UV(NAME, sorted_class, DISK, 1) # Remove all CL tables higher than version cloutver-1. for i in range(data.table_highver('CL'), cloutver-1, -1): data.zap_table('CL', i) data = UV(NAME, sorted_class, DISK, 1) # Make CL table clcal = task('clcal') clcal.default() clcal.indata = data clcal.snver = snoutver clcal.invers = snoutver clcal.calsour = [None, ampcal] # Use sols from Ampcal clcal.sour = [None, ''] # Apply to all sources clcal.gainver = clinver clcal.gainuse = cloutver clcal.refant = refant clcal.go() if whattodo['image_ampcal_2']: clinver = 9 imagename = AMPCALIM+'2' imagedisk = 1 imageseq = 1 data = UV(NAME, sorted_class, DISK, 1) imagr = task('imagr') imagr.default() imagr.indata = data imagr.sources = [None, ampcal] imagr.gainuse = clinver imagr.flagver = 0 imagr.nchav = 512 imagr.stokes = 'I' imagr.cellsize = [None, 0.1e-3, 0.1e-3] imagr.imsize = [None, 512,512] imagr.docalib = 1 imagr.dotv = -1 imagr.doband = 1 imagr.bpver = 1 imagr.outname = imagename imagr.outdisk = imagedisk imagr.outseq = imageseq imagr.niter = 300 imagr.uvrange = uvrange if imagr.niter == 0: imageclass = 'IIM001' else: imageclass = 'ICL001' # Remove previous old image image = IM(imagename, imageclass, imagedisk, imageseq) if image.exists(): image.zap() # Also remove old beam image image = IM(imagename, 'IBM001', imagedisk, imageseq) if image.exists(): image.zap() imagr.robust = 0.5 imagr.go() # FRING on PHASECAL if whattodo['fring_phasecal']: clinver = 9 # With ampcal corrections cloutver = 10 snoutver = 6 data = UV(NAME, sorted_class, DISK, 1) # Remove all SN tables higher than version snoutver-1. for i in range(data.table_highver('SN'), snoutver-1, -1): data.zap_table('SN', i) data = UV(NAME, sorted_class, DISK, 1) fring=task('fring') fring.default() fring.indata = data fring.docalib = 1 fring.gainuse = clinver fring.calsour = [None, phasecal] fring.refant = refant fring.solint = 3 # Longer than scan fring.dparm[2] = 50#ns, delay win, already fitted bulk on ampcal fring.dparm[3] = 15#mHz, rate win #fring.aparm[3] = 1 # AVG RR,LL #fring.aparm[4] = 1 # AVG freqs in IFs #fring.aparm[5] = 1 # AVG IFs fring.snver = snoutver fring.doband = 1 fring.bpver = 1 fring.go() # Apply SN-table data = UV(NAME, sorted_class, DISK, 1) # Remove all CL tables higher than version cloutver-1. for i in range(data.table_highver('CL'), cloutver-1, -1): print "WARNING: Deleting CL" + str(i) data.zap_table('CL', i) data = UV(NAME, sorted_class, DISK, 1) # Make CL table clcal = task('clcal') clcal.default() clcal.indata = data clcal.snver = snoutver clcal.invers = snoutver clcal.calsour = [None, phasecal] clcal.sour = [None, phasecal, target] clcal.gainver = clinver clcal.gainuse = cloutver clcal.refant = refant clcal.go() if whattodo['clip_pcal']: outfgver = 2 clinver = 9 data = UV(NAME, sorted_class, DISK, 1) clip = task('clip') clip.default() #clip.sour = [None, phasecal, target] clip.sour = [None, phasecal] clip.aparm[6] = 1e-3 # Flag very sensitive baselines clip.docal = 1 clip.gainuse = clinver clip.stokes = 'I' clip.flagver = outfgver clip.doband = 1 clip.bpver = 1 clip.indata = data clip.outfgver = outfgver clip.go() if whattodo['image_phasecal_1']: clinver = 10 imagename = PCALIM + '1' imagedisk = 1 imageseq = 1 data = UV(NAME, sorted_class, DISK, 1) imagr = task('imagr') imagr.default() imagr.indata = data imagr.sources = [None, phasecal] imagr.gainuse = clinver imagr.flagver = 0 imagr.nchav = 512 imagr.stokes = 'I' imagr.cellsize = [None, 0.1e-3, 0.1e-3] imagr.imsize = [None, 512,512] imagr.docalib = 1 imagr.dotv = -1 imagr.doband = 1 imagr.bpver = 1 imagr.outname = imagename imagr.outdisk = imagedisk imagr.outseq = imageseq imagr.niter = 300 imagr.uvrang = uvrange if imagr.niter == 0: imageclass = 'IIM001' else: imageclass = 'ICL001' # Remove previous old image image = IM(imagename, imageclass, imagedisk, imageseq) if image.exists(): image.zap() # Also remove old beam image image = IM(imagename, 'IBM001', imagedisk, imageseq) if image.exists(): image.zap() imagr.robust = 0.5 imagr.go() if whattodo['selfcal_phasecal']: clinver = 10 cloutver = 11 snoutver = 7 # and 8 data = UV(NAME, sorted_class, DISK, 1) # Remove all SN tables higher than version snoutver-1. for i in range(data.table_highver('SN'), snoutver-1, -1): print "WARNING: Deleting SN" + str(i) data.zap_table('SN', i) data = UV(NAME, sorted_class, DISK, 1) calib = task('calib') calib.default() calib.indata = data calib.in2data = IM(PCALIM + '1', 'ICL001', 1, 1) calib.calsour = [None, phasecal] calib.refant = refant calib.docalib = 1 calib.gainuse = clinver calib.flagver = 0 calib.snver = snoutver calib.solmode = 'A&P' calib.solint = 3 # Longer than scan calib.aparm[7] = 5 # SNR #calib.aparm[3] = 1 # AVG RR,LL, calib.aparm[6] = 1 # Print level #calib.aparm[5] = 1 # AVG ifs calib.weightit = 1 calib.soltype = 'L1R' calib.doband = 1 calib.bpver = 1 # We need to set min 4 antennas, else # the first hour is flagged. # This is OK, and solutions are nice. calib.aparm[1] = 4 # min no antennas calib.go() snsmo = task('snsmo') snsmo.indata = data snsmo.inver = snoutver snsmo.outver = snoutver+1 snsmo.smotype = 'AMPL' snsmo.bparm[1] = 1.0/3600 # Smoothing in time in seconds to ensure no smoothing # DO NOT SMOOTH; INSTEAD CLIP WITH MWF snsmo.cparm[1] = 60.0/60 #in hours snsmo.cparm[6] = 0.1 # Max amp deviation snsmo.doblank = -1 # Since cannot be used with AMPL snsmo.go() # Apply SN-table data = UV(NAME, sorted_class, DISK, 1) # Remove all CL tables higher than version cloutver-1. for i in range(data.table_highver('CL'), cloutver-1, -1): print "WARNING: Deleting CL" + str(i) data.zap_table('CL', i) data = UV(NAME, sorted_class, DISK, 1) # Make CL table clcal = task('clcal') clcal.default() clcal.indata = data clcal.snver = snoutver+1 clcal.invers = snoutver+1 clcal.calsour = [None, phasecal] clcal.sour = [None, phasecal, target] # Apply to all sources clcal.gainver = clinver clcal.gainuse = cloutver clcal.refant = refant clcal.go() if whattodo['image_phasecal_2']: clinver = 11 imagename = PCALIM + '2' imagedisk = 1 imageseq = 1 data = UV(NAME, sorted_class, DISK, 1) imagr = task('imagr') imagr.default() imagr.indata = data imagr.sources = [None, phasecal] imagr.gainuse = clinver imagr.flagver = 0 imagr.nchav = 512 imagr.stokes = 'I' imagr.cellsize = [None, 0.1e-3, 0.1e-3] imagr.imsize = [None, 512, 512] imagr.docalib = 1 imagr.dotv = -1 imagr.doband = 1 imagr.bpver = 1 imagr.outname = imagename imagr.outdisk = imagedisk imagr.outseq = imageseq imagr.niter = 300 imagr.uvran = uvrange if imagr.niter == 0: imageclass = 'IIM001' else: imageclass = 'ICL001' # Remove previous old image image = IM(imagename, imageclass, imagedisk, imageseq) if image.exists(): image.zap() # Also remove old beam image image = IM(imagename, 'IBM001', imagedisk, imageseq) if image.exists(): image.zap() imagr.robust = 0.5 imagr.go() if whattodo['clip_target']: outfgver = 2 clinver = 11 data = UV(NAME, sorted_class, DISK, 1) clip = task('clip') clip.default() clip.sour = [None, target] clip.aparm[6] = 1e-3 # Flag very sensitive baselines clip.docal = 1 clip.gainuse = clinver clip.stokes = 'I' clip.flagver = outfgver clip.doband = 1 clip.bpver = 1 clip.indata = data clip.outfgver = outfgver clip.go() ############### IMAGE ARP220 ###################### # Load these outside if to be available also for export later arpfilename = TCALIM arpfiledisk = 1 arpfileseq = 1 arpfileclass = 'ICL001' arpfileclass2 = 'ICL002' if whattodo['image_ARP220']: clinver = 11 # FIRST CLEAN WITH SMALL BOXES # Remove previous old images image = IM(arpfilename, arpfileclass, arpfiledisk, arpfileseq) if image.exists(): image.zap() image = IM(arpfilename, arpfileclass2, arpfiledisk, arpfileseq) if image.exists(): image.zap() # Also remove old beam images image = IM(arpfilename, 'IBM001', arpfiledisk, arpfileseq) if image.exists(): image.zap() image = IM(arpfilename, 'IBM002', arpfiledisk, arpfileseq) if image.exists(): image.zap() # Clean with latest gainuse data = UV(NAME, sorted_class, DISK, 1) imagr = task('imagr') imagr.default() imagr.indata = data imagr.sources = [None, target] imagr.im2parm = [None, 1, 5.0, 10.0, 0] # Require island to have SNR 5 and peak SNR10. To clean (for later removal) of the strongest sources imagr.gainuse = clinver imagr.flagver = 0 imagr.nchav = 512 imagr.doband = 1 imagr.bpver = 1 imagr.imsize = [None, 4096,2048] imagr.cellsize = [None, 0.2e-3, 0.2e-3] imagr.stokes = 'I' imagr.nfield = 2 imagr.overlap = 1 imagr.do3dimag = 1 imagr.rashift = [None, 0.6, -0.35] imagr.decshift = [None, 0.02, 0.18] imagr.docalib = 1 imagr.dotv = -1 imagr.outname = arpfilename imagr.outdisk = arpfiledisk imagr.outseq = arpfileseq imagr.niter = 500 imagr.gain = 0.1 imagr.uvrange = uvrange # remove large-scale disturbances imagr.robust = 0.5 imagr.go() # CLEAN WITH LARGE (NO) BOXES arpboxfile = '' data = UV(NAME, sorted_class, DISK, 1) imagr = task('imagr') imagr.default() imagr.indata = data imagr.sources = [None, target] imagr.gainuse = clinver imagr.flagver = 0 imagr.nchav = 512 imagr.doband = 1 imagr.bpver = 1 imagr.imsize = [None, 4096,2048] imagr.cellsize = [None, 0.2e-3, 0.2e-3] imagr.stokes = 'I' imagr.nfield = 2 imagr.overlap = 1 imagr.do3dimag = 1 imagr.rashift = [None, 0.6, -0.35] imagr.decshift = [None, 0.02, 0.18] imagr.docalib = 1 imagr.dotv = -1 imagr.outname = arpfilename imagr.outdisk = arpfiledisk imagr.outseq = arpfileseq imagr.outver = 1 imagr.niter = 2000 imagr.gain = 0.1 imagr.bcomp = [None, 100000, 100000] imagr.uvrange = uvrange # remove large-scale disturbances imagr.robust = 0.5 imagr.go() if whattodo['selfcal_arp220']: clinver = 11 cloutver = 12 snoutver = 9 data = UV(NAME, sorted_class, DISK, 1) # Remove all SN tables higher than version snoutver-1. for i in range(data.table_highver('SN'), snoutver-1, -1): print "WARNING: Deleting SN" + str(i) data.zap_table('SN', i) data = UV(NAME, sorted_class, DISK, 1) calib = task('calib') calib.default() calib.indata = data # Do not use any model, just a point works fine for phasecal calib.in2data = IM(TCALIM, 'ICL001', 1, 1) calib.calsour = [None, target] calib.nmaps = 2 calib.refant = refant calib.docalib = 1 calib.gainuse = clinver calib.flagver = 0 calib.snver = snoutver calib.solmode = 'P' calib.solint = 10 # Longer than scan calib.aparm[1] = 3 # min No. of antennas to include first 45 min. calib.aparm[7] = 2 # SNR calib.aparm[3] = 1 # AVG RR,LL, calib.aparm[6] = 1 # Print level calib.aparm[5] = 1 # AVG ifs, MAYBE NOT NEEDED NOW WITH WIDE BAND? # Can do without, but not much difference in the sols. Better use this # anyway to gain sensitivity at the high noise beginning. calib.cmethod = 'DFT' calib.weightit = 1 calib.soltype = 'L1R' calib.doband = 1 calib.bpver = 1 calib.uvrange = uvrange calib.go() # Apply SN-table data = UV(NAME, sorted_class, DISK, 1) # Remove all CL tables higher than version cloutver-1. for i in range(data.table_highver('CL'), cloutver-1, -1): print "WARNING: Deleting CL" + str(i) data.zap_table('CL', i) data = UV(NAME, sorted_class, DISK, 1) # Make CL table clcal = task('clcal') clcal.default() clcal.indata = data clcal.snver = snoutver clcal.invers = snoutver clcal.calsour = [None, target] clcal.sour = [None, target] # Apply to target clcal.gainver = clinver clcal.gainuse = cloutver clcal.refant = refant clcal.go() ############### IMAGE ARP220 ###################### # Load these outside if to be available also for export later arpfilename = OUTPREFIX + '_FIN' arpfiledisk = 1 arpfileseq = 1 arpfileclass = 'ICL001' arpfileclass2 = 'ICL002' if whattodo['image_ARP220_final']: clinver = 12 # FIRST CLEAN WITH SMALL BOXES # Remove previous old images image = IM(arpfilename, arpfileclass, arpfiledisk, arpfileseq) if image.exists(): image.zap() image = IM(arpfilename, arpfileclass2, arpfiledisk, arpfileseq) if image.exists(): image.zap() # Also remove old beam images image = IM(arpfilename, 'IBM001', arpfiledisk, arpfileseq) if image.exists(): image.zap() image = IM(arpfilename, 'IBM002', arpfiledisk, arpfileseq) if image.exists(): image.zap() # Clean with latest gainuse data = UV(NAME, sorted_class, DISK, 1) imagr = task('imagr') imagr.default() imagr.indata = data imagr.sources = [None, target] imagr.im2parm = [None, 1, 5.0, 10.0, 0] # Require island to have SNR 5 and peak SNR10. To clean (for later removal) of the strongest sources imagr.gainuse = clinver imagr.flagver = 0 imagr.nchav = 512 imagr.doband = 1 imagr.bpver = 1 imagr.imsize = [None, 8192, 8192] imagr.cellsize = [None, 0.1e-3, 0.1e-3] imagr.stokes = 'I' imagr.nfield = 2 imagr.overlap = 1 imagr.do3dimag = 1 imagr.rashift = [None, 0.6, -0.35] imagr.decshift = [None, 0.02, 0.18] imagr.docalib = 1 imagr.dotv = -1 imagr.outname = arpfilename imagr.outdisk = arpfiledisk imagr.outseq = arpfileseq imagr.niter = 500 imagr.gain = 0.1 imagr.uvrange = uvrange # remove large-scale disturbances imagr.robust = 0.5 imagr.go() # CLEAN WITH LARGE (NO) BOXES arpboxfile = '' data = UV(NAME, sorted_class, DISK, 1) imagr = task('imagr') imagr.default() imagr.indata = data imagr.sources = [None, target] imagr.gainuse = clinver imagr.flagver = 0 imagr.nchav = 512 imagr.doband = 1 imagr.bpver = 1 imagr.imsize = [None, 8192, 8192] imagr.cellsize = [None, 0.1e-3, 0.1e-3] imagr.stokes = 'I' imagr.nfield = 2 imagr.overlap = 1 imagr.do3dimag = 1 imagr.rashift = [None, 0.6, -0.35] imagr.decshift = [None, 0.02, 0.18] imagr.docalib = 1 imagr.dotv = -1 imagr.outname = arpfilename imagr.outdisk = arpfiledisk imagr.outseq = arpfileseq imagr.outver = 1 imagr.niter = 3000 imagr.gain = 0.1 imagr.bcomp = [None, 100000, 100000] imagr.uvrange = uvrange # remove large-scale disturbances imagr.robust = 0.5 imagr.go() ############### IMAGE ARP220 ###################### # Load these outside if to be available also for export later arpfilename = OUTPREFIX + '_SW' arpfiledisk = 1 arpfileseq = 1 arpfileclass = 'ICL001' if whattodo['image_ARP220_southwest']: clinver = 12 # FIRST CLEAN WITH SMALL BOXES # Remove previous old images image = IM(arpfilename, arpfileclass, arpfiledisk, arpfileseq) if image.exists(): image.zap() # Also remove old beam images image = IM(arpfilename, 'IBM001', arpfiledisk, arpfileseq) if image.exists(): image.zap() data = UV(NAME, sorted_class, DISK, 1) imagr = task('imagr') imagr.default() imagr.indata = data imagr.sources = [None, target] imagr.gainuse = clinver imagr.flagver = 0 imagr.nchav = 512 imagr.doband = 1 imagr.bpver = 1 # Big map just to check imagr.imsize = [None, 8192, 8192] imagr.cellsize = [None, 0.2e-3, 0.2e-3] imagr.stokes = 'I' imagr.nfield = 1 imagr.overlap = 1 imagr.do3dimag = 1 # Arp220 in this file has coords 15:34:57.2500 23:30:11.330 # The southwest comp is around #15:34:57.21 23:30:11.21 # So, rashift would be rashift_arcsec = (57.21-57.25)*(1.0/3600)*(360.0/24)*(3600.0) * np.cos((np.pi/180)*(23+30.0/60+11.33/3600)) decshift_arcsec = 11.21-11.33 imagr.rashift = [None, float(rashift_arcsec)] imagr.decshift = [None, decshift_arcsec] imagr.docalib = 1 imagr.dotv = -1 imagr.outname = arpfilename imagr.outdisk = arpfiledisk imagr.outseq = arpfileseq imagr.outver = 1 imagr.niter = 1 imagr.gain = 0.1 imagr.uvrange = uvrange # remove large-scale disturbances imagr.robust = 0.5 imagr.go() ############### EXPORT RESULTS ###################### if whattodo['export_results']: # Export EAST fittp = task('fittp') fittp.default() #fittp.indata = IM(NAME+'_TC','ICL001', 1, 1) fittp.indata = IM(NAME+'_FIN','ICL001', 1, 1) fittp.dataout = 'PWD:'+OUTPREFIX+'_EAST_IMAGE.FITS' if os.path.exists(fittp.dataout[4:]): os.system('rm ' + fittp.dataout[4:]) fittp.go() fittp = task('fittp') fittp.default() fittp.indata = IM(NAME+'_FIN','IBM001', 1, 1) fittp.dataout = 'PWD:'+OUTPREFIX+'_EAST_BEAM.FITS' if os.path.exists(fittp.dataout[4:]): os.system('rm ' + fittp.dataout[4:]) fittp.go() # Export WEST fittp = task('fittp') fittp.default() #fittp.indata = IM(NAME+'_TC','ICL002', 1, 1) fittp.indata = IM(NAME+'_FIN','ICL002', 1, 1) fittp.dataout = 'PWD:'+OUTPREFIX+'_WEST_IMAGE.FITS' if os.path.exists(fittp.dataout[4:]): os.system('rm ' + fittp.dataout[4:]) fittp.go() fittp = task('fittp') fittp.default() fittp.indata = IM(NAME+'_FIN','IBM002', 1, 1) fittp.dataout = 'PWD:'+OUTPREFIX+'_WEST_BEAM.FITS' if os.path.exists(fittp.dataout[4:]): os.system('rm ' + fittp.dataout[4:]) fittp.go() # Export SouthWest-test #fittp = task('fittp') #fittp.default() #fittp.indata = IM(NAME+'_SW','ICL001', 1, 1) #fittp.dataout = 'PWD:'+OUTPREFIX+'_SOUTHWEST.FITS' #if os.path.exists(fittp.dataout[4:]): # os.system('rm ' + fittp.dataout[4:]) #fittp.go() # Export ACAL im = IM(NAME+'_AC2', 'ICL001', 1, 1) fittp = task('fittp') fittp.default() fittp.indata = im fittp.dataout = 'PWD:'+NAME+'_J1516+1932_IMAGE.FITS' if os.path.exists(fittp.dataout[4:]): os.system('rm ' + fittp.dataout[4:]) fittp.go() # Export PCAL im = IM(NAME+'_PC2', 'ICL001', 1, 1) fittp = task('fittp') fittp.default() fittp.indata = im fittp.dataout = 'PWD:'+NAME+'_J1532+2344_IMAGE.FITS' if os.path.exists(fittp.dataout[4:]): os.system('rm ' + fittp.dataout[4:]) fittp.go() if whattodo['save_calsols']: snver = 9 # Remove all PL tables data = UV(NAME, sorted_class, DISK, 1) data.zap_table('PL', -1) snplt = task('snplt') snplt.indata = data snplt.bif = 1 snplt.eif = 1 snplt.stokes = 'RR' snplt.optype = 'PHAS' snplt.sour = [None, target] snplt.inext = 'SN' snplt.inver = snver snplt.nplots = 6 #snplt.pixrange = [None -180,180] snplt.dotv = -1 snplt.go() outname = NAME+'_ARP220_SELFCAL_SOLS.EPS' if os.path.exists(outname): os.system('rm ' + outname) lwpla = task('lwpla') lwpla.indata = data lwpla.plver = 1 lwpla.inver = 99 lwpla.outfile = 'PWD:'+outname #lwpla.docolor = 1 lwpla.go() tac = time.time() processtime = tac-tic print 'OVERALL PROCESS TIME: ',processtime,' SECONDS. or ', processtime/60.0, 'minutes'