AIPS version = /home/auto/aips/31DEC06/LINUX/SYSTEM/VLA_PIPE/aips Prep version = Aug 10 14:21 /home/auto/bin/AVLAPREP.001 Pipe version = Aug 10 14:21 /home/auto/bin/AVLAPIPE.001 Post version = Sep 7 11:26 /home/auto/bin/AVLAPOST.001 ------------- START_AIPS: Your initial AIPS printer is the GNU Ghostview X-windows previewer START_AIPS: - system name gv, AIPS type PREVIEW START_AIPS: User data area assignments: (Using private file /users/vlbacald/.dadevs for DADEVS.PL) Disk 1 (1) is /home/auto/aips/DATA/AUTO_1 Tape assignments: Tape 1 is REMOTE Tape 2 is REMOTE START_AIPS: Starting TPMON daemons on AUTO asynchronously... Starting up 31DEC06 AIPS with normal priority AIPS 1: You are NOT assigned a TV device or server AIPS 1: You are NOT assigned a graphics device or server AIPS 1: Enter user ID number ?AIPS 1: 31DEC06 AIPS: AIPS 1: Copyright (C) 1995-2006 Associated Universities, Inc. AIPS 1: AIPS comes with ABSOLUTELY NO WARRANTY; AIPS 1: for details, type HELP GNUGPL AIPS 1: This is free software, and you are welcome to redistribute it AIPS 1: under certain conditions; type EXPLAIN GNUGPL for details. AIPS 1: Previous session command-line history *not* recovered. AIPS 1: TAB-key completions enabled, type HELP READLINE for details. AIPS 1: Recovered POPS environment from last exit >>>AIPS 1: Found in Version=ABIN AIPS 1: $ Lorant Sjouwerman, versions 1.. 2005, for NRAO AIPS 1: AIPS 1: $$ General naming utilities - default to data disk 1 (safest of all) AIPS 1: procedure pipedef1 AIPS 1: string*12 pnam AIPS 1: string*6 pcls AIPS 1: scalar pseq,pdsk AIPS 1: pdsk=1 AIPS 1: finish AIPS 1: pipedef1 AIPS 1: procedure namepipe AIPS 1: pnam=inname;pcls=inclass;pseq=inseq;indisk=pdsk AIPS 1: finish AIPS 1: procedure pipename AIPS 1: inname=pnam;inclass=pcls;inseq=pseq;indisk=pdsk AIPS 1: finish AIPS 1: AIPS 1: procedure checkcat AIPS 1: $LOS - count and make sure catalog starts at one (and not more t han 10 files) AIPS 1: scalar numcat AIPS 1: clrname;indisk=pdsk;chkname;numcat=1-error AIPS 1: $ for later: find out how to deal with CH0/LINE data in MOVE AIPS 1: if(numcat>0)then;recat;end;clrtemp AIPS 1: return numcat AIPS 1: finish AIPS 1: AIPS 1: procedure gx AIPS 1: $ inputs AIPS 1: go;wait AIPS 1: finish AIPS 1: AIPS 1: procedure pre_fillm AIPS 1: $LOS - sets VLA archive defaults for fillm AIPS 1: default fillm;outdisk=pdsk;doall=1;douvcomp=-1;cparm(8)=0.05;b parm(10)=0.75 AIPS 1: finish AIPS 1: AIPS 1: procedure fname AIPS 1: return inname!!'.'!!inclass!!'.'!!char(inseq) AIPS 1: finish AIPS 1: AIPS 1: procedure del AIPS 1: error=1;zap AIPS 1: finish AIPS 1: AIPS 1: procedure skipdata AIPS 1: $LOS - delete unwanted data sets - currently all but continuum X and C bands AIPS 1: $ if(inclass='LINE')then;del;inclass'CH 0';del;type'ZAP LINE :' fname;end AIPS 1: if((inclass='CH 0')!(inclass='LINE'))then;del;type'ZAP LINE :' fname;end AIPS 1: if(inclass='4 BAND')then;del;type'ZAP 4-BAND :'fname;end AIPS 1: if(inclass='P BAND')then;del;type'ZAP P-BAND :'fname;end AIPS 1: if(inclass='L BAND')then;del;type'ZAP L-BAND :'fname;end AIPS 1: if(inclass='U BAND')then;del;type'ZAP U-BAND :'fname;end AIPS 1: if(inclass='K BAND')then;del;type'ZAP K-BAND :'fname;end AIPS 1: if(inclass='Q BAND')then;del;type'ZAP Q-BAND :'fname;end;clrte mp AIPS 1: if(error<1)then $ file not zapped, check for single dish vlbi; #vis=0 AIPS 1: task'TABGET';userid 0;inext'NX';invers=0;keyvalue=0;keystrng '' AIPS 1: keyword'NUM ROW';getthead;pixxy=keyvalue(1),6,0;tabget;clrte mp AIPS 1: if(keyvalue(1)=0)then;del;type'ZAP S-DISH :'fname;end AIPS 1: end AIPS 1: $also zap if solar/planetary/pulsar mode - su table proper motio n?? AIPS 1: $ and what about PT-link? antenna VPT is not OUT, later also EV LA names AIPS 1: finish AIPS 1: AIPS 1: procedure checkids AIPS 1: $LOS - account for fast switching source names - check on pos, q ual, calco AIPS 1: scalar ra1a,ra1b,ra2a,ra2b,dc1a,dc1b,dc2a,dc2b,n,m,l,idx AIPS 1: scalar q1,q2 AIPS 1: string*1 co1,co2 AIPS 1: string*16 n1,n2 AIPS 1: array alist(100),blist(100) AIPS 1: inext'SU';invers 0;keyword'NUM ROW';keyvalue 0;keystrng'';gett head AIPS 1: n=keyvalue(1);idx=1;aparm 0;bparm 0;alist 0;blist 0 AIPS 1: if (n > 1) then AIPS 1: for m=1:(n-1);clrtemp AIPS 1: pixxy m,11;tabget;ra1a keyvalue(1);ra1b keyvalue(2) AIPS 1: for l=(m+1):n;clrtemp AIPS 1: pixxy l,11;tabget;ra2a keyvalue(1);ra2b keyvalue(2) AIPS 1: if (abs(ra1a-ra2a)=0) then AIPS 1: if ( abs((ra1b-ra2b)*3600*1000) < 3 ) then $ RA within 3 mas! AIPS 1: pixxy m,12;tabget;dc1a keyvalue(1);dc1b keyvalue(2) AIPS 1: pixxy l,12;tabget;dc2a keyvalue(1);dc2b keyvalue(2) AIPS 1: if (abs(dc1a-dc2a)=0) then AIPS 1: if ( abs((dc1b-dc2b)*3600*1000) < 3 ) then $ DC wi thin 3 mas! AIPS 1: pixxy m,3;tabget;q1 keyvalue(1);pixxy l,3;tabget ;q2 keyvalue(1) AIPS 1: if (q1=q2) then $ same qualifier; same calcode? AIPS 1: pixxy m,4;tabget;co1 keystrng;pixxy l,4;tabget ;co2 keystrng AIPS 1: if (co1=co2) then AIPS 1: pixxy m,1;tabget;q1 keyvalue(1) AIPS 1: pixxy l,1;tabget;q2 keyvalue(1) AIPS 1: pixxy m,2;tabget;n1 keystrng;pixxy l,2;tabge t;n2 keystrng AIPS 1: if (idx>100) then; AIPS 1: type 'TOO MANY SOURCES TO DO DSORC - DO BY HAND!' AIPS 1: type 'NEXT =.'!!char(idx)!!' DO:'!!char(l)! !'.&.'!!char(m) AIPS 1: else AIPS 1: if (length(n1)1) then;task'DSORC';n=0 AIPS 1: outname inname;outclass inclass;outseq inseq;outdisk indis k AIPS 1: while (n100)then;type'TOO MANY SOURCES FOR DSORC';error 1;end ;clrtemp AIPS 1: end AIPS 1: finish AIPS 1: AIPS 1: procedure checkcal AIPS 1: $LOS Currently (Sep 22, 2005) can/will do 3C286 and 3C48 at X and C AIPS 1: $LOS (and for now skip 3C286/3C48/3C138/3C147 Q,K,U and 3C48 L ) AIPS 1: scalar idx,jdx AIPS 1: string*16 sname AIPS 1: task'TABGET';userid 0;inext'SU';invers=0;keyvalue=0;keystrng'' ;error=1 AIPS 1: keyword'NUM ROW';getthead;idx=keyvalue(1);clrtemp AIPS 1: for jdx=1:idx AIPS 1: pixxy=jdx,2,0;tabget;sname=substr(keystrng,1,length(keystrng )) AIPS 1: if(sname='3C286')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='3C48')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='3C138')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='3C147')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='3C295')then;error=-1;jdx=idx+1;end AIPS 1: if(error>0)then $ try B1950 name AIPS 1: if(sname='1328+307')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='0134+329')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='0518+165')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='0538+498')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='1409+524')then;error=-1;jdx=idx+1;end AIPS 1: if(error>0)then $ try J2000 AIPS 1: if(sname='1331+305')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='0137+331')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='0521+166')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='0542+498')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='1411+522')then;error=-1;jdx=idx+1;end AIPS 1: if(error>0)then $ try J2000 name AIPS 1: if(sname='J1331+3030')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='J0137+3309')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='J0521+1638')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='J0542+4951')then;error=-1;jdx=idx+1;end AIPS 1: if(sname='J1411+5212')then;error=-1;jdx=idx+1;end AIPS 1: end;end;end;clrtemp AIPS 1: end AIPS 1: $ if error>0 check on coords (for different name than standard) AIPS 1: $ but keyval not reliable to do this.. ?? AIPS 1: $ end AIPS 1: if(error>0)then;del;type'ZAP - NO STD CAL SRC FOR :'fname;erro r=1 AIPS 1: else;checkids;error=-1;end;clrtemp AIPS 1: finish AIPS 1: AIPS 1: procedure j2000fix AIPS 1: $LOS - convert data to J2000 by default use of uvfix AIPS 1: task'UVFIX';outname=inname;outclass=inclass;outseq=inseq;outdi sk=indisk AIPS 1: shift=0;uvfixprm=0;tput uvfix;outclass'PREFIX';rename AIPS 1: tget uvfix;inclass'PREFIX';gx;zap;inclass=outclass;clrtemp AIPS 1: finish AIPS 1: AIPS 1: procedure datachks AIPS 1: $LOS - delete unwanted data sets, check for standard calibrators and make J2000 AIPS 1: if(error<1)then $ file exists AIPS 1: skipdata;if(error<1)then $ file was not zapped AIPS 1: checkcal;if(error<1)then $ file has standard calibrator i n it AIPS 1: j2000fix AIPS 1: $ addcalco AIPS 1: end;end;end;clrtemp AIPS 1: finish AIPS 1: AIPS 1: procedure freqchks AIPS 1: $LOS - split up in frequency IDs, run INDXR, and remove AIPS 1: scalar rows, nfrq AIPS 1: if(error<1)then $ file exists AIPS 1: inext'FQ';invers=1;keyword='NUM ROW';getthead;nfrq=keyvalue( 1) AIPS 1: if (nfrq > 1) then AIPS 1: if (nfrq > 9) then;type' WARNING! MORE THAN 9 FREQUENCY ID -S!';end AIPS 1: tput getthead;default'UVCOP';tget getthead;keyword='';task 'UVCOP';tput AIPS 1: for rows=1:nfrq AIPS 1: pixxy=rows,1,1;inver=1;inext='FQ';tabget;tget;freqid=key value(1) AIPS 1: outclass=substr(inclass,1,1)!!substr(inclass,3,6)!!char( freqid) AIPS 1: type'COPYING FREQUENCY ID #'!!char(freqid);gx AIPS 1: default'INDXR';tget uvcop;task'INDXR';inclass outclass;g x;task'DQUAL' AIPS 1: $out not in! ** outname=inname;outclass=inclass;outseq=inseq;out disk=indisk;gx AIPS 1: tget uvcop;freqid=1;clrtemp AIPS 1: end;end;end;if(nfrq>1)then;type fname!!' SPLIT IN :'!!char(nfr q);zap;end AIPS 1: finish AIPS 1: AIPS 1: procedure pre_move AIPS 1: $LOS - moves file to another AIPS user number AIPS 1: default move;indisk=pdsk;outseq=-1;opcode'MOVE';clrtemp AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: $ AIPS 1: $ Ver 1.0 : Copy of private Ver 3.0 of VLARUN (public version is 2.5): AIPS 1: $ was 3.0 : Add PLVER (in goplt) for plot files and to include T ASAV (12MAY04) AIPS 1: $ Repositioned inseq=0 to safeguard to SU-tab confusio n (12NOV04) AIPS 1: $ Rearanged inputs and options, added integration time calculation, AIPS 1: $ QUACK, selective plotting, INNAME vs DOCAT, alternat ive flux cal, AIPS 1: $ selective imaging, SCIMG for targets, use model in C ALIB, find VLA AIPS 1: $ array, use model,.. AIPS 1: $ AIPS 1: $Next vers add polarization calibration, SCIMG->SCIMG? AIPS 1: $ find imsize, find cutoffflux, include infi le AIPS 1: $--------------------------------------------------------------- AIPS 1: $000000001111111111222222222233333333334444444444555555555566666 6666677777777778 AIPS 1: $234567890123456789012345678901234567890123456789012345678901234 5678901234567890 AIPS 1: $=============================================== AIPS 1: $! Calibrating amplitude and phase, and imaging VLA data AIPS 1: $# RUN POPS VLA UTILITY CALIBRATION IMAGING AIPS 1: $--------------------------------------------------------------- AIPS 1: $; Copyright (C) 2002-2006 AIPS 1: $; Associated Universities, Inc. Washington DC, USA. AIPS 1: $; AIPS 1: $; This program is free software; you can redistribute it and/o r AIPS 1: $; modify it under the terms of the GNU General Public License as AIPS 1: $; published by the Free Software Foundation; either version 2 of AIPS 1: $; the License, or (at your option) any later version. AIPS 1: $; AIPS 1: $; This program is distributed in the hope that it will be usef ul, AIPS 1: $; but WITHOUT ANY WARRANTY; without even the implied warranty of AIPS 1: $; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See th e AIPS 1: $; GNU General Public License for more details. AIPS 1: $; AIPS 1: $; You should have received a copy of the GNU General Public AIPS 1: $; License along with this program; if not, write to the Free AIPS 1: $; Software Foundation, Inc., 675 Massachusetts Ave, Cambridge, AIPS 1: $; MA 02139, USA. AIPS 1: $; AIPS 1: $; Correspondence concerning AIPS should be addressed as follow s: AIPS 1: $; Internet email: aipsmail@nrao.edu. AIPS 1: $; Postal address: AIPS Project Office AIPS 1: $; National Radio Astronomy Observatory AIPS 1: $; 520 Edgemont Road AIPS 1: $; Charlottesville, VA 22903-2475 USA AIPS 1: $--------------------------------------------------------------- AIPS 1: $=============================================================== AIPS 1: AIPS 1: procedure pipeinit AIPS 1: scalar lsdisk,lsname,lsrant,lscont,lserr,lsplot,lsflag,k,lsflu x,lstarg,lsmodl AIPS 1: scalar lsids,star,tint,fsw AIPS 1: string*2 lstyp AIPS 1: string*3 lsvla AIPS 1: string*6 lsidc,lsstrng AIPS 1: string*16 lsidn,lscal AIPS 1: string*16 lsampcal(20),lsbndcal(5),lsphacal(20),lspntcal(25),l sallcal(30), AIPS 1: array lsbadd(10),lsparm(16),lssid(1000) $ D=1,C=3.3,B=10.8,A=3 5.4,PT=73 AIPS 1: string*20 expnm AIPS 1: string*48 expmsg AIPS 1: finish AIPS 1: pipeinit AIPS 1: AIPS 1: procedure pipeinpt AIPS 1: lsampcal '3C48', '0134+329','0137+331','J0137+3309' AIPS 1: lsampcal(5)~ '3C138','0518+165','0521+166','J0521+1638' AIPS 1: lsampcal(9)~ '3C147','0538+498','0542+498','J0542+4951' AIPS 1: lsampcal(13)~'3C286','1328+307','1331+305','J1331+3030' AIPS 1: lsampcal(17)~'3C295','1409+524','1411+522','J1411+5212' AIPS 1: lserr=0;lsbadd=baddisk;lsdisk=indisk;lsname=docat AIPS 1: lsidn=inname;lsidc=inclass;lsids=inseq;lstyp'UV';fsw=doalign;l sflag=flagver AIPS 1: lsparm(2)=solint;lsparm(13)=factor;lsrant=refant;lsmodl=domode l AIPS 1: lscal=keystrng;lsflux=flux;lsparm(3)=uvrange(1);lsparm(4)=uvra nge(2) AIPS 1: for k=1:20;lsphacal(k)=sources(k);end;for k=1:5;lsbndcal(k)=ca lsour(k);end AIPS 1: lsparm(11)=dopol;lsparm(12)=bpa;lscont=docont;lsplot=plver;lsp arm(1)=doall AIPS 1: lsparm(5)=doarray;lsparm(6)=imsize(1);lsparm(7)=niter;lsparm(8 )=cutoff AIPS 1: lsparm(9)=docal;lsparm(10)=doresid AIPS 1: $ check input values AIPS 1: $->lsbadd AIPS 1: if (lsdisk<=0) then;lserr=1;type'SPECIFY THE INDISK';end AIPS 1: if(lsname<=0)then;inname=lsidn;inclass=lsidc;inseq=lsids;intyp e=lstyp;chkname AIPS 1: if (error<>0) then AIPS 1: lserr=2; type 'SPECIFY INNAME, ETC, OR THE CATALOG NUMBER = DOCAT' AIPS 1: else AIPS 1: userid=0;k=1;lsname=0 AIPS 1: while (lsname=0);egetname k AIPS 1: if (( (lsidn=inname)&(lsidc=inclass) )&(lsids=inseq)) th en AIPS 1: lsname=k;lsidn=inname;lsidc=inclass;lsids=inseq;lstyp= intype AIPS 1: else;k=k+1;end;end;end;else AIPS 1: if ( ((inname <> '')!(inclass <> '')) ! (inseq <> 0) ) then AIPS 1: lserr=2; type 'DO NOT SPECIFY BOTH INNAME, ETC, AND VARIAB LE DOCAT' AIPS 1: else AIPS 1: getname(lsname);lsidn=inname;lsidc=inclass;lsids=inseq;lst yp=intype AIPS 1: end AIPS 1: end AIPS 1: AIPS 1: $->inname AIPS 1: $->inclass AIPS 1: $->inseq AIPS 1: $->fsw AIPS 1: $->lsflag AIPS 1: if (lsparm(2)<=0) then; lserr=3; type 'SPECIFY THE SOLUTION IN TERVAL';end AIPS 1: if (lsparm(13)<1)then;lsparm(13)=1;type'FACTOR<1 QUESTIONABLE, SET TO 1';end AIPS 1: if (lsrant<=0)then;lsrant=0;type'AIPS WILL CHOOSE THE REFERENC E ANTENNA';end AIPS 1: if ( (lsmodl>0) & (length(lscal)>0) ) then AIPS 1: lserr=4;type 'CANNOT USE STANDARD SOURCE MODEL FOR ALTERNATI VE CALIBRATOR' AIPS 1: end AIPS 1: $->lscal AIPS 1: if (length(lscal)<>0) then AIPS 1: type 'USING NON-STANDARD AMPLITUDE CALIBRATOR, FLUX, UVRAN GE :' AIPS 1: type lscal, lsflux, lsparm(3), lsparm(4);lsampcal='';lsamp cal(1)=lscal AIPS 1: end AIPS 1: AIPS 1: $->lsflux AIPS 1: $-> #3+#4 uvrange AIPS 1: for i=1:20;for j=1:16;if(substr(lsphacal(i),j,j)='*')then;if ( lserr<>7) then AIPS 1: if((i=1)&(j=1))then;star=1;else; AIPS 1: star=-1;lserr=7;type'ONLY USE * IN THE 1ST CHARACTER OF TH E 1ST SOURCE' AIPS 1: end;end;end;end;clrtemp;end AIPS 1: if (lsname>0) then; indisk=lsdisk; getname(lsname); clrtemp AIPS 1: if ( (inclass='CH 0') & (substr(lsbndcal(1),1,1) = ' ') ) th en AIPS 1: lserr=8;type 'SPECIFY THE BANDPASS CALIBRATOR = CALSOUR' AIPS 1: end;end;clrtemp AIPS 1: $-> #11 dopol AIPS 1: $-> #12 bpa AIPS 1: $->lscont AIPS 1: $->lsplot AIPS 1: if (lsparm(1) > 0) then AIPS 1: if (lsparm(5)<0) then;type 'SETFC WILL DETERMINE THE CELL SI ZE' AIPS 1: else; AIPS 1: if (lsparm(5)=0) then; AIPS 1: keyword='TELESCOP';gethead; AIPS 1: if (substr(keystrng,1,3)<>'VLA') then; AIPS 1: lserr=5; type 'CANNOT DETERMINE ARRAY - THIS IS NOT TH E VLA' AIPS 1: else;keyword'NUM ROW';inext'AN';invers=0;getthead;k=keyv alue(1) AIPS 1: for j=1:k AIPS 1: pixxy=j,1,0;tabget;i=1;clrtemp AIPS 1: while((substr(keystrng,i,i)<>':')&(i<9));i=i+1;end AIPS 1: if (substr(keystrng,i+1,i+1)<>' ')then; AIPS 1: lsvla=substr(keystrng,i+1,i+3);else AIPS 1: lsvla=substr(keystrng,i+2,i+4);end AIPS 1: if ((lsvla<>'OUT')&(lsvla<>'MPD'))then; AIPS 1: if (lsvla='VPT')then;lsparm(5)=75;else AIPS 1: if (substr(keystrng,i+1,i+1)<>' ')then; AIPS 1: keyword=substr(keystrng,i+2,i+8);else AIPS 1: keyword=substr(keystrng,i+3,i+9);end AIPS 1: lsparm(5)=max(lsparm(5),value(keyword));clrtem p;end;end;end AIPS 1: if (lsparm(5)<75) then;if (lsparm(5)>36) then;lsparm(5 )=36;else AIPS 1: if (lsparm(5)>18) then;lsparm(5)=11;else AIPS 1: if(lsparm(5)>9)then;lsparm(5)=3.5;else;lsparm(5)=1;end ;end;end;end AIPS 1: end;if(lsparm(5)=0)then;lserr=5;type'WHAT ARRAY?! USE DO ARRAY';else AIPS 1: if(lsparm(5)>0)then AIPS 1: type char(lsparm(5))!!' KILOMETERS WILL BE USED AS MAX IMUM BASELINE' AIPS 1: end;end;end;end AIPS 1: if (lsparm(6)>=0)then;if((lsparm(6)<128)!(imsize(2)<128))the n AIPS 1: lserr=6; type 'SPECIFY THE IMSIZE CORRECTLY (>127 OR <0)'; end;end AIPS 1: AIPS 1: $-> #7 niter AIPS 1: if (lsparm(7) < 0) then; lsparm(7) = 1e6; end AIPS 1: $-> #8 cutoff AIPS 1: $-> #9 docal AIPS 1: $-> #10 doresid AIPS 1: AIPS 1: end AIPS 1: finish AIPS 1: AIPS 1: procedure getidn AIPS 1: indisk=lsdisk;inname=lsidn;inclass=lsidc;inseq=lsids;intype=ls typ AIPS 1: finish AIPS 1: AIPS 1: procedure getset AIPS 1: default;getidn;clrtemp AIPS 1: finish AIPS 1: AIPS 1: procedure lsclrcal AIPS 1: $ consolidate lists, deal with calcode='*' later AIPS 1: scalar lsidx,l,m,n AIPS 1: task'TABGET';getset;inext'NX';invers 0;keyvalue=0;keystrng'' AIPS 1: keyword'NUM ROW';getthead;lsidx=keyvalue(1);clrtemp;n=0;lssid= 0 AIPS 1: if (keyvalue(1)>1000)then;type'WARNING: MORE THAN 1000 SCANS ! ';end AIPS 1: for i=1:lsidx $ remember source number AIPS 1: pixxy=i,3,0;tabget;error=0 AIPS 1: for l=1:n;if(lssid(l)=keyvalue(1))then;error=1;end;end;clrte mp AIPS 1: if(error=0)then;n=n+1;lssid(n)=keyvalue(1);end AIPS 1: end;inext'SU';invers 0;keyvalue=0;keystrng'';keyword'NUM ROW' AIPS 1: getthead;lsidx=keyvalue(1);clrtemp;sources'';l=1;m=1;n=1 AIPS 1: for i=1:lsidx AIPS 1: pixxy=i,2,0;tabget;k=length(keystrng);j=0;clrtemp AIPS 1: while (j<20);j=j+1;if (substr(lsampcal(j),1,k)=substr(keystr ng,1,k)) then AIPS 1: lsampcal(l)=lsampcal(j);j=30;lsparm(14)=l;l=l+1;end;end; j=0;clrtemp AIPS 1: while (j<20);j=j+1;if (substr(lsphacal(j),1,k)=substr(keystr ng,1,k)) then AIPS 1: lsphacal(m)=lsphacal(j);j=30;lsparm(15)=m;m=m+1;end;end; j=0;clrtemp AIPS 1: while (j<5);j=j+1;if (substr(lsbndcal(j),1,k)=substr(keystrn g,1,k)) then AIPS 1: lsbndcal(n)=lsbndcal(j);j=30;lsparm(16)=n;n=n+1;end;end; clrtemp AIPS 1: end;lspntcal'';lsallcal'';for j=l:20;lsampcal(j)='';end AIPS 1: for j=m:20;lsphacal(j)='';end;for j=n:5;lsbndcal(j)='';end AIPS 1: for j=1:lsparm(15);lspntcal(j)=lsphacal(j);end;k=lsparm(15) AIPS 1: for j=1:lsparm(16);lspntcal(j+k)=lsbndcal(j);end;j=0;l=1;clrte mp AIPS 1: while (j<(lsparm(15)+lsparm(16)));j=j+1;if (length(lspntcal(j) )>0) then AIPS 1: lspntcal(l)=lspntcal(j);if(l<>j)then;lspntcal(j)='';end;l=l+ 1;end;end AIPS 1: $here - clean up pnt cal for doubles - subtract from total count below AIPS 1: k=lsparm(15)+lsparm(16);for j=1:k;lsallcal(j)=lspntcal(j);end; l=1 AIPS 1: for j=1:lsparm(14);i=length(lsampcal(j));lsidx=0;m=j AIPS 1: while ((lsidx0) then;lsallcal(l)=lsallcal(j) AIPS 1: if(l<>j)then;lsallcal(j)='';end;l=l+1;end;end AIPS 1: $typ 'LSAMPCAL, LSPHACAL, LSBNDCAL, LSPNTCAL, AND LSALLCAL :' AIPS 1: $typ lsampcal; typ lsphacal; typ lsbndcal; typ lspntcal; typ lsa llcal; AIPS 1: return;clrtemp AIPS 1: finish AIPS 1: AIPS 1: procedure numtab(lsstrng) AIPS 1: keystrng'';j=0;clrtemp AIPS 1: while ((j<15)&(keystrng<>lsstrng)) AIPS 1: j=j+1;keyword'EXTYPE'!!char(j);gethead;end;clrtemp AIPS 1: if (keystrng=lsstrng) then AIPS 1: keyword'EXTVER'!!char(j);gethead;else;keyvalue=0;end AIPS 1: keyword'';keystrng'';clrtemp AIPS 1: return keyvalue(1);finish AIPS 1: AIPS 1: procedure numbasel AIPS 1: scalar numarow,numbout,numbant,numbase,idx;string*16 nameant AIPS 1: numbout=0;keyword'NUM ROW';inext'AN';invers=0;getthead;numarow =keyvalue(1) AIPS 1: for numbant=1:numarow AIPS 1: pixxy=numbant,1,0;tabget;nameant=keystrng;idx=1;clrtemp AIPS 1: while(substr(nameant,idx,idx)<>':');idx=idx+1;end AIPS 1: if(substr(nameant,idx+1,idx+3)='OUT')then;numbout=numbout+1; end AIPS 1: if(substr(nameant,idx+2,idx+4)='OUT')then;numbout=numbout+1; end AIPS 1: end;numbase=(numarow-numbout)*(numarow-numbout-1)/2;clrtemp AIPS 1: $ type char(numarow-numbout)!!' ANTENNAS',char(numbase)!!' BASE LINES' AIPS 1: return numbase AIPS 1: finish AIPS 1: AIPS 1: procedure calcintt AIPS 1: scalar numxrow,numscan,numbbeg,numbend,numcnst,sum,avr,rms,rma x;rmax=300 AIPS 1: array interval(1000),numbvis(1000);avr=0;if(rmax>1000)then;rma x=1000;end AIPS 1: if (numtab('NX')<1) then;type'NOT MULTISOURCE - NO INTTIME CAL CULATED' AIPS 1: else AIPS 1: keyword'NUM ROW';inext'NX';invers 0;getthead;numxrow=keyvalu e(1) AIPS 1: if(numxrow>rmax)then;numxrow rmax;end AIPS 1: for numscan=1:numxrow;clrtemp AIPS 1: pixxy=numscan,2,0;tabget;interval(numscan)=86400*keyvalue( 1) AIPS 1: pixxy=numscan,5,0;tabget;numbbeg=keyvalue(1) AIPS 1: pixxy=numscan,6,0;tabget;numbend=keyvalue(1) AIPS 1: numbvis(numscan)=numbend-numbbeg+1;avr=max(avr,numbvis(num scan)) AIPS 1: end;numcnst=numbasel;sum=0 AIPS 1: if (avr > 0) then AIPS 1: for numscan=1:numxrow;if (numbvis(numscan)>0) then AIPS 1: sum=sum+( (numcnst*interval(numscan)) / numbvis(numsca n) ) AIPS 1: end;end;clrtemp;avr=sum/numxrow;sum=0 AIPS 1: for numscan=1:numxrow;if (numbvis(numscan)>0) then AIPS 1: sum=sum+((numcnst*interval(numscan))/numbvis(numscan)- avr)**2 AIPS 1: end;end;clrtemp;rms=sum/numxrow;clrtemp;end AIPS 1: $ type char(numxrow)!!' SCANS/SAMPLES WITH RMS(SEC) +/-'!!char( rms) AIPS 1: $ type char(avr)!!' SECOND INTEGRATIONS (APPROXIMATELY)' AIPS 1: end AIPS 1: return avr AIPS 1: finish AIPS 1: AIPS 1: procedure guesintt AIPS 1: scalar intcst,intavr,intmod,intime AIPS 1: intavr=calcintt;intcst=intavr;keyword'TELESCOP';gethead AIPS 1: if (keystrng='VLA') then;intcst=1+(2/3);end AIPS 1: if (keystrng='VLBA') then;intcst=0.131072;end AIPS 1: if (intcst=intavr) then;type'UNKNOWN TELESCOPE :'!!keystrng;en d AIPS 1: if (intavr>10) then AIPS 1: $ intime=10*floor(0.5+(intavr/10)) AIPS 1: intime=10*floor(intavr/10) AIPS 1: else;if (intavr>0) then AIPS 1: intmod=mod(intavr,intcst) AIPS 1: $ intime=intcst*((intavr-intmod)/intcst+floor(0.5+(intmod/i ntcst))) AIPS 1: intime=intcst*((intavr-intmod)/intcst+floor(intmod/intcst) ) AIPS 1: else;intime=intavr;end;end;clrtemp AIPS 1: if(numtab('NX')>0)then;type char(intime)!!' SECOND INTEGRATION S (GUESS)';end AIPS 1: return intime AIPS 1: finish AIPS 1: AIPS 1: procedure checkids AIPS 1: $LOS - account for fast switching source names - check on pos, q ual, calco AIPS 1: scalar ra1a,ra1b,ra2a,ra2b,dc1a,dc1b,dc2a,dc2b,n,m,l,idx AIPS 1: scalar q1,q2 AIPS 1: string*1 co1,co2 AIPS 1: string*16 n1,n2 AIPS 1: array alist(100),blist(100) AIPS 1: inext'SU';invers 0;keyword'NUM ROW';keyvalue 0;keystrng'';gett head AIPS 1: n=keyvalue(1);idx=1;aparm 0;bparm 0;alist 0;blist 0 AIPS 1: if (n > 1) then AIPS 1: for m=1:(n-1);clrtemp AIPS 1: pixxy m,11;tabget;ra1a keyvalue(1);ra1b keyvalue(2) AIPS 1: for l=(m+1):n;clrtemp AIPS 1: pixxy l,11;tabget;ra2a keyvalue(1);ra2b keyvalue(2) AIPS 1: if (abs(ra1a-ra2a)=0) then AIPS 1: if ( abs((ra1b-ra2b)*3600*1000) < 3 ) then $ RA within 3 mas! AIPS 1: pixxy m,12;tabget;dc1a keyvalue(1);dc1b keyvalue(2) AIPS 1: pixxy l,12;tabget;dc2a keyvalue(1);dc2b keyvalue(2) AIPS 1: if (abs(dc1a-dc2a)=0) then AIPS 1: if ( abs((dc1b-dc2b)*3600*1000) < 3 ) then $ DC wi thin 3 mas! AIPS 1: pixxy m,3;tabget;q1 keyvalue(1);pixxy l,3;tabget ;q2 keyvalue(1) AIPS 1: if (q1=q2) then $ same qualifier; same calcode? AIPS 1: pixxy m,4;tabget;co1 keystrng;pixxy l,4;tabget ;co2 keystrng AIPS 1: if (co1=co2) then AIPS 1: pixxy m,1;tabget;q1 keyvalue(1) AIPS 1: pixxy l,1;tabget;q2 keyvalue(1) AIPS 1: pixxy m,2;tabget;n1 keystrng;pixxy l,2;tabge t;n2 keystrng AIPS 1: if (idx>100) then; AIPS 1: type 'TOO MANY SOURCES TO DO DSORC - DO BY HAND!' AIPS 1: type 'NEXT =.'!!char(idx)!!' DO:'!!char(l)! !'.&.'!!char(m) AIPS 1: else AIPS 1: if (length(n1)1) then;task'DSORC';n=0 AIPS 1: outname inname;outclass inclass;outseq inseq;outdisk indis k AIPS 1: while (n100)then;type'TOO MANY SOURCES FOR DSORC';error 1;end ;clrtemp AIPS 1: end AIPS 1: finish AIPS 1: AIPS 1: procedure chkobjct AIPS 1: if (( (object='1331+305') ! (object='1328+307') ) ! (object='J 1331+3030') ) AIPS 1: then; object='3C286';end AIPS 1: if (( (object='0137+331') ! (object='0134+329') ) ! (object='J 0137+3309') ) AIPS 1: then; object='3C48';end AIPS 1: if (( (object='0521+166') ! (object='0518+165') ) ! (object='J 0521+1638') ) AIPS 1: then; object='3C138';end AIPS 1: if (( (object='0542+498') ! (object='0538+498') ) ! (object='J 0542+4951') ) AIPS 1: then; object='3C147';end AIPS 1: if (( (object='1411+522') ! (object='1409+524') ) ! (object='J 1411+5212') ) AIPS 1: then; object='3C295';end;clrtemp;return AIPS 1: finish AIPS 1: AIPS 1: procedure checkbnd AIPS 1: band='';j=1 AIPS 1: while (j<9) AIPS 1: keyword='CTYPE'!!char(j);gethead;keyword='CRVAL'!!char(j);cl rtemp AIPS 1: if (keystrng='FREQ') then;gethead;j=9;else;j=j+1;end;end AIPS 1: keyvalue(1)=keyvalue(1)/1e9; AIPS 1: if ( (keyvalue(1)>38) & (keyvalue(1)<51) ) then; band='Q ';end AIPS 1: if ( (keyvalue(1)>20.4) & (keyvalue(1)<25.5) ) then; band='K ';end AIPS 1: if ( (keyvalue(1)>13.5) & (keyvalue(1)<16.3) ) then; band='U ';end AIPS 1: if ( (keyvalue(1)> 6.8) & (keyvalue(1)< 9.6) ) then; band='X ';end AIPS 1: if ( (keyvalue(1)> 4.2) & (keyvalue(1)< 5.1) ) then; band='C ';end AIPS 1: if ( (keyvalue(1)> 1.15) & (keyvalue(1)< 1.75) ) then; band='L ';end AIPS 1: if ( (keyvalue(1)>0.298) & (keyvalue(1)<0.345) ) then; band='P ';end AIPS 1: if ( (keyvalue(1)>0.072) & (keyvalue(1)<0.076) ) then; band='4 ';end;clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure chkmodel AIPS 1: error=0;sysout='';sys2com'' AIPS 1: syscom'ls -1 $AIPSTARS/ AIPS 1: sys2com(1) inname!!'.MODEL' AIPS 1: sys2com(2) ' >& /dev/null AIPS 1: system AIPS 1: finish AIPS 1: AIPS 1: procedure loadmodl AIPS 1: scalar lsidx,l AIPS 1: array lsload(5) AIPS 1: task'TABGET';getset;inext'SU';invers 0;keyvalue=0;keystrng'' AIPS 1: keyword'NUM ROW';getthead;lsidx=keyvalue(1);l=1;clrtemp AIPS 1: for i=1:lsidx AIPS 1: pixxy=i,2,0;tabget;k=length(keystrng);j=1;clrtemp AIPS 1: while (j<21) AIPS 1: if (substr(lsampcal(j),1,k)=substr(keystrng,1,k)) then AIPS 1: lsload(l)=i;j=30;l=l+1;else;j=j+1;clrtemp AIPS 1: end;end;end;lsidx=0;checkbnd;keyword'EPOCH';keyvalue=0;keystrn g='';gethead AIPS 1: if (keyvalue(1)<1999) then;lsidx=1;end AIPS 1: for j=1:(l-1) AIPS 1: object=lsampcal(j);chkobjct;clrtemp;intype'MA';outdisk=lsdis k AIPS 1: inname=object!!'_'!!band;inclass'MODEL';inseq=1;indisk=lsdis k;chkname AIPS 1: $$ if (error>0) then;type lsampcal(lsload(j))!!' MODEL ='inname ;chkmodel AIPS 1: if (error>0) then;type lsampcal(j)!!' MODEL ='inname;chkmode l AIPS 1: if(error<1)then;go calrd;if (lsidx>0) then;eposwtch;end;en d;end $ J2000 AIPS 1: end;return AIPS 1: finish AIPS 1: AIPS 1: procedure vlanew AIPS 1: clrstat;j=numtab('BP');if (j>0) then;inext'BP';invers=-1;extde st;end AIPS 1: j=numtab('CL');if (j>1) then;inext'CL';for k=2:j;invers=k;extd est;end;end AIPS 1: j=numtab('SN');if (j>0) then;inext'SN';invers=-1;extdest;end AIPS 1: j=numtab('XX');if (j>0) then;inext'XX';invers=-1;extdest;end AIPS 1: if (inclass='LINE') then AIPS 1: j=numtab('FG');if (j>1) then;inext'FG';for k=2:j;invers=k;ex tdest;end;end AIPS 1: j=numtab('CL');if (j>1) then;inext'CL';for k=2:j;invers=k;ex tdest;end;end AIPS 1: j=numtab('BP');if (j>0) then;inext'BP';invers=-1;extdest;end AIPS 1: j=numtab('PL');if (j>0) then;inext'PL';invers=-1;extdest;end AIPS 1: end;j=numtab('PL');if (j>0) then;inext'PL';invers=-1;extdest;e nd;clrtemp AIPS 1: type'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL ,XX)' AIPS 1: finish AIPS 1: AIPS 1: procedure allzap AIPS 1: chkname;if(error<1)then;for j=1:(1-error);zap;end;end;clrtemp AIPS 1: finish AIPS 1: AIPS 1: procedure allplot AIPS 1: tvinit;j=numtab('PL');type 'NUMBER OF PLOT FILES TO SHOW ON TV :'!!char(j) AIPS 1: if (j>0) then AIPS 1: for k=1:j;plver=k;type 'PLOT'char(k)!!'/'!!char(j);go tvpl;r ead;end AIPS 1: else;type 'NOTHING TO PLOT - DONE';end AIPS 1: finish AIPS 1: AIPS 1: procedure goplt0 AIPS 1: if (lsplot>0) then;go;end AIPS 1: finish $SN only AIPS 1: procedure goplt1 AIPS 1: if (lsplot>1) then;go;end AIPS 1: finish $SN+CL AIPS 1: procedure goplt2 AIPS 1: if (lsplot>2) then;go;end AIPS 1: finish $SN+CL+BP AIPS 1: procedure goplt3 AIPS 1: if (lsplot>3) then;go;end AIPS 1: finish $CL,BP applied AIPS 1: AIPS 1: procedure calpipe(lsdisk,lsname,lsrant) AIPS 1: vnum=33;dowait=true;getidn;vlanew;j=0;clrtemp AIPS 1: if (inclass='CH 0') then;inclass'LINE';vlanew;end;clrtemp AIPS 1: if(fsw>0)then;checkids;if(inclass='CH 0')then;inclass'LINE';ch eckids;end;end AIPS 1: if ((numtab('FG')<1)&(lsflag>=0)) then AIPS 1: if (lsflag>=1) then AIPS 1: task'QUACK';getset;flagver=1;opcode'BEG';i=min(3*tint,20) AIPS 1: reason char(i)!!' SEC AUTO-QUACK';aparm=0,i/60,-1;go AIPS 1: end;task'FLAGR';getset AIPS 1: docal 2;solint=max(3*tint-2,2.7*tint);vector=-1;docrt 0;go AIPS 1: end AIPS 1: task'SNPLT';getset;inext'CL';nplots 8;optype'AMP';vput;pixrang e=0.7,1.8 AIPS 1: goplt1;task'SETJY';getset;optype'REJY';aparm=0;freqid=1;go;opt ype'CALC' AIPS 1: if (length(lscal)<>0) then AIPS 1: optype'';zerosp=lsflux,0;lsallcal=lscal,lspntcal AIPS 1: end;sources=lsampcal;go AIPS 1: task'CALIB';getset;docalib=2;refant=lsrant;aparm=3,0,0,0,0,0,4 ,0,0;calcode'' AIPS 1: solint=lsparm(2);calsour=lspntcal;snver=numtab('SN')+1;solmo de'P' AIPS 1: soltype'L1R';baddisk=lsbadd;vput;if(star>0)then;calsour'';ca lcode'*';end;go AIPS 1: if (lsmodl>0) then $ use models for ones that exist AIPS 1: loadmodl;vget calib;calsour='';in2seq=0;in2disk=lsdisk;in2cl ass'MODEL' AIPS 1: for j=1:(l-1) AIPS 1: inext'SU';pixxy=lsload(j),2,0;tabget;calsour(1)=keystrng;c lrtemp AIPS 1: pixxy=lsload(j),4,0;tabget;calcode=substr(keystrng,1,4);cl rtemp AIPS 1: object=lsampcal(j);chkobjct;in2name=object!!'_'!!band AIPS 1: vput calib;inname=in2name;inclass=in2class;inseq=in2seq;in disk=in2disk AIPS 1: $ if no model, use point with full uvrange AIPS 1: chkname;vget calib;if (error>0)then;clr2name;end;go AIPS 1: end;clrtemp AIPS 1: else;uvrange=lsparm(3),lsparm(4);calsour=lsampcal;go;end AIPS 1: vget snplt;inext'SN';optype'PHAS';goplt0;clrtemp AIPS 1: task'CLCAL';getset;freqid=1;refant=lsrant;gainuse=numtab('CL') +1 AIPS 1: snver=numtab('SN');gainver=numtab('CL');sources'';soucode''; AIPS 1: calsour=lsphacal;calcode'';vput;if(star>0)then;calsour'';cal code'*';end;go AIPS 1: calsour=lsallcal;sources=calsour;interpol'SELF' AIPS 1: if(star>0)then;calsour'';calcode'*';soucode'*';end;go AIPS 1: vget snplt;inext'CL';optype'PHAS';goplt1;clrtemp AIPS 1: vget calib;solmode'A&P';calsour=lspntcal;calcode''; AIPS 1: solint=lsparm(13)*lsparm(2);snver=numtab('SN')+1;clr2name;vput AIPS 1: if(star>0)then;calsour'';calcode'*';end;go AIPS 1: if (lsmodl>0) then AIPS 1: loadmodl;vget calib;calsour='';in2seq=0;in2disk=lsdisk;in2cl ass'MODEL' AIPS 1: for j=1:(l-1) AIPS 1: inext'SU';pixxy=lsload(j),2,0;tabget;calsour(1)=keystrng;c lrtemp AIPS 1: pixxy=lsload(j),4,0;tabget;calcode=substr(keystrng,1,4);cl rtemp AIPS 1: object=lsampcal(j);chkobjct;in2name=object!!'_'!!band;calc ode'' AIPS 1: vput calib;inname=in2name;inclass=in2class;inseq=in2seq;in disk=in2disk AIPS 1: $ if no model, use point with full uvrange AIPS 1: chkname;vget calib;if (error>0)then;clr2name;end;go AIPS 1: end;inseq=0;indisk=lsdisk;inclass'MODEL';intype'MA' AIPS 1: for j=1:(l-1) AIPS 1: object=lsampcal(j);chkobjct;inname=object!!'_'!!band;chkna me AIPS 1: if (error<1) then;zap;end;end AIPS 1: else;uvrange=lsparm(3),lsparm(4);calsour=lsampcal;go;end AIPS 1: vget snplt;inext'SN';optype'AMP';goplt0;optype'PHAS';pixrange= -20,20;goplt0 AIPS 1: task'GETJY';getset;calsour=lsampcal;snver=numtab('SN'); AIPS 1: if (star>0) then; AIPS 1: $ for j=1:lsparm(14);sources(j)='-'!!lsampcal(j);end;k=lsparm (14)+1 AIPS 1: $ if (length(lscal)>0) then;sources(k)='-'!!lscal;k=k+1;end AIPS 1: $ for j=k:(25-k+2);sources(j)=lspntcal(j-k+2);end; AIPS 1: soucode='*' AIPS 1: else AIPS 1: sources=lspntcal;if (length(lscal)>0) then;sources(11)='-'!! lscal;end AIPS 1: end;go AIPS 1: if (lscont<1) then AIPS 1: type '****************************************************** **' AIPS 1: type '** WRITE DOWN THE FLUX DENSITIES FOR YOUR CALIBRATORS **' AIPS 1: type '** (AND DO NOT FORGET THE ERRORS EITHER!) **' AIPS 1: type '****************************************************** **';read AIPS 1: end AIPS 1: vget clcal;gainver=numtab('CL');gainuse=numtab('CL')+1;snver=n umtab('SN') AIPS 1: if(star>0)then;calsour'';calcode'*';end;go;calsour=lsallcal;so urces=calsour AIPS 1: interpol'SELF';if(star>0)then;calsour'';calcode'*';soucode'*'; end;go AIPS 1: vget snplt;inext'CL';optype'AMP';goplt1;optype'PHAS';goplt1;cl rtemp AIPS 1: if (inclass='CH 0') then AIPS 1: task'TACOP';getset AIPS 1: outdisk=indisk;outname=inname;outclass'LINE';outseq=inseq; ncount=1 AIPS 1: keystrng'';inext'FG';invers=numtab('FG');if (invers>0) the n;go;end AIPS 1: inext'CL';invers=numtab('CL');keyvalue 0;outseq=inseq;vput ;go;clrtemp AIPS 1: task'BPASS';getset;inclass'LINE';calsour=lsbndcal,lsampcal;d ocal=2 AIPS 1: solint=-1;bpassprm(5)=-1;bpassprm(9)=1;baddisk=lsbadd;go;c lrtemp AIPS 1: task'POSSM';getset;inclass'LINE';bpver 0;aparm=0,1,.4,1.2,-3 0,30,0,2,3,0 AIPS 1: nplots=6;goplt2;sources=lsbndcal;docalib 2;doband 1;aparm= 1 0;aparm(9)=3 AIPS 1: antennas=lsrant,0;goplt2;nplots=0;vput;goplt2;stokes'I';an tennas=0;goplt2 AIPS 1: sources=lsampcal;goplt3 AIPS 1: vget tacop;inclass'LINE';outclass'CH 0';invers=numtab('BP'); inext'BP';go AIPS 1: end;task'TASAV';getset;outdisk=indisk;go;dowait=false;vnum=0;c lrtemp AIPS 1: finish AIPS 1: AIPS 1: procedure calcrms AIPS 1: scalar nbas,nvis,tbw,rms,minhrs AIPS 1: keyword'GCOUNT';gethead;nvis=keyvalue(1);nbas=numbasel;j=1 AIPS 1: minhrs=nvis*tint/(nbas*3600) $ underesimate of obs hours (over estimate rms) AIPS 1: while (j<9) $ bandwidth in a channel, continuum or spectral li ne AIPS 1: keyword='CTYPE'!!char(j);gethead;keyword='CDELT'!!char(j);cl rtemp AIPS 1: if (keystrng='FREQ') then;gethead;j=9;else;j=j+1;end;end;tbw =keyvalue(1) AIPS 1: if (lsidc <> 'CH 0') then;j=1 $ continuum, multiple IFs averag ed AIPS 1: while (j<9) AIPS 1: keyword='CTYPE'!!char(j);gethead;keyword='NAXIS'!!char(j); clrtemp AIPS 1: if(keystrng='IF')then;gethead;j=9;else;j=j+1;end;end;tbw=t bw*keyvalue(1) AIPS 1: end;checkbnd;if((band='P')!(band='4'))then;tbw=tbw/3.2;else;tb w=tbw/50;end AIPS 1: tbw=sqrt(tbw*minhrs/24e6);rms=-1 AIPS 1: if (band='Q')then;rms=3.0e-5/tbw;end;if (band='K')then;rms=2.5 e-5/tbw;end AIPS 1: if (band='U')then;rms=2.0e-5/tbw;end;if (band='X')then;rms=5.3 e-6/tbw;end AIPS 1: if (band='C')then;rms=6.4e-6/tbw;end;if (band='L')then;rms=6.6 e-6/tbw;end AIPS 1: if (band='P')then;rms=1.7e-4/tbw;end;if (band='4')then;rms=1.5 e-2/tbw;end AIPS 1: if (rms<0) then;type 'CANNOT CALCULATE RMS FROM OBSERVING BAND ..';end AIPS 1: typ 'ESTIMATED RMS:' char(rms*1000)!!' MILLI JANSKY' AIPS 1: return rms AIPS 1: finish AIPS 1: AIPS 1: procedure setboxfle AIPS 1: scalar ci,bi AIPS 1: string*48 fbox AIPS 1: fbox'/tmp/SETFC@ AIPS 1: fbox=fbox!!inname!!'_'!!inclass!!'.'!!char(inseq)!!'-'!!char(i ndisk) AIPS 1: ci=0;bi=length(fbox) AIPS 1: while(ci& /dev/null AIPS 1: if(substr(boxfile,1,1)<>' ')then;system;end;clrtemp AIPS 1: finish AIPS 1: AIPS 1: procedure catboxfile AIPS 1: sys2com'';syscom 'cat AIPS 1: sys2com(1) 'X'!!boxfile;substr(sys2com(1),1,1)='' AIPS 1: if(substr(expmsg,1,1)<>'')then;sysout=expmsg;else;sysout'';end ;clrtemp AIPS 1: system AIPS 1: finish AIPS 1: AIPS 1: procedure setimsize AIPS 1: scalar szf, kk AIPS 1: string*48 bxf AIPS 1: array szc(2), szi(2), orgc(2), orgi(2) AIPS 1: vput imagr;task'SETFC';sources'';bcount=1;bxf=setboxfle;boxfil e=bxf AIPS 1: bparm=0;infile='';shift=0;flux=0;pbparm=0.25,0;delboxfle AIPS 1: orgc=cellsize;cellsize=0;orgi=lsparm(6);imsize=0;kk=1 AIPS 1: while (kk<9) AIPS 1: keyword='CTYPE'!!char(kk);gethead;keyword='CRVAL'!!char(kk); clrtemp AIPS 1: if (keystrng='FREQ') then;gethead;kk=9;else;kk=kk+1;end;end AIPS 1: keyvalue(1)=keyvalue(1)/1e9;bparm(1)=0.375/keyvalue(1);bparm(4 )=3*bparm(1) AIPS 1: bparm(2)=30;bparm(3)=1;bparm(5)=0.031;bparm(6)=256;bparm(7)=25 6;bparm(8)=100 AIPS 1: go;szf=nfield;szc=cellsize;szi=imsize AIPS 1: vget imagr;if(lsparm(5)<0)then;cellsize=szc;else;cellsize=orgc ;end AIPS 1: if(lsparm(6)<0)then;imsize=256;nfield=szf;boxfile=bxf;else;ims ize=orgi;end AIPS 1: vput imagr AIPS 1: finish AIPS 1: AIPS 1: procedure imapipe(k,lsdisk,lsname) AIPS 1: vnum=33;dowait=true AIPS 1: if (k=1) then AIPS 1: task'SPLIT';getset;outdisk=indisk;outclass=inclass;docalib=2 AIPS 1: baddisk=lsbadd;douvcomp=-1;go AIPS 1: if (inclass='CH 0') then;inclass'LINE';outclass=inclass;doba nd=1;bpver=0 AIPS 1: go;end;end;clrtemp AIPS 1: task'TABGET';getset;inext'SU';invers=0;keyvalue=0;keystrng'';v put;clrtemp AIPS 1: task'IMAGR';getset;outdisk=indisk;flux=lsparm(8);baddisk=lsbad d;j=1 AIPS 1: while (j<9) AIPS 1: keyword='CTYPE'!!char(j);gethead;keyword='CRVAL'!!char(j);cl rtemp AIPS 1: if (keystrng='FREQ') then;gethead;j=9;else;j=j+1;end;end AIPS 1: cellsize=1.75e10/(keyvalue(1)*abs(lsparm(5)));do3dimag=1;overl ap=2;vput AIPS 1: keyword'NUM ROW';inext'SU';invers=0;keystrng'';getthead;clrtem p AIPS 1: for i=1:keyvalue(1) $ check if source is in index and uvfile e xists AIPS 1: vget tabget;pixxy=i,2,0;tabget;vget imagr;inname=keystrng;j= 1;intype'UV' AIPS 1: inseq=0;chkname;type ' ';niter=lsparm(7);lstarg=1;clrtemp;vp ut AIPS 1: if (error < 1) then $ source file exists, but same source nu mber ? AIPS 1: vget tabget;pixxy=i,1,0;tabget;error=1;k=1 AIPS 1: while ((lssid(k)>0) & (k<1001)) AIPS 1: if (lssid(k)=keyvalue(1))then error=0;end AIPS 1: k=k+1;end;end;vget imagr AIPS 1: if (error < 1) then AIPS 1: if ((lsparm(7)=1e6)&(lsparm(8)<0))then;flux=6*calcrms;end AIPS 1: if ((lsparm(6)<0)!(lsparm(5)<0))then;setimsize;else;imsize =lsparm(6);end AIPS 1: while (j<30) AIPS 1: k=length(inname) AIPS 1: if (substr(lsallcal(j),1,k)=substr(inname,1,k)) then $ c alibrator AIPS 1: lstarg=0;j=30 AIPS 1: if(lsparm(6)>=-0.99)then;niter=min(500,lsparm(7)) AIPS 1: nfield=1;boxfile'';imsize=min(256,lsparm(6)) AIPS 1: if(imsize(1)<0)then;imsize=256;end;end AIPS 1: else;j=j+1;end $ check next source, if not found -> targ et AIPS 1: end;if(substr(boxfile,1,1)<>' ')then;catboxfile;end AIPS 1: AIPS 1: j=1 AIPS 1: $calibrator lstarg=0 AIPS 1: $target if lstarg=1 AIPS 1: AIPS 1: AIPS 1: while (j<9) AIPS 1: keyword='CTYPE'!!char(j);gethead;keyword='NAXIS'!!char(j );clrtemp AIPS 1: if (keystrng='IF') then;gethead;j=9;else;j=j+1;end;end AIPS 1: type ' NOW STARTING WITH SOURCE :'!!char(i)!!' ='!! inname;type ' ' AIPS 1: if (inclass='CH 0') then AIPS 1: for k=1:keyvalue(1);bif=k;eif=k AIPS 1: if ((lstarg>0)!(lsparm(9)>0)) then;go;end AIPS 1: end;clrtemp;k=keyvalue(1) AIPS 1: inclass'LINE';keyvalue=0;keystrng'';j=1;chkname AIPS 1: if (error < 1) then AIPS 1: while (j<9) AIPS 1: keyword='CTYPE'!!char(j);gethead;clrtemp AIPS 1: if (keystrng='FREQ') then AIPS 1: keyword='NAXIS'!!char(j);gethead;echan=keyvalue(1) ;j=9 AIPS 1: else;j=j+1;end AIPS 1: end;bchan=floor(echan/10);echan=ceil(echan*9/10) AIPS 1: if (bchan=1) then;bchan=2;end;j=k AIPS 1: for k=1:j;bif=k;eif=k;if ((lstarg>0)!(lsparm(9)>1)) then;go;end AIPS 1: end;end;clrtemp AIPS 1: else AIPS 1: bif=1;eif=keyvalue(1);vput;out2disk=indisk AIPS 1: if ( (lsparm(10)=0) ! ((lsparm(9)<1)&(lstarg<1)) )then;g o;clrtemp AIPS 1: else AIPS 1: solint=lsparm(2);dotv=1;nmaps=lsparm(10);refant=lsrant ;aparm=4,0 AIPS 1: if (lsparm(10)<0) then;dotv=-1;nmaps=-1*nmaps;end;go s cimg;clrtemp AIPS 1: end;end;boxfile=setboxfle;delboxfle AIPS 1: inclass'IMAGR';inseq=0;intype'UV';indisk=lsdisk;allzap AIPS 1: $ inclass'SCIMG';allzap AIPS 1: inclass'IBM*';intype'MA';allzap AIPS 1: inclass'RBM*';allzap;inclass'LBM*';allzap;recat;clrtemp AIPS 1: else;type ' NO UV-FILE, SKIPPING SOURCE :'!!inname!!' =#' !!char(i) AIPS 1: end;end;dowait=false;vnum=0 AIPS 1: finish AIPS 1: AIPS 1: procedure avlapipe AIPS 1: tput avlapipe;vnum=33;vput avlapipe;pipeinpt;clrtemp AIPS 1: if (lserr <> 0) then; type '*** ERROR - ARE ALL INPUTS SET PRO PERLY ? ***' AIPS 1: else;lsclrcal;tint=guesintt;clrtemp AIPS 1: if (tint > 0) then;calpipe(lsdisk,lsname,lsrant);clrtemp AIPS 1: if (lsparm(1)>0) then;imapipe(1,lsdisk,lsname) AIPS 1: else;type'CALIBRATION DONE - SKIPPING SPLIT AND IMAGING' AIPS 1: type'--------------------------------------------------- --------' AIPS 1: end;type ' ' AIPS 1: if (lsplot>0) then;type 'VIEW CAL-PLOTS WITH GETSET;ALLPLO T';end;type ' ' AIPS 1: else;type '* * *';type 'SINGLE DISH VLBI EXPERIMENT?';type ' * * *';end AIPS 1: end;tget avlapipe;vnum=0;type'* APPEARS TO HAVE ENDED SUCCESSF ULLY *';clrtemp AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: default'AVLAPIPE' AIPS 1: Found in Version=ABIN AIPS 1: indisk 1; doalign -1; flagver 2; domodel 1 AIPS 1: docal 1; sources '*''' AIPS 1: $ to be set by itself later AIPS 1: solint 1; factor 5; doarray -1; imsize -1 AIPS 1: $imsize 512;$niter -1;cutoff -1;plver 0 AIPS 1: niter -1; cutoff -1 AIPS 1: $ for now debugging AIPS 1: docont 1; plver -1; doall 1; doresid 0 AIPS 1: AIPS 1: $ defaults AIPS 1: $ BADDISK 0$ INDISK 0$ DOCAT 1$ INNAME ' '$ INCLASS ' '$ INSEQ 0 AIPS 1: $ DOALIGN 1$ FLAgver 0$ SOLINT 0$ FACTOR 0$ REFANT 0$ DOMODEL -1 AIPS 1: $ KEYSTRNG ' '$ FLUX 0$ UVRANGE 0, 0$ SOURCES ' '$ CALSOUR ' ' AIPS 1: $ dopol 0$ bpa 0$ DOCONT 1$ PLVER 0$ DOALL -1$ DOARRAY -1 AIPS 1: $ IMSIZE 0, 0$ NITER 0$ CUTOFF 0$ DOCAL 0$ DORESID -1 >>::::>AIPS 1: 'AH687_1999NOV22_2' >>AIPS 1: 'AH687_1999NOV22_2' >AIPS 1: Found in Version=ABIN AIPS 1: $ Lorant Sjouwerman, versions 1.. 2005, for NRAO AIPS 1: AIPS 1: $$ General catalog looks like AIPS 1: $$ Multi-source UV data file AIPS 1: $$ Multi-source TASAV file AIPS 1: $$ Single-source calibrated data - auvf AIPS 1: $$ Single-source calibrated images- aimg AIPS 1: AIPS 1: $May need to redefine after a restore 0: AIPS 1: $allzap AIPS 1: $calcintt AIPS 1: $guesintt AIPS 1: $lsparm(5);tint;lsdisk AIPS 1: AIPS 1: procedure flatfov AIPS 1: $LOS - compile flatn-ed radius blank-ed images out to where pbco rr=2.5 (=xpb) AIPS 1: scalar uvi,mai,fov,frq,kk,tbw,tint,xpb,xcst,,fbw,fta;xpb=2.5 AIPS 1: clrname;indisk=lsdisk;intype'UV';chkname;uvi=1-error AIPS 1: if(uvi<3)then;type'ERROR: NO FILES PROCESSED !';else AIPS 1: if(uvi<4)then;type'WARNING: ONLY ONE UV-FILE - MAYBE CHECK?' ;end AIPS 1: getname 1;tint=guesintt;xcst=sqrt((3/ln(2))*(xpb-1)/xpb);kk= 1 AIPS 1: while (kk<5) AIPS 1: keyvalue=0;keystrng'';keyword='CTYPE'!!char(kk);gethead AIPS 1: if(substr(keystrng,1,4)='FREQ')then;keyword='CRVAL'!!char( kk) AIPS 1: keystrng'';gethead;frq=keyvalue(1);kk=5;else;kk=kk+1;end AIPS 1: end AIPS 1: for i=3:uvi;getname i AIPS 1: task'TABGET';inext'FQ';invers 1;keyword'NUM ROW';keystrng' ';getthead AIPS 1: for j=1:keyvalue(1) AIPS 1: pixxy=j,4,1;tabget;tbw=keyvalue(1) AIPS 1: pixxy=j,4,2;tabget;tbw=max(tbw,keyvalue(1)) AIPS 1: $ Actually imagr takes care of some of this bandwidth issue alre ady AIPS 1: $ so instead of maximum frequency span, use max individual bandw idth AIPS 1: end;inty'MA';inseq=0;inclass'*001';chkname;mai=1-error AIPS 1: if(mai>1)then;type'WARNING: MULTIPLE IMAGES - MAYBE CHECK? ';end AIPS 1: for j=1:mai $ assume inseq starts at 1.. AIPS 1: inseq=j;kk=1;cellsize=0;userid=0 AIPS 1: while (kk<5) AIPS 1: keyvalue=0;keystrng'';keyword='CTYPE'!!char(kk);gethea d AIPS 1: keyword='CDELT'!!char(kk);clrtemp AIPS 1: if(substr(keystrng,1,3)='RA-')then;gethead;cellsize(1)=k eyvalue(1);end AIPS 1: if(substr(keystrng,1,4)='DEC-')then;gethead;cellsize(2)= keyvalue(1);end AIPS 1: if(substr(keystrng,1,4)='FREQ')then;keyword='CRVAL'!!cha r(kk) AIPS 1: keystrng'';gethead;fov=keyvalue(1)/1e9;fov=1350/fov; end;kk=kk+1 AIPS 1: end;cellsize(1)=-1*cellsize(1)*3600;cellsize(2)=cellsize (2)*3600 AIPS 1: fta=min(1.75e10/(frq*abs(lsparm(5))),(min(cellsize(1),ce llsize(2)))) AIPS 1: fbw=xcst*3*fta*frq/tbw $ radius field/view due bandwidth AIPS 1: fta=xcst*3*fta/(tint*7.2722e-5) $ radius field/view due averaging AIPS 1: fov=min(fov,fbw);fov=min(fov,fta) $ min field/view ra dius, arcsec AIPS 1: imsize(1)=ceil(2*fov/cellsize(1));imsize(2)=ceil(2*fov/c ellsize(2)) AIPS 1: task'FLATN';inclass'?CL*';chkname;nfield=1-error;nmaps=1 ;clroname AIPS 1: outname=inname;coordina=0;reweight=0;doweight=0;edgskp=1 5;aparm=0 AIPS 1: pbparm=1/xpb,0;type'MINIMUM FOV :'!!char(fov)!!' ARCSEC RADIUS' AIPS 1: inclass'?CL001';go;wait;inclass'?CL*';allzap;recat;incla ss'FLATN' AIPS 1: tput;default blank;tget flatn;task'BLANK';opcode'RADI';d parm fov,0 AIPS 1: go;wait;allzap;recat AIPS 1: end;end;end AIPS 1: finish AIPS 1: AIPS 1: procedure nvasimage AIPS 1: $LOS - Determine noise, do primary beam correction, include copy right AIPS 1: scalar numfle,ll,mm AIPS 1: clrname;indisk=lsdisk;recat;chkname;numfle=1-error;mai=0 AIPS 1: while (intype<>'MA');mai=mai+1;getname mai;end AIPS 1: for j=mai:numfle;default imean;docat=1;getn j;keyvalue=0;keyst rng'' AIPS 1: keyword='CRPIX1';gethead;ll=keyvalue(1);keyword='CRPIX2';get head AIPS 1: mm=keyvalue(1);doinvers=1;blc(1)=ll-29;blc(2)=mm-30;trc(1)=l l+30 AIPS 1: trc(2)=mm+29;imstat;doinv=-1;blc=0;trc=0;rms=pixstd;go;wa AIPS 1: if(pixstd=rms)then;keyword'ACTNOISE';keytype'R';keyvalue=rms ,0;puthead;end AIPS 1: end AIPS 1: default'PBCOR';indisk=lsdisk;inclass'BLANK';chkname;pbparm=1/x pb,0 AIPS 1: for j=mai:numfle AIPS 1: getname mai;getoname mai;outclass'RADCOR';outseq=0;inclass'B LANK';chkname AIPS 1: if(error<1)then;outdisk=indisk;go;wait;zap;recat;end $ icl.. .->blanked file AIPS 1: end;default'CPYRT';indisk=lsdisk;recat;infile='AVLA:Arch_Cprt AIPS 1: for j=mai:numfle $ can only do on MA files AIPS 1: getname mai;getoname mai;outclass'NVAS06';go;wait;zap;recat AIPS 1: end AIPS 1: finish AIPS 1: AIPS 1: procedure nvasname AIPS 1: $LOS - makes the RA/Dec directory and returns the archive file n ame AIPS 1: scalar ki,ra1,ra2,dc1,dc2,st1,st2,nu1,nu2,bw,rh,rm,rs,dd,dm,ds ,rmsv,sbmv AIPS 1: string*1 pm,rmsc AIPS 1: string*2 zz AIPS 1: string*3 mmm AIPS 1: string*4 rmss,sbms,fras AIPS 1: string*5 radi AIPS 1: string*30 dir AIPS 1: string*20 expn AIPS 1: ki=1;userid=0 AIPS 1: while (ki<9) AIPS 1: keyvalue=0;keystrng'';keyword='CTYPE'!!char(ki);gethead AIPS 1: typ ki, keys AIPS 1: if(substr(keystrng,1,2)='RA')then AIPS 1: keyword='CRVAL'!!char(ki);gethead;ra1=keyvalue(1)/15;ra2=k eyvalue(2)/15 AIPS 1: keyword='CDELT'!!char(ki);gethead;cellsize(1)=-1*keyvalue( 1)*3600 AIPS 1: rh=floor(ra1);ra1=(ra1-rh)*60;rm=floor(ra1);ra1=(ra1-rm)*6 0 AIPS 1: rs=((floor((ra1+(3600*ra2))*1000)+5)/1000);clrtemp AIPS 1: $ if ((ra1+(3600*ra2))<10) then;rs=substr(char(ra1+(3600*ra 2)+0.005),1,3) AIPS 1: $ else;rs=substr(char(ra1+(3600*ra2)+0.005),1,4);end AIPS 1: if(abs(rs-floor(rs))<0.1)then;zz='.0';else;zz='';end;clrte mp AIPS 1: keyword='NAXIS'!!char(ki);gethead;ra1=0.5*keyvalue(1)*cell size(1);end AIPS 1: typ 'HERE' AIPS 1: if(substr(keystrng,1,3)='DEC')then AIPS 1: keyword='CRVAL'!!char(ki);gethead;dc1=keyvalue(1);dc2=keyv alue(2) AIPS 1: keyword='CDELT'!!char(ki);gethead;cellsize(2)=keyvalue(1)* 3600 AIPS 1: if(dc1<0)then;pm='-';dc1=-1*dc1;dc2=-1*dc2;else;pm='+';end AIPS 1: dd=floor(dc1);dc1=(dc1-dd)*60;dm=floor(dc1);dc1=(dc1-dm)*6 0 AIPS 1: ds=floor(dc1+(3600*dc2));clrtemp AIPS 1: keyword='NAXIS'!!char(ki);gethead;dc1=0.5*keyvalue(1)*cell size(2);end AIPS 1: if(substr(keystrng,1,4)='FREQ')then AIPS 1: keyword='CRVAL'!!char(ki);gethead;nu1=keyvalue(1)/1e6;nu2= keyvalue(2)/1e6 AIPS 1: keyword='CDELT'!!char(ki);gethead;bw=keyvalue(1)/1e6;end;c lrtemp AIPS 1: if(substr(keystrng,1,6)='STOKES')then AIPS 1: keyword='CRVAL'!!char(ki);gethead;st1=keyvalue(1) AIPS 1: keyword='CRPIX'!!char(ki);gethead;st2=keyvalue(1);clrtemp AIPS 1: end; AIPS 1: typ ki 'TOO' AIPS 1: if(substr(keystrng,1,1)='')then;ki=10;else;ki=ki+1;end AIPS 1: end;clrtemp $ build the output file name here AIPS 1: typ 'BUILD NOW' AIPS 1: if (intype='MA')then; $read conv size, rms from header, use im si*cell/2 for R AIPS 1: radi='S';ra2=0.5*(ra1+dc1-9);if(ra2>60)then;radi='M';ra2=ra2 /60;end $ R-fov AIPS 1: if(ra2>60)then;radi='D';ra2=ra2/60;end;radi=substr(char(ra2) ,1,4)!!radi AIPS 1: keyword='BMAJ';gethead;sbmv=keyvalue(1);keyword='BMIN';gethe ad AIPS 1: sbmv=1800*(sbmv+keyvalue(1));sbms=substr(char(sbmv),1,4) AIPS 1: AIPS 1: AIPS 1: AIPS 1: keyvalue=0;keystrng'';keyword='ACTNOISE';gethead;rmsv=keyval ue(1) $ RMS<1e4 AIPS 1: if(rmsv>1)then;rmsc='J';rmss=substr(char(rmsv),1,4);else;rms v=rmsv*1000 AIPS 1: if(rmsv>1)then;rmsc='M';rmss=substr(char(rmsv),1,4);else;r msv=rmsv*1000 AIPS 1: if(rmsv>1)then;rmsc='U';rmss=substr(char(rmsv),1,4);else AIPS 1: rmsv=rmsv*1000;rmsc='N';rmss=substr(char(rmsv),1,4) AIPS 1: end;end;end;clrtemp;fras='';sys2com(1)=' $aimg/ AIPS 1: else AIPS 1: ;clrtemp;sbms='';rmss='';rmsc='';sys2com(1)=' $auvf/ AIPS 1: end AIPS 1: AIPS 1: if (expnm='') then AIPS 1: keyword'OBSERVER';gethead;expnm=keystrng;keyword'DATE-OBS';get head AIPS 1: mmm=substr(keystrng,5,6) AIPS 1: if(mmm='01')then;mmm='JAN';end;if(mmm='02')then;mmm='FEB';end AIPS 1: if(mmm='03')then;mmm='MAR';end;if(mmm='04')then;mmm='APR';end AIPS 1: if(mmm='05')then;mmm='MAY';end;if(mmm='06')then;mmm='JUN';end AIPS 1: if(mmm='07')then;mmm='JUL';end;if(mmm='08')then;mmm='AUG';end AIPS 1: if(mmm='09')then;mmm='SEP';end;if(mmm='10')then;mmm='OCT';end AIPS 1: if(mmm='11')then;mmm='NOV';end;if(mmm='12')then;mmm='DEC';end AIPS 1: expnm=expnm!!'_'!!substr(keystrng,1,4)!!mmm!!substr(keystrng,7 ,8)!!'_X' AIPS 1: end AIPS 1: outfile=sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print outf AIPS 1: AIPS 1: $ make the source dir here AIPS 1: dir='';sysout'';syscom'mkdir AIPS 1: if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(rm );end AIPS 1: if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=cha r(rs)!!zz;end AIPS 1: $ sys2com(4)=substr(sys2com(4),1,4) AIPS 1: if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm! !char(dd);end AIPS 1: if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(dm );end AIPS 1: if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' QUACK1: Task QUACK (release of 31DEC06) begins QUACK1: Flagged 1.67 min. of data in 10 scans QUACK1: Appears to have ended successfully QUACK1: auto 31DEC06 TST: Cpu= 0.0 Real= 0 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes FLAGR1: Task FLAGR (release of 31DEC06) begins FLAGR1: Copied FG file from vol/cno/vers 1 1 1 to 1 1 2 FLAGR1: Overall average amp= 3.563E-02 +- 2.406E-03 source= 2230+697 FLAGR1: Overall average rms= 2.505E-03 +- 3.158E-04 source= 2230+697 FLAGR1: Overall average amp= 3.780E-03 +- 5.416E-04 source= CEPA FLAGR1: Overall average rms= 1.737E-03 +- 2.189E-04 source= CEPA FLAGR1: Overall average amp= 5.537E-01 +- 3.362E-02 source= 0137+331 FLAGR1: Overall average rms= 2.605E-03 +- 3.401E-04 source= 0137+331 FLAGR1: Found 58 bad times, 304 total flags FLAGR1: Wrote 5 antenna & IF independent flags FLAGR1: Wrote 54 antenna independent, IF dependent flags FLAGR1: Wrote 245 antenna & IF dependent flags FLAGR1: Wrote 0 antenna & IF dependent, all-times flags FLAGR1: Appears to have ended successfully FLAGR1: auto 31DEC06 TST: Cpu= 9.4 Real= 10 SETJY1: Task SETJY (release of 31DEC06) begins SETJY1: / Resetting flux information to zero SETJY1: BIF = 1 EIF = 2 /Range of IFs SETJY1: SOURCES = '' /All sources selected SETJY1: Appears to have ended successfully SETJY1: auto 31DEC06 TST: Cpu= 0.0 Real= 0 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes SETJY1: Task SETJY (release of 31DEC06) begins SETJY1: A source model for this calibrator may be available SETJY1: Use the verb CALDIR to see if there is one SETJY1: A source model for this calibrator may be available SETJY1: Use the verb CALDIR to see if there is one SETJY1: / Flux calculated using known spectrum SETJY1: BIF = 1 EIF = 2 /Range of IFs SETJY1: '0137+331 ' IF = 1 FLUX = 5.4054 (Jy calcd) SETJY1: '0137+331 ' IF = 2 FLUX = 5.4585 (Jy calcd) SETJY1: / Using (1999.2) VLA or Reynolds (1934-638) coefficients SETJY1: Appears to have ended successfully SETJY1: auto 31DEC06 TST: Cpu= 0.0 Real= 0 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes CALIB1: Task CALIB (release of 31DEC06) begins CALIB1: CALIB USING 19991122 . C BAND . 1 DISK= 1 USID=**** CALIB1: L1 Solution type CALIB1: Selecting, editing and calibrating the data CALIB1: Doing cal transfer mode with point model for each source CALIB1: This is not self-calibration CALIB1: Dividing data by source flux densities CALIB1: Determining solutions CALIB1: Writing SN table 1 CALIB1: Found 3256 good solutions CALIB1: Average closure rms = 0.0154 +- 0.0053 CALIB1: Fraction of times having data > 2.5 rms from solution CALIB1: 0.21696 of the times had 0 - 2 percent outside 2.5 times rms CALIB1: 0.15461 of the times had 2 - 4 percent outside 2.5 times rms CALIB1: 0.07731 of the times had 4 - 6 percent outside 2.5 times rms CALIB1: 0.02244 of the times had 6 - 8 percent outside 2.5 times rms CALIB1: 0.00499 of the times had 8 - 10 percent outside 2.5 times rms CALIB1: Adjusting solutions to a common reference antenna CALIB1: Appears to have ended successfully CALIB1: auto 31DEC06 TST: Cpu= 0.4 Real= 0 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: '0137+331 MODEL =' '3C48_C' AIPS 1: SYSTEM command to be executed is: AIPS 1: ls -1 $AIPSTARS/3C48_C.MODEL >& /dev/null CALRD1: Task CALRD (release of 31DEC06) begins CALRD1: Reading disk file AIPSTARS:3C48_C.MODEL CALRD1: Create 3C48_C .MODEL . 1 (MA) on disk 1 cno 2 CALRD1: Appears to have ended successfully CALRD1: auto 31DEC06 TST: Cpu= 0.0 Real= 0 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: '0137+331 MODEL =' '3C48_C' AIPS 1: SYSTEM command to be executed is: AIPS 1: ls -1 $AIPSTARS/3C48_C.MODEL >& /dev/null AIPS 1: Resumes CALIB1: Task CALIB (release of 31DEC06) begins CALIB1: CALIB USING 19991122 . C BAND . 1 DISK= 1 USID=**** CALIB1: L1 Solution type CALIB1: Selecting, editing and calibrating the data CALIB1: Doing self-cal mode with CC model CALIB1: SETGDS: imaging done with reprojected tangent point(s) CALIB1: FACSET: source model will be scaled to 5.405 Jy CALIB1: FACSET: 5.813153 Jy found from 196 components CALIB1: FACSET: scaling factor set to 9.29865E-01 CALIB1: VISDFT: Begin DFT component division CALIB1: VISDFT: Model components of type Point CALIB1: I Polarization model processed CALIB1: Model computation is 30 percent complete CALIB1: Model computation is 60 percent complete CALIB1: Model computation is 100 percent complete CALIB1: FACSET: source model will be scaled to 5.458 Jy CALIB1: FACSET: 5.813153 Jy found from 196 components CALIB1: FACSET: scaling factor set to 9.38986E-01 CALIB1: VISDFT: Begin DFT component division CALIB1: I Polarization model processed CALIB1: Field 1 used 196 CCs CALIB1: Determining solutions CALIB1: Deleted 121 records from SN table no. 1 CALIB1: Writing SN table 1 CALIB1: Found 484 good solutions CALIB1: Average closure rms = 0.0026 +- 0.0003 CALIB1: Fraction of times having data > 2.5 rms from solution CALIB1: 0.27273 of the times had 0 - 2 percent outside 2.5 times rms CALIB1: 0.18182 of the times had 2 - 4 percent outside 2.5 times rms CALIB1: 0.09091 of the times had 4 - 6 percent outside 2.5 times rms CALIB1: 0.01818 of the times had 6 - 8 percent outside 2.5 times rms CALIB1: 0.01818 of the times had 8 - 10 percent outside 2.5 times rms CALIB1: 0.01818 of the times had 10 - 12 percent outside 2.5 times rms CALIB1: Adjusting solutions to a common reference antenna CALIB1: Appears to have ended successfully CALIB1: auto 31DEC06 TST: Cpu= 0.8 Real= 1 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: '0137+331 MODEL =' '3C48_C' AIPS 1: SYSTEM command to be executed is: AIPS 1: ls -1 $AIPSTARS/3C48_C.MODEL >& /dev/null AIPS 1: Resumes AIPS 1: Resumes CLCAL1: Task CLCAL (release of 31DEC06) begins CLCAL1: Using interpolation mode 2PT CLCAL1: Processing SN table 1 CLCAL1: SNMRG: Merging SN table CLCAL1: SNMRG: Write 814 merged records from 814 input records CLCAL1: SN2CL: Applying SN tables to CL table 1, writing CL table 2 CLCAL1: Appears to have ended successfully CLCAL1: auto 31DEC06 TST: Cpu= 0.3 Real= 1 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: '0137+331 MODEL =' '3C48_C' AIPS 1: SYSTEM command to be executed is: AIPS 1: ls -1 $AIPSTARS/3C48_C.MODEL >& /dev/null AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes CLCAL1: Task CLCAL (release of 31DEC06) begins CLCAL1: Using interpolation mode SELF CLCAL1: Deleted 726 records from CL table no. 2 CLCAL1: Processing SN table 1 CLCAL1: WARNING: SN table 1 has already been applied CLCAL1: SNMRG: Merging SN table CLCAL1: SNMRG: Write 814 merged records from 814 input records CLCAL1: SN2CL: Applying SN tables to CL table 1, writing CL table 2 CLCAL1: Appears to have ended successfully CLCAL1: auto 31DEC06 TST: Cpu= 0.2 Real= 0 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: '0137+331 MODEL =' '3C48_C' AIPS 1: SYSTEM command to be executed is: AIPS 1: ls -1 $AIPSTARS/3C48_C.MODEL >& /dev/null AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes CALIB1: Task CALIB (release of 31DEC06) begins CALIB1: CALIB USING 19991122 . C BAND . 1 DISK= 1 USID=**** CALIB1: L1 Solution type CALIB1: Selecting, editing and calibrating the data CALIB1: Doing cal transfer mode with point model for each source CALIB1: This is not self-calibration CALIB1: Dividing data by source flux densities CALIB1: Determining solutions CALIB1: Writing SN table 2 CALIB1: RPOL, IF= 1 The average gain over these antennas is 5.003E+00 CALIB1: RPOL, IF= 2 The average gain over these antennas is 5.017E+00 CALIB1: LPOL, IF= 1 The average gain over these antennas is 5.011E+00 CALIB1: LPOL, IF= 2 The average gain over these antennas is 5.076E+00 CALIB1: Found 660 good solutions CALIB1: Average closure rms = 0.0006 +- 0.0001 CALIB1: Fraction of times having data > 2.5 rms from solution CALIB1: 0.14583 of the times had 0 - 2 percent outside 2.5 times rms CALIB1: 0.02083 of the times had 2 - 4 percent outside 2.5 times rms CALIB1: 0.05208 of the times had 8 - 10 percent outside 2.5 times rms CALIB1: 0.01042 of the times had 10 - 12 percent outside 2.5 times rms CALIB1: 0.02083 of the times had 14 - 16 percent outside 2.5 times rms CALIB1: Adjusting solutions to a common reference antenna CALIB1: Appears to have ended successfully CALIB1: auto 31DEC06 TST: Cpu= 0.3 Real= 0 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: '0137+331 MODEL =' '3C48_C' AIPS 1: SYSTEM command to be executed is: AIPS 1: ls -1 $AIPSTARS/3C48_C.MODEL >& /dev/null AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes CALIB1: Task CALIB (release of 31DEC06) begins CALIB1: CALIB USING 19991122 . C BAND . 1 DISK= 1 USID=**** CALIB1: L1 Solution type CALIB1: Selecting, editing and calibrating the data CALIB1: Doing self-cal mode with CC model CALIB1: SETGDS: imaging done with reprojected tangent point(s) CALIB1: FACSET: source model will be scaled to 5.405 Jy CALIB1: FACSET: 5.813153 Jy found from 196 components CALIB1: FACSET: scaling factor set to 9.29865E-01 CALIB1: VISDFT: Begin DFT component division CALIB1: VISDFT: Model components of type Point CALIB1: I Polarization model processed CALIB1: Model computation is 30 percent complete CALIB1: Model computation is 60 percent complete CALIB1: Model computation is 100 percent complete CALIB1: FACSET: source model will be scaled to 5.458 Jy CALIB1: FACSET: 5.813153 Jy found from 196 components CALIB1: FACSET: scaling factor set to 9.38986E-01 CALIB1: VISDFT: Begin DFT component division CALIB1: I Polarization model processed CALIB1: Field 1 used 196 CCs CALIB1: Determining solutions CALIB1: Deleted 22 records from SN table no. 2 CALIB1: Writing SN table 2 CALIB1: RPOL, IF= 1 The average gain over these antennas is 3.071E+00 CALIB1: RPOL, IF= 2 The average gain over these antennas is 3.079E+00 CALIB1: LPOL, IF= 1 The average gain over these antennas is 3.070E+00 CALIB1: LPOL, IF= 2 The average gain over these antennas is 3.106E+00 CALIB1: Found 88 good solutions CALIB1: Average closure rms = 0.0005 +- 0.0001 CALIB1: Fraction of times having data > 2.5 rms from solution CALIB1: 0.11111 of the times had 0 - 2 percent outside 2.5 times rms CALIB1: 0.44444 of the times had 2 - 4 percent outside 2.5 times rms CALIB1: 0.11111 of the times had 4 - 6 percent outside 2.5 times rms CALIB1: 0.11111 of the times had 6 - 8 percent outside 2.5 times rms CALIB1: Adjusting solutions to a common reference antenna CALIB1: Appears to have ended successfully CALIB1: auto 31DEC06 TST: Cpu= 0.7 Real= 1 GETJY1: Task GETJY (release of 31DEC06) begins GETJY1: Source:Qual CALCODE IF Flux (Jy) GETJY1: 2230+697 : 0 A 1 0.33603 +/- 0.00148 GETJY1: 2 0.33556 +/- 0.00147 GETJY1: Appears to have ended successfully GETJY1: auto 31DEC06 TST: Cpu= 0.0 Real= 0 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: '0137+331 MODEL =' '3C48_C' AIPS 1: SYSTEM command to be executed is: AIPS 1: ls -1 $AIPSTARS/3C48_C.MODEL >& /dev/null AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Destroyed 1 extension files of type CC AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 2 disk= 1 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: '0137+331 MODEL =' '3C48_C' AIPS 1: SYSTEM command to be executed is: AIPS 1: ls -1 $AIPSTARS/3C48_C.MODEL >& /dev/null AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Destroyed 1 extension files of type CC AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 2 disk= 1 AIPS 1: Resumes CLCAL1: Task CLCAL (release of 31DEC06) begins CLCAL1: Using interpolation mode 2PT CLCAL1: Processing SN table 2 CLCAL1: SNMRG: Merging SN table CLCAL1: SNMRG: Write 165 merged records from 165 input records CLCAL1: SN2CL: Applying SN tables to CL table 2, writing CL table 3 CLCAL1: Appears to have ended successfully CLCAL1: auto 31DEC06 TST: Cpu= 0.3 Real= 0 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: '0137+331 MODEL =' '3C48_C' AIPS 1: SYSTEM command to be executed is: AIPS 1: ls -1 $AIPSTARS/3C48_C.MODEL >& /dev/null AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Destroyed 1 extension files of type CC AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 2 disk= 1 AIPS 1: Resumes AIPS 1: Resumes CLCAL1: Task CLCAL (release of 31DEC06) begins CLCAL1: Using interpolation mode SELF CLCAL1: Deleted 726 records from CL table no. 3 CLCAL1: Processing SN table 2 CLCAL1: WARNING: SN table 2 has already been applied CLCAL1: SNMRG: Merging SN table CLCAL1: SNMRG: Write 165 merged records from 165 input records CLCAL1: SN2CL: Applying SN tables to CL table 2, writing CL table 3 CLCAL1: Appears to have ended successfully CLCAL1: auto 31DEC06 TST: Cpu= 0.2 Real= 0 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: '0137+331 MODEL =' '3C48_C' AIPS 1: SYSTEM command to be executed is: AIPS 1: ls -1 $AIPSTARS/3C48_C.MODEL >& /dev/null AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Destroyed 1 extension files of type CC AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 2 disk= 1 AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes TASAV1: Task TASAV (release of 31DEC06) begins TASAV1: Create 19991122 .TASAV . 1 (UV) on disk 1 cno 2 TASAV1: Copied AN file from vol/cno/vers 1 1 1 to 1 2 1 TASAV1: Copied NX file from vol/cno/vers 1 1 1 to 1 2 1 TASAV1: Copied SU file from vol/cno/vers 1 1 1 to 1 2 1 TASAV1: Copied FQ file from vol/cno/vers 1 1 1 to 1 2 1 TASAV1: Copied CL file from vol/cno/vers 1 1 1 to 1 2 1 TASAV1: Copied CL file from vol/cno/vers 1 1 2 to 1 2 2 TASAV1: Copied CL file from vol/cno/vers 1 1 3 to 1 2 3 TASAV1: Copied TY file from vol/cno/vers 1 1 1 to 1 2 1 TASAV1: Copied WX file from vol/cno/vers 1 1 1 to 1 2 1 TASAV1: Copied OF file from vol/cno/vers 1 1 1 to 1 2 1 TASAV1: Copied FG file from vol/cno/vers 1 1 1 to 1 2 1 TASAV1: Copied FG file from vol/cno/vers 1 1 2 to 1 2 2 TASAV1: Copied XX file from vol/cno/vers 1 1 1 to 1 2 1 TASAV1: Copied SN file from vol/cno/vers 1 1 1 to 1 2 1 TASAV1: Copied SN file from vol/cno/vers 1 1 2 to 1 2 2 TASAV1: Appears to have ended successfully TASAV1: auto 31DEC06 TST: Cpu= 0.2 Real= 1 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: '0137+331 MODEL =' '3C48_C' AIPS 1: SYSTEM command to be executed is: AIPS 1: ls -1 $AIPSTARS/3C48_C.MODEL >& /dev/null AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Destroyed 1 extension files of type CC AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 2 disk= 1 AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes SPLIT1: Task SPLIT (release of 31DEC06) begins SPLIT1: You are using a non-standard program SPLIT1: Doing subarray 1 SPLIT1: Create 2230+697 .C BAND. 1 (UV) on disk 1 cno 3 SPLIT1: Applying CL Table version 3 SPLIT1: Previously flagged flagged by gain kept SPLIT1: Partially 3386 0 3386 SPLIT1: Fully 0 0 44629 SPLIT1: Copied AN file from vol/cno/vers 1 1 1 to 1 3 1 SPLIT1: Copied WX file from vol/cno/vers 1 1 1 to 1 3 1 SPLIT1: Copied OF file from vol/cno/vers 1 1 1 to 1 3 1 SPLIT1: Copied XX file from vol/cno/vers 1 1 1 to 1 3 1 SPLIT1: Create CEPA .C BAND. 1 (UV) on disk 1 cno 4 SPLIT1: Previously flagged flagged by gain kept SPLIT1: Partially 10688 0 10688 SPLIT1: Fully 0 0 136877 SPLIT1: Copied AN file from vol/cno/vers 1 1 1 to 1 4 1 SPLIT1: Copied WX file from vol/cno/vers 1 1 1 to 1 4 1 SPLIT1: Copied OF file from vol/cno/vers 1 1 1 to 1 4 1 SPLIT1: Copied XX file from vol/cno/vers 1 1 1 to 1 4 1 SPLIT1: Create 0137+331 .C BAND. 1 (UV) on disk 1 cno 5 SPLIT1: Previously flagged flagged by gain kept SPLIT1: Partially 227 0 227 SPLIT1: Fully 0 0 8243 SPLIT1: Copied AN file from vol/cno/vers 1 1 1 to 1 5 1 SPLIT1: Copied WX file from vol/cno/vers 1 1 1 to 1 5 1 SPLIT1: Copied OF file from vol/cno/vers 1 1 1 to 1 5 1 SPLIT1: Copied XX file from vol/cno/vers 1 1 1 to 1 5 1 SPLIT1: Appears to have ended successfully SPLIT1: auto 31DEC06 TST: Cpu= 0.7 Real= 1 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: '0137+331 MODEL =' '3C48_C' AIPS 1: SYSTEM command to be executed is: AIPS 1: ls -1 $AIPSTARS/3C48_C.MODEL >& /dev/null AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Destroyed 1 extension files of type CC AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 2 disk= 1 AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: ' ' AIPS 1: 'ESTIMATED RMS:' '0.02466 MILLI JANSKY' AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@2230+697_C,BAND.0-1 >& /dev/null SETFC1: Task SETFC (release of 31DEC06) begins SETFC1: Found 2230+697 C BAND Seq 1 Disk: 1 in slot 3 SETFC1: SETCEL: recommends IMSIZE 1071 CELLSIZE 0.51604 SETFC1: SETCEL: returns IMSIZE 1024 CELLSIZE 0.51604 SETFC1: ZTXOP2: using translated file name = SETFC1: ZTXOP2: /tmp/SETFC@2230+697_C,BAND.0-1 SETFC1: FLYEYE added 7 fields to BOXFILE to 0.122 deg SETFC1: Searching catalog between 0.12 and 0.23 degrees radius SETFC1: ZTXOP2: using translated file name = SETFC1: ZTXOP2: /home/auto/aips/TEXT/STARS/NV00.0030 SETFC1: No NVSS sources selected for BOXFILE SETFC1: The Sun is 112.4 deg away - ignoring SETFC1: First field number written was 1 SETFC1: Highest field number written was 7 SETFC1: returns adverbs to AIPS SETFC1: Appears to have ended successfully SETFC1: auto 31DEC06 TST: Cpu= 1.8 Real= 1 C 1 1012 1012 22 30 36.47 69 46 28.1 00001 -1 507 512 513 C 2 1012 1012 22 30 36.47 69 39 08.8 00002 -1 507 512 513 C 3 1012 1012 22 29 23.32 69 42 47.5 00003 -1 507 512 513 C 4 1012 1012 22 31 49.62 69 42 47.5 00004 -1 507 512 513 C 5 1012 1012 22 29 22.89 69 50 06.8 00005 -1 507 512 513 C 6 1012 1012 22 31 50.05 69 50 06.8 00006 -1 507 512 513 C 7 1012 1012 22 30 36.47 69 53 47.4 00007 -1 507 512 513 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: '0137+331 MODEL =' '3C48_C' AIPS 1: SYSTEM command to be executed is: AIPS 1: ls -1 $AIPSTARS/3C48_C.MODEL >& /dev/null AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Destroyed 1 extension files of type CC AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 2 disk= 1 AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: ' ' AIPS 1: 'ESTIMATED RMS:' '0.02466 MILLI JANSKY' AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@2230+697_C,BAND.0-1 >& /dev/null AIPS 1: Waiting for returned adverbs AIPS 1: Resumes AIPS 1: SYSTEM command to be executed is: AIPS 1: cat /tmp/SETFC@2230+697_C,BAND.0-1 >> /home/auto/run/AH687_1999N AIPS 1: OV22_2.log.0 AIPS 1: ' NOW STARTING WITH SOURCE :1 =2230+697' AIPS 1: ' ' IMAGR1: Task IMAGR (release of 31DEC06) begins IMAGR1: ZTXOP2: using translated file name = IMAGR1: ZTXOP2: /tmp/SETFC@2230+697_C,BAND.0-1 IMAGR1: FIELDF: Final field parameters and # read are: IMAGR1: Field 1 1012 1012 1.5557E-03 2.3000E-02 0 IMAGR1: Field 2 1012 1012 1.5557E-03 -4.3928E+02 0 IMAGR1: Field 3 1012 1012 -3.7934E+02 -2.2058E+02 0 IMAGR1: Field 4 1012 1012 3.7934E+02 -2.2058E+02 0 IMAGR1: Field 5 1012 1012 -3.8157E+02 2.1872E+02 0 IMAGR1: Field 6 1012 1012 3.8157E+02 2.1872E+02 0 IMAGR1: Field 7 1012 1012 1.5557E-03 4.3932E+02 0 IMAGR1: ZTXOP2: using translated file name = IMAGR1: ZTXOP2: /tmp/SETFC@2230+697_C,BAND.0-1 IMAGR1: WINDF: Number of clean boxes/field read as follows: IMAGR1: Field 01: 1 Field 02: 1 Field 03: 1 Field 04: 1 IMAGR1: Field 05: 1 Field 06: 1 Field 07: 1 IMAGR1: Create 2230+697 .IMAGR . 1 (UV) on disk 1 cno 6 IMAGR1: Beginning channel 1 through 1 with 2 IFs IMAGR1: IMACPY: Copied 48015 visibilities to be imaged IMAGR1: **** WARNING data included out of inner portion of UV plane **** IMAGR1: **** Watch for high-frequency & other poor cleaning effects **** IMAGR1: UVWAIT: begin finding uniform weights IMAGR1: UVWAIT: Average grid weight 6.100E+04 IMAGR1: UVWAIT: Adding temperance S 1.220E+04 IMAGR1: UVWAIT: begin applying uniform or other weights IMAGR1: UVWAIT: Sum of weights in 1.317E+08 and out 2.000E+08 IMAGR1: UVWAIT: Noise is increased by a factor 1.147 due to weighting IMAGR1: UVWAIT: Average summed weight 6.100E+04 over 95970 vis IMAGR1: Create 2230+697 .IBM001. 1 (MA) on disk 1 cno 7 IMAGR1: Create 2230+697 .IBM002. 1 (MA) on disk 1 cno 8 IMAGR1: Create 2230+697 .IBM003. 1 (MA) on disk 1 cno 9 IMAGR1: Create 2230+697 .IBM004. 1 (MA) on disk 1 cno 10 IMAGR1: Create 2230+697 .IBM005. 1 (MA) on disk 1 cno 11 IMAGR1: Create 2230+697 .IBM006. 1 (MA) on disk 1 cno 12 IMAGR1: Create 2230+697 .IBM007. 1 (MA) on disk 1 cno 13 IMAGR1: Create 2230+697 .ICL001. 1 (MA) on disk 1 cno 14 IMAGR1: Create 2230+697 .ICL002. 1 (MA) on disk 1 cno 15 IMAGR1: Create 2230+697 .ICL003. 1 (MA) on disk 1 cno 16 IMAGR1: Create 2230+697 .ICL004. 1 (MA) on disk 1 cno 17 IMAGR1: Create 2230+697 .ICL005. 1 (MA) on disk 1 cno 18 IMAGR1: Create 2230+697 .ICL006. 1 (MA) on disk 1 cno 19 IMAGR1: Create 2230+697 .ICL007. 1 (MA) on disk 1 cno 20 IMAGR1: GRDFLT: X and Y convolution type = SPHEROIDAL IMAGR1: GRDFLT: X and Y parms = 3.0000 1.0000 IMAGR1: GRDFLT: convolution function sampled every 1/100 of a cell IMAGR1: GRDMEM: Ave 2 Channels; 4.885100E+09 to 4.835100E+09 Hz IMAGR1: Field 1 Sum of gridding weights = 2.12293E+09 IMAGR1: Field 1 Beam min = -161.2 MilliJy, max = 1.0 Jy IMAGR1: Field 1 fit FWHM = 1.981 x 1.246 arcsec, PA= -20.1 IMAGR1: Field 2 Sum of gridding weights = 2.12293E+09 IMAGR1: Field 2 Beam min = -161.2 MilliJy, max = 1.0 Jy IMAGR1: Field 2 fit FWHM = 1.979 x 1.246 arcsec, PA= -20.2 IMAGR1: Field 3 Sum of gridding weights = 2.12293E+09 IMAGR1: Field 3 Beam min = -160.6 MilliJy, max = 1.0 Jy IMAGR1: Field 3 fit FWHM = 1.980 x 1.245 arcsec, PA= -20.5 IMAGR1: Field 4 Sum of gridding weights = 2.12293E+09 IMAGR1: Field 4 Beam min = -161.8 MilliJy, max = 1.0 Jy IMAGR1: Field 4 fit FWHM = 1.979 x 1.247 arcsec, PA= -19.9 IMAGR1: Field 5 Sum of gridding weights = 2.12293E+09 IMAGR1: Field 5 Beam min = -160.6 MilliJy, max = 1.0 Jy IMAGR1: Field 5 fit FWHM = 1.983 x 1.246 arcsec, PA= -20.4 IMAGR1: Field 6 Sum of gridding weights = 2.12293E+09 IMAGR1: Field 6 Beam min = -161.8 MilliJy, max = 1.0 Jy IMAGR1: Field 6 fit FWHM = 1.981 x 1.247 arcsec, PA= -19.8 IMAGR1: Field 7 Sum of gridding weights = 2.12293E+09 IMAGR1: Field 7 Beam min = -161.2 MilliJy, max = 1.0 Jy IMAGR1: Field 7 fit FWHM = 1.983 x 1.246 arcsec, PA= -20.1 IMAGR1: CLBHIS: minimum component 0.328 of current peak IMAGR1: Field 1 min = -53.9 MilliJy,max = 335.2 MilliJy IMAGR1: Field 2 min = -20.6 MilliJy,max = 14.3 MilliJy IMAGR1: Field 3 min = -22.3 MilliJy,max = 18.9 MilliJy IMAGR1: Field 4 min = -21.4 MilliJy,max = 19.5 MilliJy IMAGR1: Field 5 min = -21.8 MilliJy,max = 20.0 MilliJy IMAGR1: Field 6 min = -21.3 MilliJy,max = 19.2 MilliJy IMAGR1: Field 7 min = -20.4 MilliJy,max = 14.3 MilliJy IMAGR1: BGC Clean: using 2043 cell beam + residuals > 12.37 MilliJy IMAGR1: 15228 Residual map points loaded IMAGR1: Field 1 min allowed flux = 105.190 MilliJy iter= 12 IMAGR1: Field 1 Clean flux density= 240.532 MilliJy 12 comps IMAGR1: Total Cleaned flux density = 240.532 MilliJy 12 comps IMAGR1: SETDO3: imaging done with multiple tangent planes IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: VISDFT: Model components of type Point IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -15.6 MilliJy,max = 94.7 MilliJy IMAGR1: BGC Clean: using 311 cell beam + residuals > 9.17 MilliJy IMAGR1: 341 Residual map points loaded IMAGR1: Field 1 min allowed flux = 29.710 MilliJy iter= 24 IMAGR1: Field 1 Clean flux density= 308.467 MilliJy 24 comps IMAGR1: Total Cleaned flux density = 308.467 MilliJy 24 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -5.6 MilliJy,max = 27.2 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 8.64 MilliJy IMAGR1: 10 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 11.410 MilliJy iter= 34 IMAGR1: Field 1 Clean flux density= 326.778 MilliJy 34 comps IMAGR1: Total Cleaned flux density = 326.778 MilliJy 34 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -766.3 MicroJy,max = 1.0 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 7.182E-04 < Second best 1.945E-02 IMAGR1: Field 7 min = -814.7 MicroJy,max = 1.0 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 7.798E-04 < Second best 1.914E-02 IMAGR1: Field 5 min = -1.1 MilliJy,max = 861.2 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 7.850E-04 < Second best 1.867E-02 IMAGR1: Field 4 min = -819.4 MicroJy,max = 881.2 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 8.432E-04 < Second best 1.835E-02 IMAGR1: Field 6 min = -865.5 MicroJy,max = 1.0 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 8.949E-04 < Second best 1.808E-02 IMAGR1: Field 3 min = -1.1 MilliJy,max = 958.8 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 9.088E-04 < Second best 1.085E-02 IMAGR1: Field 1 min = -2.7 MilliJy,max = 10.5 MilliJy IMAGR1: BGC Clean: using 1321 cell beam + residuals > 515.70 MicroJy IMAGR1: 11447 Residual map points loaded IMAGR1: Field 1 min allowed flux = 3.391 MilliJy iter= 47 IMAGR1: Field 1 Clean flux density= 334.926 MilliJy 47 comps IMAGR1: Total Cleaned flux density = 334.926 MilliJy 47 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -1.5 MilliJy,max = 3.1 MilliJy IMAGR1: BGC Clean: using 195 cell beam + residuals > 484.40 MicroJy IMAGR1: 1227 Residual map points loaded IMAGR1: Field 1 min allowed flux = -1.003 MilliJy iter= 84 IMAGR1: Field 1 Clean flux density= 336.832 MilliJy 84 comps IMAGR1: Total Cleaned flux density = 336.832 MilliJy 84 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -963.5 MicroJy,max = 1.0 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 456.90 MicroJy IMAGR1: 376 Residual map points loaded IMAGR1: Field 1 min algorithm flux= -637.923 MicroJy iter= 124 IMAGR1: Field 1 Clean flux density= 337.102 MilliJy 124 comps IMAGR1: Total Cleaned flux density = 337.102 MilliJy 124 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -598.4 MicroJy,max = 695.6 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 5.887E-04 < Second best 8.949E-04 IMAGR1: Field 6 min = -712.0 MicroJy,max = 664.4 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 6.162E-04 < Second best 8.432E-04 IMAGR1: Field 4 min = -643.9 MicroJy,max = 686.1 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 6.314E-04 < Second best 7.850E-04 IMAGR1: Field 5 min = -594.5 MicroJy,max = 687.7 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 6.414E-04 < Second best 7.798E-04 IMAGR1: Field 7 min = -610.9 MicroJy,max = 613.5 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 5.880E-04 < Second best 7.182E-04 IMAGR1: Field 2 min = -662.6 MicroJy,max = 624.0 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 372.23 MicroJy IMAGR1: 3087 Residual map points loaded IMAGR1: Field 2 min algorithm flux= 515.441 MicroJy iter= 58 IMAGR1: Field 2 Clean flux density= 637.691 MicroJy 58 comps IMAGR1: Total Cleaned flux density = 337.740 MilliJy 182 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -595.2 MicroJy,max = 683.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 372.10 MicroJy IMAGR1: 2946 Residual map points loaded IMAGR1: Field 5 min algorithm flux= -500.003 MicroJy iter= 72 IMAGR1: Field 5 Clean flux density= 1.187 MilliJy 72 comps IMAGR1: Total Cleaned flux density = 338.926 MilliJy 254 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -639.5 MicroJy,max = 667.2 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 5.573E-04 < Second best 6.162E-04 IMAGR1: Field 6 min = -696.5 MicroJy,max = 667.2 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 370.92 MicroJy IMAGR1: 2550 Residual map points loaded IMAGR1: Field 6 min algorithm flux= 487.089 MicroJy iter= 90 IMAGR1: Field 6 Clean flux density= 389.804 MicroJy 90 comps IMAGR1: Total Cleaned flux density = 339.316 MilliJy 344 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -748.7 MicroJy,max = 660.7 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 368.49 MicroJy IMAGR1: 1541 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 471.002 MicroJy iter= 230 IMAGR1: Field 1 Clean flux density= 337.830 MilliJy 230 comps IMAGR1: Total Cleaned flux density = 340.045 MilliJy 450 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -559.5 MicroJy,max = 667.1 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 366.97 MicroJy IMAGR1: 2276 Residual map points loaded IMAGR1: Field 3 min algorithm flux= 461.612 MicroJy iter= 126 IMAGR1: Field 3 Clean flux density= 2.696 MilliJy 126 comps IMAGR1: Total Cleaned flux density = 342.741 MilliJy 576 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 3 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 7 min = -591.5 MicroJy,max = 596.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 364.36 MicroJy IMAGR1: 2754 Residual map points loaded IMAGR1: Field 7 min algorithm flux= -458.239 MicroJy iter= 161 IMAGR1: Field 7 Clean flux density= 865.315 MicroJy 161 comps IMAGR1: Total Cleaned flux density = 343.606 MilliJy 737 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 7 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 4 min = -622.4 MicroJy,max = 627.8 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 362.97 MicroJy IMAGR1: 2110 Residual map points loaded IMAGR1: Field 4 min algorithm flux= 441.530 MicroJy iter= 169 IMAGR1: Field 4 Clean flux density= 343.280 MicroJy 169 comps IMAGR1: Total Cleaned flux density = 343.950 MilliJy 906 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 4 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 2 min = -536.8 MicroJy,max = 566.1 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 358.45 MicroJy IMAGR1: 2017 Residual map points loaded IMAGR1: Field 2 min algorithm flux= 428.119 MicroJy iter= 249 IMAGR1: Field 2 Clean flux density= 1.733 MilliJy 249 comps IMAGR1: Total Cleaned flux density = 345.045 MilliJy 1097 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 2 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 5 min = -537.6 MicroJy,max = 635.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 353.48 MicroJy IMAGR1: 1964 Residual map points loaded IMAGR1: Field 5 min algorithm flux= -415.665 MicroJy iter= 280 IMAGR1: Field 5 Clean flux density= 1.805 MilliJy 280 comps IMAGR1: Total Cleaned flux density = 345.663 MilliJy 1305 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 5 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 6 min = -641.1 MicroJy,max = 619.0 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 348.43 MicroJy IMAGR1: 1675 Residual map points loaded IMAGR1: Field 6 min algorithm flux= -401.326 MicroJy iter= 300 IMAGR1: Field 6 Clean flux density= -179.217 MicroJy 300 comps IMAGR1: Total Cleaned flux density = 345.094 MilliJy 1515 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 6 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 1 min = -645.2 MicroJy,max = 563.0 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 344.72 MicroJy IMAGR1: 726 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 379.591 MicroJy iter= 388 IMAGR1: Field 1 Clean flux density= 337.997 MilliJy 388 comps IMAGR1: Total Cleaned flux density = 345.260 MilliJy 1673 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 1 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 3 min = -505.2 MicroJy,max = 592.2 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 339.56 MicroJy IMAGR1: 1497 Residual map points loaded IMAGR1: Field 3 min algorithm flux= 382.812 MicroJy iter= 350 IMAGR1: Field 3 Clean flux density= 2.598 MilliJy 350 comps IMAGR1: Total Cleaned flux density = 345.162 MilliJy 1897 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 3 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 7 min = -478.7 MicroJy,max = 540.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 332.63 MicroJy IMAGR1: 2010 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 376.850 MicroJy iter= 426 IMAGR1: Field 7 Clean flux density= 1.843 MilliJy 426 comps IMAGR1: Total Cleaned flux density = 346.140 MilliJy 2162 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 7 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 4 min = -563.3 MicroJy,max = 539.8 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 326.33 MicroJy IMAGR1: 1627 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -364.474 MicroJy iter= 433 IMAGR1: Field 4 Clean flux density= 191.313 MicroJy 433 comps IMAGR1: Total Cleaned flux density = 345.988 MilliJy 2426 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 4 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 2 min = -478.1 MicroJy,max = 504.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 319.42 MicroJy IMAGR1: 1610 Residual map points loaded IMAGR1: Field 2 min algorithm flux= 353.841 MicroJy iter= 518 IMAGR1: Field 2 Clean flux density= 2.927 MilliJy 518 comps IMAGR1: Total Cleaned flux density = 347.182 MilliJy 2695 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 2 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 5 min = -488.9 MicroJy,max = 574.7 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 312.54 MicroJy IMAGR1: 1688 Residual map points loaded IMAGR1: Field 5 min algorithm flux= 344.656 MicroJy iter= 566 IMAGR1: Field 5 Clean flux density= 2.868 MilliJy 566 comps IMAGR1: Total Cleaned flux density = 348.245 MilliJy 2981 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 5 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 6 min = -549.2 MicroJy,max = 533.9 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 306.44 MicroJy IMAGR1: 1493 Residual map points loaded IMAGR1: Field 6 min algorithm flux= -334.577 MicroJy iter= 580 IMAGR1: Field 6 Clean flux density= -893.857 MicroJy 580 comps IMAGR1: Total Cleaned flux density = 347.530 MilliJy 3261 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 6 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 3 min = -439.6 MicroJy,max = 514.3 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 3.461E-04 < Second best 3.639E-04 IMAGR1: Field 1 min = -539.0 MicroJy,max = 487.9 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 3.402E-04 < Second best 3.617E-04 IMAGR1: Field 7 min = -451.3 MicroJy,max = 490.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 291.36 MicroJy IMAGR1: 2276 Residual map points loaded IMAGR1: Field 7 min algorithm flux= -321.882 MicroJy iter= 778 IMAGR1: Field 7 Clean flux density= 2.439 MilliJy 778 comps IMAGR1: Total Cleaned flux density = 348.126 MilliJy 3613 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 7 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 4 min = -521.9 MicroJy,max = 460.7 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 286.04 MicroJy IMAGR1: 1865 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -311.728 MicroJy iter= 766 IMAGR1: Field 4 Clean flux density= 786.655 MicroJy 766 comps IMAGR1: Total Cleaned flux density = 348.721 MilliJy 3946 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 4 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 3 min = -430.1 MicroJy,max = 499.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 285.05 MicroJy IMAGR1: 1771 Residual map points loaded IMAGR1: Field 3 min algorithm flux= 310.379 MicroJy iter= 706 IMAGR1: Field 3 Clean flux density= 3.334 MilliJy 706 comps IMAGR1: Total Cleaned flux density = 349.457 MilliJy 4302 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 3 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 1 min = -486.3 MicroJy,max = 408.7 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 284.07 MicroJy IMAGR1: 376 Residual map points loaded IMAGR1: Field 1 min algorithm flux= -293.955 MicroJy iter= 534 IMAGR1: Field 1 Clean flux density= 338.237 MilliJy 534 comps IMAGR1: Total Cleaned flux density = 349.697 MilliJy 4448 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 1 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 2 min = -423.2 MicroJy,max = 441.0 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 277.46 MicroJy IMAGR1: 1291 Residual map points loaded IMAGR1: Field 2 min algorithm flux= 295.900 MicroJy iter= 817 IMAGR1: Field 2 Clean flux density= 3.448 MilliJy 817 comps IMAGR1: Total Cleaned flux density = 350.218 MilliJy 4747 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 2 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 5 min = -447.9 MicroJy,max = 502.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 270.66 MicroJy IMAGR1: 1430 Residual map points loaded IMAGR1: Field 5 min algorithm flux= -288.868 MicroJy iter= 888 IMAGR1: Field 5 Clean flux density= 2.690 MilliJy 888 comps IMAGR1: Total Cleaned flux density = 350.041 MilliJy 5069 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 5 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 6 min = -468.3 MicroJy,max = 488.0 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 264.80 MicroJy IMAGR1: 1369 Residual map points loaded IMAGR1: Field 6 min algorithm flux= -282.135 MicroJy iter= 915 IMAGR1: Field 6 Clean flux density= -755.013 MicroJy 915 comps IMAGR1: Total Cleaned flux density = 350.180 MilliJy 5404 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 6 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 7 min = -418.2 MicroJy,max = 462.1 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 258.27 MicroJy IMAGR1: 1484 Residual map points loaded IMAGR1: Field 7 min algorithm flux= -273.498 MicroJy iter= 1097 IMAGR1: Field 7 Clean flux density= 3.099 MilliJy 1097 comps IMAGR1: Total Cleaned flux density = 350.840 MilliJy 5723 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 7 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 4 min = -459.8 MicroJy,max = 399.6 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 252.81 MicroJy IMAGR1: 1280 Residual map points loaded IMAGR1: Field 4 min algorithm flux= 266.601 MicroJy iter= 1078 IMAGR1: Field 4 Clean flux density= 457.019 MicroJy 1078 comps IMAGR1: Total Cleaned flux density = 350.511 MilliJy 6035 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 4 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 3 min = -375.7 MicroJy,max = 438.0 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 246.85 MicroJy IMAGR1: 1483 Residual map points loaded IMAGR1: Field 3 min algorithm flux= 261.473 MicroJy iter= 1065 IMAGR1: Field 3 Clean flux density= 3.488 MilliJy 1065 comps IMAGR1: Total Cleaned flux density = 350.665 MilliJy 6394 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 3 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 2 min = -393.2 MicroJy,max = 403.1 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 242.16 MicroJy IMAGR1: 1332 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -254.881 MicroJy iter= 1151 IMAGR1: Field 2 Clean flux density= 3.725 MilliJy 1151 comps IMAGR1: Total Cleaned flux density = 350.942 MilliJy 6728 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 2 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 1 min = -409.3 MicroJy,max = 362.7 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 239.42 MicroJy IMAGR1: 363 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 245.081 MicroJy iter= 688 IMAGR1: Field 1 Clean flux density= 338.693 MilliJy 688 comps IMAGR1: Total Cleaned flux density = 351.398 MilliJy 6882 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 1 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 5 min = -406.2 MicroJy,max = 451.9 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 234.06 MicroJy IMAGR1: 1459 Residual map points loaded IMAGR1: Field 5 min algorithm flux= -246.511 MicroJy iter= 1252 IMAGR1: Field 5 Clean flux density= 3.422 MilliJy 1252 comps IMAGR1: Total Cleaned flux density = 352.131 MilliJy 7246 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 5 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 6 min = -384.9 MicroJy,max = 429.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 229.19 MicroJy IMAGR1: 1282 Residual map points loaded IMAGR1: Field 6 min algorithm flux= -240.431 MicroJy iter= 1265 IMAGR1: Field 6 Clean flux density= -683.712 MicroJy 1265 comps IMAGR1: Total Cleaned flux density = 352.202 MilliJy 7596 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 6 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 7 min = -390.5 MicroJy,max = 401.3 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 223.96 MicroJy IMAGR1: 1522 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 235.027 MicroJy iter= 1468 IMAGR1: Field 7 Clean flux density= 2.191 MilliJy 1468 comps IMAGR1: Total Cleaned flux density = 351.295 MilliJy 7967 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 7 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 4 min = -412.2 MicroJy,max = 362.9 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 219.40 MicroJy IMAGR1: 1299 Residual map points loaded IMAGR1: Field 4 min algorithm flux= 229.402 MicroJy iter= 1436 IMAGR1: Field 4 Clean flux density= -155.563 MicroJy 1436 comps IMAGR1: Total Cleaned flux density = 350.682 MilliJy 8325 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 4 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 3 min = -338.1 MicroJy,max = 388.1 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 214.69 MicroJy IMAGR1: 1299 Residual map points loaded IMAGR1: Field 3 min algorithm flux= 224.195 MicroJy iter= 1427 IMAGR1: Field 3 Clean flux density= 4.369 MilliJy 1427 comps IMAGR1: Total Cleaned flux density = 351.563 MilliJy 8687 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 3 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 2 min = -355.7 MicroJy,max = 370.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 210.14 MicroJy IMAGR1: 1486 Residual map points loaded IMAGR1: Field 2 min algorithm flux= 219.906 MicroJy iter= 1548 IMAGR1: Field 2 Clean flux density= 3.589 MilliJy 1548 comps IMAGR1: Total Cleaned flux density = 351.426 MilliJy 9084 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 2 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 5 min = -374.2 MicroJy,max = 430.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 206.09 MicroJy IMAGR1: 1292 Residual map points loaded IMAGR1: Field 5 min algorithm flux= 214.261 MicroJy iter= 1609 IMAGR1: Field 5 Clean flux density= 3.695 MilliJy 1609 comps IMAGR1: Total Cleaned flux density = 351.698 MilliJy 9441 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 5 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 1 min = -340.8 MicroJy,max = 308.5 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 2.199E-04 < Second best 2.310E-04 IMAGR1: Field 6 min = -367.2 MicroJy,max = 384.2 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 199.95 MicroJy IMAGR1: 1307 Residual map points loaded IMAGR1: Field 6 min algorithm flux= 208.241 MicroJy iter= 1652 IMAGR1: Field 6 Clean flux density= -1.775 MilliJy 1652 comps IMAGR1: Total Cleaned flux density = 350.607 MilliJy 9828 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 6 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 7 min = -364.0 MicroJy,max = 370.3 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 195.73 MicroJy IMAGR1: 1600 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 204.320 MicroJy iter= 1894 IMAGR1: Field 7 Clean flux density= 2.503 MilliJy 1894 comps IMAGR1: Total Cleaned flux density = 350.919 MilliJy 10254 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 7 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 4 min = -386.4 MicroJy,max = 342.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 191.90 MicroJy IMAGR1: 1397 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -199.536 MicroJy iter= 1831 IMAGR1: Field 4 Clean flux density= 193.587 MicroJy 1831 comps IMAGR1: Total Cleaned flux density = 351.268 MilliJy 10649 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 4 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 1 min = -311.5 MicroJy,max = 281.7 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 2.041E-04 < Second best 2.155E-04 IMAGR1: Field 3 min = -313.1 MicroJy,max = 336.6 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 187.60 MicroJy IMAGR1: 1373 Residual map points loaded IMAGR1: Field 3 min algorithm flux= -194.689 MicroJy iter= 1821 IMAGR1: Field 3 Clean flux density= 4.744 MilliJy 1821 comps IMAGR1: Total Cleaned flux density = 351.643 MilliJy 11043 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 3 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 2 min = -330.2 MicroJy,max = 341.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 183.51 MicroJy IMAGR1: 1503 Residual map points loaded IMAGR1: Field 2 min algorithm flux= 190.883 MicroJy iter= 1980 IMAGR1: Field 2 Clean flux density= 3.909 MilliJy 1980 comps IMAGR1: Total Cleaned flux density = 351.963 MilliJy 11475 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 2 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 5 min = -353.8 MicroJy,max = 371.1 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 179.85 MicroJy IMAGR1: 1471 Residual map points loaded IMAGR1: Field 5 min algorithm flux= -186.526 MicroJy iter= 2023 IMAGR1: Field 5 Clean flux density= 3.691 MilliJy 2023 comps IMAGR1: Total Cleaned flux density = 351.959 MilliJy 11889 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 5 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 1 min = -282.0 MicroJy,max = 272.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 179.35 MicroJy IMAGR1: 276 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 181.798 MicroJy iter= 846 IMAGR1: Field 1 Clean flux density= 338.846 MilliJy 846 comps IMAGR1: Total Cleaned flux density = 352.113 MilliJy 12047 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 1 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 6 min = -329.2 MicroJy,max = 344.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 175.71 MicroJy IMAGR1: 880 Residual map points loaded IMAGR1: Field 6 min algorithm flux= 180.583 MicroJy iter= 1973 IMAGR1: Field 6 Clean flux density= -1.642 MilliJy 1973 comps IMAGR1: Total Cleaned flux density = 352.246 MilliJy 12368 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 6 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 7 min = -335.7 MicroJy,max = 340.6 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 171.71 MicroJy IMAGR1: 1439 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 177.770 MicroJy iter= 2314 IMAGR1: Field 7 Clean flux density= 3.039 MilliJy 2314 comps IMAGR1: Total Cleaned flux density = 352.781 MilliJy 12788 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 7 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 4 min = -357.5 MicroJy,max = 319.8 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 168.19 MicroJy IMAGR1: 1286 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -173.669 MicroJy iter= 2233 IMAGR1: Field 4 Clean flux density= -93.450 MicroJy 2233 comps IMAGR1: Total Cleaned flux density = 352.494 MilliJy 13190 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 4 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 3 min = -269.0 MicroJy,max = 310.2 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 164.76 MicroJy IMAGR1: 1102 Residual map points loaded IMAGR1: Field 3 min algorithm flux= -169.492 MicroJy iter= 2186 IMAGR1: Field 3 Clean flux density= 4.781 MilliJy 2186 comps IMAGR1: Total Cleaned flux density = 352.532 MilliJy 13555 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 3 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 2 min = -310.8 MicroJy,max = 319.1 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 161.24 MicroJy IMAGR1: 1433 Residual map points loaded IMAGR1: Field 2 min algorithm flux= 166.948 MicroJy iter= 2443 IMAGR1: Field 2 Clean flux density= 4.051 MilliJy 2443 comps IMAGR1: Total Cleaned flux density = 352.673 MilliJy 14018 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 2 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 5 min = -331.3 MicroJy,max = 319.0 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 158.02 MicroJy IMAGR1: 1358 Residual map points loaded IMAGR1: Field 5 min algorithm flux= -162.979 MicroJy iter= 2447 IMAGR1: Field 5 Clean flux density= 3.718 MilliJy 2447 comps IMAGR1: Total Cleaned flux density = 352.700 MilliJy 14442 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 5 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 1 min = -246.2 MicroJy,max = 243.7 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 156.79 MicroJy IMAGR1: 240 Residual map points loaded IMAGR1: Field 1 min algorithm flux= -158.548 MicroJy iter= 997 IMAGR1: Field 1 Clean flux density= 339.254 MilliJy 997 comps IMAGR1: Total Cleaned flux density = 353.107 MilliJy 14593 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 1 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 6 min = -298.0 MicroJy,max = 309.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 154.08 MicroJy IMAGR1: 988 Residual map points loaded IMAGR1: Field 6 min algorithm flux= 158.262 MicroJy iter= 2351 IMAGR1: Field 6 Clean flux density= -2.260 MilliJy 2351 comps IMAGR1: Total Cleaned flux density = 352.489 MilliJy 14971 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 6 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 7 min = -319.9 MicroJy,max = 321.6 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 150.83 MicroJy IMAGR1: 1449 Residual map points loaded IMAGR1: Field 7 min algorithm flux= -155.456 MicroJy iter= 2753 IMAGR1: Field 7 Clean flux density= 3.349 MilliJy 2753 comps IMAGR1: Total Cleaned flux density = 352.799 MilliJy 15410 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 7 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 4 min = -336.8 MicroJy,max = 305.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 147.88 MicroJy IMAGR1: 1307 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -152.198 MicroJy iter= 2667 IMAGR1: Field 4 Clean flux density= -251.763 MicroJy 2667 comps IMAGR1: Total Cleaned flux density = 352.641 MilliJy 15844 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 4 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 3 min = -249.8 MicroJy,max = 257.3 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 145.15 MicroJy IMAGR1: 974 Residual map points loaded IMAGR1: Field 3 min algorithm flux= -148.693 MicroJy iter= 2556 IMAGR1: Field 3 Clean flux density= 5.112 MilliJy 2556 comps IMAGR1: Total Cleaned flux density = 352.971 MilliJy 16214 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 3 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 2 min = -292.6 MicroJy,max = 298.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 142.14 MicroJy IMAGR1: 1358 Residual map points loaded IMAGR1: Field 2 min Clean flux = 147.951 MicroJy iter= 2766 IMAGR1: Field 2 Clean flux density= 4.281 MilliJy 2766 comps IMAGR1: Total Cleaned flux density = 353.202 MilliJy 16537 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 2 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 5 min = -317.4 MicroJy,max = 295.9 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 138.12 MicroJy IMAGR1: 1578 Residual map points loaded IMAGR1: Field 5 min Clean flux = -147.856 MicroJy iter= 2615 IMAGR1: Field 5 Clean flux density= 4.046 MilliJy 2615 comps IMAGR1: Total Cleaned flux density = 353.530 MilliJy 16705 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 5 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 48015 Pts IMAGR1: Field 1 min = -220.7 MicroJy,max = 216.1 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 135.55 MicroJy IMAGR1: 510 Residual map points loaded IMAGR1: Field 1 min Clean flux = 147.795 MicroJy iter= 1015 IMAGR1: Field 1 Clean flux density= 339.312 MilliJy 1015 comps IMAGR1: Total Cleaned flux density = 353.588 MilliJy 16723 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -285.0 MicroJy,max = 297.3 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 132.18 MicroJy IMAGR1: 2332 Residual map points loaded IMAGR1: Field 6 min Clean flux = -147.945 MicroJy iter= 2410 IMAGR1: Field 6 Clean flux density= -2.212 MilliJy 2410 comps IMAGR1: Total Cleaned flux density = 353.636 MilliJy 16782 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -295.6 MicroJy,max = 300.0 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 126.68 MicroJy IMAGR1: 5158 Residual map points loaded IMAGR1: Field 7 min Clean flux = -147.912 MicroJy iter= 2843 IMAGR1: Field 7 Clean flux density= 3.167 MilliJy 2843 comps IMAGR1: Total Cleaned flux density = 353.455 MilliJy 16872 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -315.5 MicroJy,max = 297.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 116.48 MicroJy IMAGR1: 7612 Residual map points loaded IMAGR1: Field 4 min Clean flux = -147.818 MicroJy iter= 2677 IMAGR1: Field 4 Clean flux density= -311.126 MicroJy 2677 comps IMAGR1: Total Cleaned flux density = 353.395 MilliJy 16882 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -236.9 MicroJy,max = 248.0 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 100.76 MicroJy IMAGR1: 19991 Residual map points loaded IMAGR1: Field 3 min Clean flux = -146.702 MicroJy iter= 2562 IMAGR1: Field 3 Clean flux density= 5.052 MilliJy 2562 comps IMAGR1: Total Cleaned flux density = 353.336 MilliJy 16888 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Peak residual in window 147.951 less than limit 147.954 MicroJy IMAGR1: Merging the Clean components files IMAGR1: Field 1 compressed from 1015 to 589 components IMAGR1: Field 2 compressed from 2766 to 1677 components IMAGR1: Field 3 compressed from 2562 to 1569 components IMAGR1: Field 4 compressed from 2677 to 1637 components IMAGR1: Field 5 compressed from 2615 to 1575 components IMAGR1: Field 6 compressed from 2410 to 1417 components IMAGR1: Field 7 compressed from 2843 to 1738 components IMAGR1: Field 1 min = -219.7 MicroJy,max = 214.4 MicroJy IMAGR1: Field 2 min = -279.2 MicroJy,max = 291.3 MicroJy IMAGR1: Field 3 min = -237.5 MicroJy,max = 248.3 MicroJy IMAGR1: Field 4 min = -315.1 MicroJy,max = 297.7 MicroJy IMAGR1: Field 5 min = -313.1 MicroJy,max = 291.6 MicroJy IMAGR1: Field 6 min = -282.2 MicroJy,max = 291.6 MicroJy IMAGR1: Field 7 min = -293.6 MicroJy,max = 297.6 MicroJy IMAGR1: Restoring Clean components IMAGR1: Restoring overlapped Clean components IMAGR1: Restore -92.062 MicroJy ( 110 CCs) from field 1 to field 2 IMAGR1: Restore 358.174 MicroJy ( 57 CCs) from field 1 to field 3 IMAGR1: Restore-158.900 MicroJy ( 47 CCs) from field 1 to field 4 IMAGR1: Restore 91.660 MicroJy ( 47 CCs) from field 1 to field 5 IMAGR1: Restore-260.491 MicroJy ( 79 CCs) from field 1 to field 6 IMAGR1: Restore -91.338 MicroJy ( 142 CCs) from field 1 to field 7 IMAGR1: Restore 65.036 MicroJy ( 86 CCs) from field 2 to field 1 IMAGR1: Restore 664.765 MicroJy ( 168 CCs) from field 2 to field 3 IMAGR1: Restore 1.454 MilliJy ( 183 CCs) from field 2 to field 4 IMAGR1: Restore 1.197 MilliJy ( 104 CCs) from field 3 to field 1 IMAGR1: Restore 825.935 MicroJy ( 164 CCs) from field 3 to field 2 IMAGR1: Restore 309.005 MicroJy ( 144 CCs) from field 3 to field 5 IMAGR1: Restore-565.300 MicroJy ( 135 CCs) from field 4 to field 1 IMAGR1: Restore 590.689 MicroJy ( 206 CCs) from field 4 to field 2 IMAGR1: Restore 632.100 MicroJy ( 115 CCs) from field 4 to field 6 IMAGR1: Restore 1.118 MilliJy ( 103 CCs) from field 5 to field 1 IMAGR1: Restore 754.851 MicroJy ( 125 CCs) from field 5 to field 3 IMAGR1: Restore 514.517 MicroJy ( 180 CCs) from field 5 to field 7 IMAGR1: Restore 562.373 MicroJy ( 108 CCs) from field 6 to field 1 IMAGR1: Restore -1.391 MilliJy ( 116 CCs) from field 6 to field 4 IMAGR1: Restore-275.462 MicroJy ( 170 CCs) from field 6 to field 7 IMAGR1: Restore 409.666 MicroJy ( 61 CCs) from field 7 to field 1 IMAGR1: Restore 1.144 MilliJy ( 184 CCs) from field 7 to field 5 IMAGR1: Restore-114.781 MicroJy ( 178 CCs) from field 7 to field 6 IMAGR1: Checking image max/min IMAGR1: Field 1 final Clean flux 342.100 MilliJy IMAGR1: Field 2 final Clean flux 5.606 MilliJy IMAGR1: Field 3 final Clean flux 6.830 MilliJy IMAGR1: Field 4 final Clean flux -407.039 MicroJy IMAGR1: Field 5 final Clean flux 5.591 MilliJy IMAGR1: Field 6 final Clean flux -1.955 MilliJy IMAGR1: Field 7 final Clean flux 3.315 MilliJy IMAGR1: Deleting UV work file: IMAGR1: Destroyed 1 extension files of type AN IMAGR1: Destroyed 1 extension files of type FQ IMAGR1: Destroyed UV image file: catno= 6 disk= 1 IMAGR1: Appears to have ended successfully IMAGR1: auto 31DEC06 TST: Cpu= 99.0 Real= 104 sys2com(7)=char(ds );end AIPS 1: sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir ) $ must be 27 AIPS 1: dir=substr(dir,2,ki);if(ki<>27)then;type'WARNING: WRONG DIRECT ORY NAME ?';end AIPS 1: AIPS 1: sysout=dir!!'/'!!sbms!!','!!expnm!!','!!rmss!!rmsc!!fras!!radi AIPS 1: print sysout AIPS 1: $keep sysout - not if we use dir instead AIPS 1: syscom'';sys2com'';clrtemp AIPS 1: return AIPS 1: finish AIPS 1: AIPS 1: procedure nvasarch AIPS 1: scalar nn AIPS 1: $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT /$AIMG/$AUVF) AIPS 1: default fitab;indisk=lsdisk;recat AIPS 1: $ figure out array for uv name AIPS 1: $ getname 1; AIPS 1: for nn=mai:numfle $ archive MA files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: typ length(outfile),length(sysout) AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X$FITS/'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: $ sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sys2com(2)'X'!!dir;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: outfile='FITS:'!!outfile AIPS 1: ;go;wait; $zap AIPS 1: ;system AIPS 1: end AIPS 1: clrname;indisk=lsdisk;chkname;numfle=1-error AIPS 1: numfle=mai -1 AIPS 1: for nn=3:numfle $ archive calibrated UV files AIPS 1: getname nn AIPS 1: nvasname AIPS 1: outfile='/tmp/tempuvfits AIPS 1: go;wait; $zap AIPS 1: syscom'mv -f AIPS 1: sys2com(1)'X'!!outfile;substr(sys2com(1),1,1)='' AIPS 1: sys2com(2)'X'!!sysout;substr(sys2com(2),1,1)='' AIPS 1: sysout'';sys2com(3) ' >& /dev/null AIPS 1: system AIPS 1: end AIPS 1: getname 2 $ archive calibration tables AIPS 1: $ do not use nvasname as the dir is ADAT and dirname is expid AIPS 1: AIPS 1: sys2com'';sysout'';syscom 'mkdir AIPS 1: sys2com(1)=' $adat/ AIPS 1: AIPS 1: $ if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end AIPS 1: $ if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(r m);end AIPS 1: $ if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=ch ar(rs)!!zz;end AIPS 1: $ if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm !!char(dd);end AIPS 1: $ if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(d m);end AIPS 1: $ if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(d s);end AIPS 1: AIPS 1: sys2com(1)=sys2com(1)!!expnm;sys2com(8) ' >& /dev/null AIPS 1: system;clrtemp AIPS 1: AIPS 1: finish AIPS 1: AIPS 1: procedure nvas AIPS 1: typ expid;flatfov;nvasimage AIPS 1: $nvasarch AIPS 1: finish >AIPS 1: Found in Version=ABIN AIPS 1: Found in Version=ABIN AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' AIPS 1: Got(1) disk= 1 user=**** type=UV 19991122.C BAND.1 AIPS 1: 'SETFC WILL DETERMINE THE CELL SIZE' AIPS 1: '3.3333 SECOND INTEGRATIONS (GUESS)' AIPS 1: 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: '0137+331 MODEL =' '3C48_C' AIPS 1: SYSTEM command to be executed is: AIPS 1: ls -1 $AIPSTARS/3C48_C.MODEL >& /dev/null AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Destroyed 1 extension files of type CC AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 2 disk= 1 AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: Resumes AIPS 1: ' ' AIPS 1: 'ESTIMATED RMS:' '0.02466 MILLI JANSKY' AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@2230+697_C,BAND.0-1 >& /dev/null AIPS 1: Waiting for returned adverbs AIPS 1: Resumes AIPS 1: SYSTEM command to be executed is: AIPS 1: cat /tmp/SETFC@2230+697_C,BAND.0-1 >> /home/auto/run/AH687_1999N AIPS 1: OV22_2.log.0 AIPS 1: ' NOW STARTING WITH SOURCE :1 =2230+697' AIPS 1: ' ' AIPS 1: Resumes AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@2230+697_C,BAND.0-1 >& /dev/null AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 7 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 8 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 9 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 10 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 11 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 12 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 13 disk= 1 AIPS 1: Disk 1 in-CNO 14 renumbered as CNO 6 AIPS 1: Disk 1 in-CNO 15 renumbered as CNO 7 AIPS 1: Disk 1 in-CNO 16 renumbered as CNO 8 AIPS 1: Disk 1 in-CNO 17 renumbered as CNO 9 AIPS 1: Disk 1 in-CNO 18 renumbered as CNO 10 AIPS 1: Disk 1 in-CNO 19 renumbered as CNO 11 AIPS 1: Disk 1 in-CNO 20 renumbered as CNO 12 AIPS 1: ' ' AIPS 1: 'ESTIMATED RMS:' '0.01407 MILLI JANSKY' AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@CEPA_C,BAND.0-1 >& /dev/null SETFC1: Task SETFC (release of 31DEC06) begins SETFC1: Found CEPA C BAND Seq 1 Disk: 1 in slot 4 SETFC1: SETCEL: recommends IMSIZE 1071 CELLSIZE 0.51595 SETFC1: SETCEL: returns IMSIZE 1024 CELLSIZE 0.51595 SETFC1: ZTXOP2: using translated file name = SETFC1: ZTXOP2: /tmp/SETFC@CEPA_C,BAND.0-1 SETFC1: FLYEYE added 7 fields to BOXFILE to 0.122 deg SETFC1: Searching catalog between 0.12 and 0.23 degrees radius SETFC1: ZTXOP2: using translated file name = SETFC1: ZTXOP2: /home/auto/aips/TEXT/STARS/NV00.0030 SETFC1: No NVSS sources selected for BOXFILE SETFC1: The Sun is 115.5 deg away - ignoring SETFC1: First field number written was 1 SETFC1: Highest field number written was 7 SETFC1: returns adverbs to AIPS SETFC1: Appears to have ended successfully SETFC1: auto 31DEC06 TST: Cpu= 1.7 Real= 2 C 1 1012 1012 22 56 18.45 62 01 48.2 00001 -1 507 512 513 C 2 1012 1012 22 56 18.45 61 54 29.0 00002 -1 507 512 513 C 3 1012 1012 22 55 24.48 61 58 08.0 00003 -1 507 512 513 C 4 1012 1012 22 57 12.41 61 58 08.0 00004 -1 507 512 513 C 5 1012 1012 22 55 24.27 62 05 27.2 00005 -1 507 512 513 C 6 1012 1012 22 57 12.62 62 05 27.2 00006 -1 507 512 513 C 7 1012 1012 22 56 18.45 62 09 07.5 00007 -1 507 512 513 f /tmp/SETFC@2230+697_C,BAND.0-1 >& /dev/null AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 7 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 8 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 9 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 10 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 11 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 12 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 13 disk= 1 AIPS 1: Disk 1 in-CNO 14 renumbered as CNO 6 AIPS 1: Disk 1 in-CNO 15 renumbered as CNO 7 AIPS 1: Disk 1 in-CNO 16 renumbered as CNO 8 AIPS 1: Disk 1 in-CNO 17 renumbered as CNO 9 AIPS 1: Disk 1 in-CNO 18 renumbered as CNO 10 AIPS 1: Disk 1 in-CNO 19 renumbered as CNO 11 AIPS 1: Disk 1 in-CNO 20 renumbered as CNO 12 AIPS 1: ' ' AIPS 1: 'ESTIMATED RMS:' '0.01407 MILLI JANSKY' AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@CEPA_C,BAND.0-1 >& /dev/null AIPS 1: Waiting for returned adverbs AIPS 1: Resumes AIPS 1: SYSTEM command to be executed is: AIPS 1: cat /tmp/SETFC@CEPA_C,BAND.0-1 >> /home/auto/run/AH687_1999NOV22 AIPS 1: _2.log.0 AIPS 1: ' NOW STARTING WITH SOURCE :2 =CEPA' AIPS 1: ' ' IMAGR1: Task IMAGR (release of 31DEC06) begins IMAGR1: ZTXOP2: using translated file name = IMAGR1: ZTXOP2: /tmp/SETFC@CEPA_C,BAND.0-1 IMAGR1: FIELDF: Final field parameters and # read are: IMAGR1: Field 1 1012 1012 2.9548E-02 -2.9000E-02 0 IMAGR1: Field 2 1012 1012 2.9548E-02 -4.3923E+02 0 IMAGR1: Field 3 1012 1012 -3.7966E+02 -2.2023E+02 0 IMAGR1: Field 4 1012 1012 3.7964E+02 -2.2023E+02 0 IMAGR1: Field 5 1012 1012 -3.8113E+02 2.1897E+02 0 IMAGR1: Field 6 1012 1012 3.8112E+02 2.1897E+02 0 IMAGR1: Field 7 1012 1012 2.9548E-02 4.3927E+02 0 IMAGR1: ZTXOP2: using translated file name = IMAGR1: ZTXOP2: /tmp/SETFC@CEPA_C,BAND.0-1 IMAGR1: WINDF: Number of clean boxes/field read as follows: IMAGR1: Field 01: 1 Field 02: 1 Field 03: 1 Field 04: 1 IMAGR1: Field 05: 1 Field 06: 1 Field 07: 1 IMAGR1: Create CEPA .IMAGR . 1 (UV) on disk 1 cno 13 IMAGR1: Beginning channel 1 through 1 with 2 IFs IMAGR1: IMACPY: Copied 147565 visibilities to be imaged IMAGR1: **** WARNING data included out of inner portion of UV plane **** IMAGR1: **** Watch for high-frequency & other poor cleaning effects **** IMAGR1: UVWAIT: begin finding uniform weights IMAGR1: UVWAIT: Average grid weight 7.216E+04 IMAGR1: UVWAIT: Adding temperance S 1.443E+04 IMAGR1: UVWAIT: begin applying uniform or other weights IMAGR1: UVWAIT: Sum of weights in 3.419E+08 and out 5.348E+08 IMAGR1: UVWAIT: Noise is increased by a factor 1.141 due to weighting IMAGR1: UVWAIT: Average summed weight 7.216E+04 over 295097 vis IMAGR1: Create CEPA .IBM001. 1 (MA) on disk 1 cno 14 IMAGR1: Create CEPA .IBM002. 1 (MA) on disk 1 cno 15 IMAGR1: Create CEPA .IBM003. 1 (MA) on disk 1 cno 16 IMAGR1: Create CEPA .IBM004. 1 (MA) on disk 1 cno 17 IMAGR1: Create CEPA .IBM005. 1 (MA) on disk 1 cno 18 IMAGR1: Create CEPA .IBM006. 1 (MA) on disk 1 cno 19 IMAGR1: Create CEPA .IBM007. 1 (MA) on disk 1 cno 20 IMAGR1: Create CEPA .ICL001. 1 (MA) on disk 1 cno 21 IMAGR1: Create CEPA .ICL002. 1 (MA) on disk 1 cno 22 IMAGR1: Create CEPA .ICL003. 1 (MA) on disk 1 cno 23 IMAGR1: Create CEPA .ICL004. 1 (MA) on disk 1 cno 24 IMAGR1: Create CEPA .ICL005. 1 (MA) on disk 1 cno 25 IMAGR1: Create CEPA .ICL006. 1 (MA) on disk 1 cno 26 IMAGR1: Create CEPA .ICL007. 1 (MA) on disk 1 cno 27 IMAGR1: GRDFLT: X and Y convolution type = SPHEROIDAL IMAGR1: GRDFLT: X and Y parms = 3.0000 1.0000 IMAGR1: GRDFLT: convolution function sampled every 1/100 of a cell IMAGR1: GRDMEM: Ave 2 Channels; 4.885100E+09 to 4.835100E+09 Hz IMAGR1: Field 1 Sum of gridding weights = 5.67812E+09 IMAGR1: Field 1 Beam min = -188.7 MilliJy, max = 1.0 Jy IMAGR1: Field 1 fit FWHM = 1.895 x 1.225 arcsec, PA= -16.6 IMAGR1: Field 2 Sum of gridding weights = 5.67811E+09 IMAGR1: Field 2 Beam min = -188.7 MilliJy, max = 1.0 Jy IMAGR1: Field 2 fit FWHM = 1.893 x 1.225 arcsec, PA= -16.6 IMAGR1: Field 3 Sum of gridding weights = 5.67812E+09 IMAGR1: Field 3 Beam min = -188.6 MilliJy, max = 1.0 Jy IMAGR1: Field 3 fit FWHM = 1.895 x 1.225 arcsec, PA= -16.9 IMAGR1: Field 4 Sum of gridding weights = 5.67812E+09 IMAGR1: Field 4 Beam min = -188.8 MilliJy, max = 1.0 Jy IMAGR1: Field 4 fit FWHM = 1.893 x 1.226 arcsec, PA= -16.4 IMAGR1: Field 5 Sum of gridding weights = 5.67812E+09 IMAGR1: Field 5 Beam min = -188.6 MilliJy, max = 1.0 Jy IMAGR1: Field 5 fit FWHM = 1.897 x 1.225 arcsec, PA= -16.8 IMAGR1: Field 6 Sum of gridding weights = 5.67812E+09 IMAGR1: Field 6 Beam min = -188.8 MilliJy, max = 1.0 Jy IMAGR1: Field 6 fit FWHM = 1.895 x 1.226 arcsec, PA= -16.3 IMAGR1: Field 7 Sum of gridding weights = 5.67812E+09 IMAGR1: Field 7 Beam min = -188.7 MilliJy, max = 1.0 Jy IMAGR1: Field 7 fit FWHM = 1.897 x 1.226 arcsec, PA= -16.6 IMAGR1: CLBHIS: minimum component 0.313 of current peak IMAGR1: Field 1 min = -1.4 MilliJy,max = 6.4 MilliJy IMAGR1: Field 2 min = -407.0 MicroJy,max = 620.5 MicroJy IMAGR1: Field 3 min = -524.3 MicroJy,max = 498.6 MicroJy IMAGR1: Field 4 min = -525.4 MicroJy,max = 659.4 MicroJy IMAGR1: Field 5 min = -585.3 MicroJy,max = 3.2 MilliJy IMAGR1: Field 6 min = -429.1 MicroJy,max = 463.5 MicroJy IMAGR1: Field 7 min = -416.5 MicroJy,max = 337.0 MicroJy IMAGR1: BGC Clean: using 309 cell beam + residuals > 314.85 MicroJy IMAGR1: 15086 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 1.988 MilliJy iter= 44 IMAGR1: Field 1 Clean flux density= 14.271 MilliJy 44 comps IMAGR1: Total Cleaned flux density = 14.271 MilliJy 44 comps IMAGR1: SETDO3: imaging done with multiple tangent planes IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: VISDFT: Model components of type Point IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -858.0 MicroJy,max = 1.9 MilliJy IMAGR1: BGC Clean: using 117 cell beam + residuals > 244.67 MicroJy IMAGR1: 7065 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 666.390 MicroJy iter= 178 IMAGR1: Field 1 Clean flux density= 28.615 MilliJy 178 comps IMAGR1: Total Cleaned flux density = 28.615 MilliJy 178 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 1 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 1 min = -600.0 MicroJy,max = 679.8 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 231.59 MicroJy IMAGR1: 1846 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 394.528 MicroJy iter= 351 IMAGR1: Field 1 Clean flux density= 36.820 MilliJy 351 comps IMAGR1: Total Cleaned flux density = 36.820 MilliJy 351 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 1 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 4 min = -235.6 MicroJy,max = 633.1 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 224.30 MicroJy IMAGR1: 22 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -235.585 MicroJy iter= 20 IMAGR1: Field 4 Clean flux density= 661.191 MicroJy 20 comps IMAGR1: Total Cleaned flux density = 37.481 MilliJy 371 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -301.7 MicroJy,max = 377.5 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 2.172E-04 < Second best 4.272E-04 IMAGR1: Field 6 min = -236.4 MicroJy,max = 251.1 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 1.965E-04 < Second best 3.983E-04 IMAGR1: Field 7 min = -217.0 MicroJy,max = 238.1 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 2.279E-04 < Second best 3.903E-04 IMAGR1: Field 3 min = -215.9 MicroJy,max = 294.0 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 2.068E-04 < Second best 3.761E-04 IMAGR1: Field 1 min = -368.0 MicroJy,max = 413.7 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 164.25 MicroJy IMAGR1: 4216 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 258.587 MicroJy iter= 623 IMAGR1: Field 1 Clean flux density= 43.493 MilliJy 623 comps IMAGR1: Total Cleaned flux density = 44.155 MilliJy 643 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 1 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 2 min = -219.8 MicroJy,max = 239.2 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 1.946E-04 < Second best 2.469E-04 IMAGR1: Field 1 min = -252.0 MicroJy,max = 261.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 131.59 MicroJy IMAGR1: 7375 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 190.390 MicroJy iter= 968 IMAGR1: Field 1 Clean flux density= 46.869 MilliJy 968 comps IMAGR1: Total Cleaned flux density = 47.531 MilliJy 988 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 1 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 7 min = -196.2 MicroJy,max = 207.0 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 1.982E-04 < Second best 2.245E-04 IMAGR1: Field 4 min = -219.6 MicroJy,max = 228.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 129.51 MicroJy IMAGR1: 1572 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -152.908 MicroJy iter= 200 IMAGR1: Field 4 Clean flux density= 1.152 MilliJy 200 comps IMAGR1: Total Cleaned flux density = 48.021 MilliJy 1168 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 4 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 5 min = -232.6 MicroJy,max = 217.9 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 1.790E-04 < Second best 2.068E-04 IMAGR1: Field 3 min = -210.5 MicroJy,max = 229.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 127.34 MicroJy IMAGR1: 1575 Residual map points loaded IMAGR1: Field 3 min algorithm flux= 149.484 MicroJy iter= 207 IMAGR1: Field 3 Clean flux density= 305.081 MicroJy 207 comps IMAGR1: Total Cleaned flux density = 48.327 MilliJy 1375 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 3 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 7 min = -194.7 MicroJy,max = 202.8 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 127.25 MicroJy IMAGR1: 1385 Residual map points loaded IMAGR1: Field 7 min algorithm flux= -146.822 MicroJy iter= 211 IMAGR1: Field 7 Clean flux density= 637.787 MicroJy 211 comps IMAGR1: Total Cleaned flux density = 48.964 MilliJy 1586 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 7 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 6 min = -215.3 MicroJy,max = 212.6 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 1.762E-04 < Second best 1.946E-04 IMAGR1: Field 2 min = -202.9 MicroJy,max = 221.0 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 125.33 MicroJy IMAGR1: 1294 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -142.927 MicroJy iter= 221 IMAGR1: Field 2 Clean flux density= 39.108 MicroJy 221 comps IMAGR1: Total Cleaned flux density = 49.003 MilliJy 1807 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 2 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 1 min = -208.1 MicroJy,max = 191.9 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 121.09 MicroJy IMAGR1: 5717 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 151.441 MicroJy iter= 1460 IMAGR1: Field 1 Clean flux density= 48.833 MilliJy 1460 comps IMAGR1: Total Cleaned flux density = 50.967 MilliJy 2299 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 1 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 5 min = -211.9 MicroJy,max = 192.8 MicroJy IMAGR1: TRY ANOTHER FIELD: this is 1.639E-04 < Second best 1.762E-04 IMAGR1: Field 6 min = -206.3 MicroJy,max = 205.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 120.06 MicroJy IMAGR1: 1541 Residual map points loaded IMAGR1: Field 6 min algorithm flux= -135.719 MicroJy iter= 311 IMAGR1: Field 6 Clean flux density= -482.831 MicroJy 311 comps IMAGR1: Total Cleaned flux density = 50.484 MilliJy 2610 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 6 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 5 min = -206.1 MicroJy,max = 190.9 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 119.95 MicroJy IMAGR1: 1612 Residual map points loaded IMAGR1: Field 5 min algorithm flux= -134.887 MicroJy iter= 335 IMAGR1: Field 5 Clean flux density= 131.807 MicroJy 335 comps IMAGR1: Total Cleaned flux density = 50.616 MilliJy 2945 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 5 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 4 min = -212.8 MicroJy,max = 221.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 118.66 MicroJy IMAGR1: 1569 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -130.617 MicroJy iter= 507 IMAGR1: Field 4 Clean flux density= 1.448 MilliJy 507 comps IMAGR1: Total Cleaned flux density = 50.911 MilliJy 3252 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 4 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 1 min = -201.5 MicroJy,max = 177.6 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 115.81 MicroJy IMAGR1: 3125 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 129.713 MicroJy iter= 1866 IMAGR1: Field 1 Clean flux density= 49.198 MilliJy 1866 comps IMAGR1: Total Cleaned flux density = 51.276 MilliJy 3658 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 1 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 3 min = -181.4 MicroJy,max = 215.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 114.17 MicroJy IMAGR1: 1541 Residual map points loaded IMAGR1: Field 3 min algorithm flux= -124.650 MicroJy iter= 550 IMAGR1: Field 3 Clean flux density= 396.827 MicroJy 550 comps IMAGR1: Total Cleaned flux density = 51.368 MilliJy 4001 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 3 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 7 min = -168.5 MicroJy,max = 181.8 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 112.66 MicroJy IMAGR1: 1805 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 124.029 MicroJy iter= 625 IMAGR1: Field 7 Clean flux density= 964.328 MicroJy 625 comps IMAGR1: Total Cleaned flux density = 51.695 MilliJy 4415 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 7 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 2 min = -187.6 MicroJy,max = 195.2 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 111.30 MicroJy IMAGR1: 1726 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -121.340 MicroJy iter= 626 IMAGR1: Field 2 Clean flux density= -73.141 MicroJy 626 comps IMAGR1: Total Cleaned flux density = 51.582 MilliJy 4820 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 2 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 6 min = -191.9 MicroJy,max = 185.8 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 110.00 MicroJy IMAGR1: 1323 Residual map points loaded IMAGR1: Field 6 min algorithm flux= 117.565 MicroJy iter= 646 IMAGR1: Field 6 Clean flux density= -395.337 MicroJy 646 comps IMAGR1: Total Cleaned flux density = 51.670 MilliJy 5155 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 6 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 5 min = -189.7 MicroJy,max = 183.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 108.56 MicroJy IMAGR1: 1618 Residual map points loaded IMAGR1: Field 5 min algorithm flux= 116.774 MicroJy iter= 730 IMAGR1: Field 5 Clean flux density= 304.403 MicroJy 730 comps IMAGR1: Total Cleaned flux density = 51.842 MilliJy 5550 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 5 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 4 min = -196.3 MicroJy,max = 207.0 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 107.24 MicroJy IMAGR1: 1699 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -115.070 MicroJy iter= 917 IMAGR1: Field 4 Clean flux density= 1.879 MilliJy 917 comps IMAGR1: Total Cleaned flux density = 52.274 MilliJy 5960 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 4 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 1 min = -181.3 MicroJy,max = 166.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 104.89 MicroJy IMAGR1: 2601 Residual map points loaded IMAGR1: Field 1 min algorithm flux= -112.965 MicroJy iter= 2332 IMAGR1: Field 1 Clean flux density= 49.484 MilliJy 2332 comps IMAGR1: Total Cleaned flux density = 52.560 MilliJy 6426 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 1 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 3 min = -169.7 MicroJy,max = 198.3 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 103.66 MicroJy IMAGR1: 1488 Residual map points loaded IMAGR1: Field 3 min algorithm flux= 110.003 MicroJy iter= 945 IMAGR1: Field 3 Clean flux density= 636.455 MicroJy 945 comps IMAGR1: Total Cleaned flux density = 52.800 MilliJy 6821 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 3 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 7 min = -164.1 MicroJy,max = 169.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 102.30 MicroJy IMAGR1: 1919 Residual map points loaded IMAGR1: Field 7 min algorithm flux= -109.393 MicroJy iter= 1102 IMAGR1: Field 7 Clean flux density= 685.884 MicroJy 1102 comps IMAGR1: Total Cleaned flux density = 52.521 MilliJy 7298 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 7 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 2 min = -162.4 MicroJy,max = 178.1 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 100.99 MicroJy IMAGR1: 1763 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -107.330 MicroJy iter= 1087 IMAGR1: Field 2 Clean flux density= -174.751 MicroJy 1087 comps IMAGR1: Total Cleaned flux density = 52.420 MilliJy 7759 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 2 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 6 min = -172.1 MicroJy,max = 186.3 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 99.87 MicroJy IMAGR1: 1217 Residual map points loaded IMAGR1: Field 6 min algorithm flux= 104.649 MicroJy iter= 1016 IMAGR1: Field 6 Clean flux density= -672.922 MicroJy 1016 comps IMAGR1: Total Cleaned flux density = 52.142 MilliJy 8129 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 6 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 5 min = -177.9 MicroJy,max = 172.6 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 98.62 MicroJy IMAGR1: 1486 Residual map points loaded IMAGR1: Field 5 min algorithm flux= -103.627 MicroJy iter= 1141 IMAGR1: Field 5 Clean flux density= -235.514 MicroJy 1141 comps IMAGR1: Total Cleaned flux density = 51.602 MilliJy 8540 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 5 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 4 min = -182.3 MicroJy,max = 198.1 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 97.33 MicroJy IMAGR1: 1733 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -102.467 MicroJy iter= 1366 IMAGR1: Field 4 Clean flux density= 1.835 MilliJy 1366 comps IMAGR1: Total Cleaned flux density = 51.558 MilliJy 8989 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 4 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 1 min = -165.4 MicroJy,max = 144.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 95.37 MicroJy IMAGR1: 1915 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 99.965 MicroJy iter= 2767 IMAGR1: Field 1 Clean flux density= 49.224 MilliJy 2767 comps IMAGR1: Total Cleaned flux density = 51.298 MilliJy 9424 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 1 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 3 min = -159.7 MicroJy,max = 187.6 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 94.23 MicroJy IMAGR1: 1375 Residual map points loaded IMAGR1: Field 3 min algorithm flux= -98.368 MicroJy iter= 1353 IMAGR1: Field 3 Clean flux density= 899.769 MicroJy 1353 comps IMAGR1: Total Cleaned flux density = 51.561 MilliJy 9832 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 3 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 7 min = -162.1 MicroJy,max = 156.0 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 93.02 MicroJy IMAGR1: 1975 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 98.047 MicroJy iter= 1633 IMAGR1: Field 7 Clean flux density= 507.909 MicroJy 1633 comps IMAGR1: Total Cleaned flux density = 51.383 MilliJy 10363 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 7 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 2 min = -158.0 MicroJy,max = 165.3 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 91.85 MicroJy IMAGR1: 1838 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -96.477 MicroJy iter= 1605 IMAGR1: Field 2 Clean flux density= -207.061 MicroJy 1605 comps IMAGR1: Total Cleaned flux density = 51.351 MilliJy 10881 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 2 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 6 min = -159.7 MicroJy,max = 176.8 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 90.88 MicroJy IMAGR1: 1165 Residual map points loaded IMAGR1: Field 6 min algorithm flux= 94.062 MicroJy iter= 1393 IMAGR1: Field 6 Clean flux density= -491.131 MicroJy 1393 comps IMAGR1: Total Cleaned flux density = 51.533 MilliJy 11258 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 6 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 5 min = -160.2 MicroJy,max = 158.7 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 89.79 MicroJy IMAGR1: 1458 Residual map points loaded IMAGR1: Field 5 min algorithm flux= 93.278 MicroJy iter= 1572 IMAGR1: Field 5 Clean flux density= -10.316 MicroJy 1572 comps IMAGR1: Total Cleaned flux density = 51.758 MilliJy 11689 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 5 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 4 min = -167.5 MicroJy,max = 186.9 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 88.67 MicroJy IMAGR1: 1648 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -92.310 MicroJy iter= 1840 IMAGR1: Field 4 Clean flux density= 1.909 MilliJy 1840 comps IMAGR1: Total Cleaned flux density = 51.831 MilliJy 12163 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 4 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 1 min = -152.0 MicroJy,max = 135.1 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 87.18 MicroJy IMAGR1: 1372 Residual map points loaded IMAGR1: Field 1 min algorithm flux= -90.074 MicroJy iter= 3168 IMAGR1: Field 1 Clean flux density= 49.455 MilliJy 3168 comps IMAGR1: Total Cleaned flux density = 52.063 MilliJy 12564 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 1 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 3 min = -147.0 MicroJy,max = 177.2 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 86.16 MicroJy IMAGR1: 1292 Residual map points loaded IMAGR1: Field 3 min algorithm flux= -89.101 MicroJy iter= 1772 IMAGR1: Field 3 Clean flux density= 730.756 MicroJy 1772 comps IMAGR1: Total Cleaned flux density = 51.894 MilliJy 12983 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 3 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 7 min = -159.3 MicroJy,max = 147.3 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 85.05 MicroJy IMAGR1: 2004 Residual map points loaded IMAGR1: Field 7 min algorithm flux= -88.686 MicroJy iter= 2183 IMAGR1: Field 7 Clean flux density= 509.612 MicroJy 2183 comps IMAGR1: Total Cleaned flux density = 51.895 MilliJy 13533 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 7 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 2 min = -151.6 MicroJy,max = 158.7 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 83.98 MicroJy IMAGR1: 1888 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -87.436 MicroJy iter= 2156 IMAGR1: Field 2 Clean flux density= -199.257 MicroJy 2156 comps IMAGR1: Total Cleaned flux density = 51.903 MilliJy 14084 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 2 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 6 min = -148.1 MicroJy,max = 168.3 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 83.14 MicroJy IMAGR1: 1138 Residual map points loaded IMAGR1: Field 6 min algorithm flux= 85.523 MicroJy iter= 1784 IMAGR1: Field 6 Clean flux density= -377.840 MicroJy 1784 comps IMAGR1: Total Cleaned flux density = 52.016 MilliJy 14475 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 6 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 5 min = -150.8 MicroJy,max = 147.2 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 82.20 MicroJy IMAGR1: 1456 Residual map points loaded IMAGR1: Field 5 min algorithm flux= -84.940 MicroJy iter= 2041 IMAGR1: Field 5 Clean flux density= 153.148 MicroJy 2041 comps IMAGR1: Total Cleaned flux density = 52.180 MilliJy 14944 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 5 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 4 min = -155.0 MicroJy,max = 175.9 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 81.23 MicroJy IMAGR1: 1568 Residual map points loaded IMAGR1: Field 4 min Clean flux = -84.390 MicroJy iter= 2265 IMAGR1: Field 4 Clean flux density= 1.661 MilliJy 2265 comps IMAGR1: Total Cleaned flux density = 51.933 MilliJy 15369 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 4 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 1 min = -140.1 MicroJy,max = 123.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 79.42 MicroJy IMAGR1: 1354 Residual map points loaded IMAGR1: Field 1 min Clean flux = 84.373 MicroJy iter= 3263 IMAGR1: Field 1 Clean flux density= 49.429 MilliJy 3263 comps IMAGR1: Total Cleaned flux density = 51.907 MilliJy 15464 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 1 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 3 min = -141.6 MicroJy,max = 166.5 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 77.80 MicroJy IMAGR1: 2074 Residual map points loaded IMAGR1: Field 3 min Clean flux = 84.384 MicroJy iter= 1878 IMAGR1: Field 3 Clean flux density= 763.922 MicroJy 1878 comps IMAGR1: Total Cleaned flux density = 51.940 MilliJy 15570 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 3 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 7 min = -155.0 MicroJy,max = 144.2 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 75.58 MicroJy IMAGR1: 3916 Residual map points loaded IMAGR1: Field 7 min Clean flux = -84.368 MicroJy iter= 2331 IMAGR1: Field 7 Clean flux density= 476.236 MicroJy 2331 comps IMAGR1: Total Cleaned flux density = 51.906 MilliJy 15718 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 7 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 2 min = -147.8 MicroJy,max = 150.9 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 72.20 MicroJy IMAGR1: 5751 Residual map points loaded IMAGR1: Field 2 min Clean flux = -84.375 MicroJy iter= 2243 IMAGR1: Field 2 Clean flux density= -343.269 MicroJy 2243 comps IMAGR1: Total Cleaned flux density = 51.762 MilliJy 15805 comps IMAGR1: ALGSTB: All 689 Rows In AP (Max 1035) IMAGR1: ALGSTB field 2 Ipol gridded model subtraction chns 1- 2 IMAGR1: ALGSTB: Pass 1; 678- 0 Cells, with 147565 Pts IMAGR1: Field 6 min = -144.8 MicroJy,max = 160.1 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 67.74 MicroJy IMAGR1: 7863 Residual map points loaded IMAGR1: Field 6 min Clean flux = 84.334 MicroJy iter= 1806 IMAGR1: Field 6 Clean flux density= -377.620 MicroJy 1806 comps IMAGR1: Total Cleaned flux density = 51.763 MilliJy 15827 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -147.1 MicroJy,max = 141.7 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 60.10 MicroJy IMAGR1: 19984 Residual map points loaded IMAGR1: Field 5 min Clean flux = -84.297 MicroJy iter= 2049 IMAGR1: Field 5 Clean flux density= 136.249 MicroJy 2049 comps IMAGR1: Total Cleaned flux density = 51.746 MilliJy 15835 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Peak residual in window 84.390 less than limit 84.396 MicroJy IMAGR1: Merging the Clean components files IMAGR1: Field 1 compressed from 3263 to 1731 components IMAGR1: Field 2 compressed from 2243 to 1482 components IMAGR1: Field 3 compressed from 1878 to 1288 components IMAGR1: Field 4 compressed from 2265 to 1491 components IMAGR1: Field 5 compressed from 2049 to 1399 components IMAGR1: Field 6 compressed from 1806 to 1215 components IMAGR1: Field 7 compressed from 2331 to 1536 components IMAGR1: Field 1 min = -139.2 MicroJy,max = 121.3 MicroJy IMAGR1: Field 2 min = -147.0 MicroJy,max = 151.0 MicroJy IMAGR1: Field 3 min = -140.3 MicroJy,max = 166.0 MicroJy IMAGR1: Field 4 min = -150.9 MicroJy,max = 173.3 MicroJy IMAGR1: Field 5 min = -147.4 MicroJy,max = 141.3 MicroJy IMAGR1: Field 6 min = -145.0 MicroJy,max = 160.3 MicroJy IMAGR1: Field 7 min = -155.3 MicroJy,max = 143.2 MicroJy IMAGR1: Restoring Clean components IMAGR1: Restoring overlapped Clean components IMAGR1: Restore -58.202 MicroJy ( 87 CCs) from field 1 to field 2 IMAGR1: Restore 432.904 MicroJy ( 134 CCs) from field 1 to field 3 IMAGR1: Restore 50.391 MicroJy ( 120 CCs) from field 1 to field 4 IMAGR1: Restore 3.885 MilliJy ( 174 CCs) from field 1 to field 5 IMAGR1: Restore -3.525 MicroJy ( 130 CCs) from field 1 to field 6 IMAGR1: Restore -88.423 MicroJy ( 129 CCs) from field 1 to field 7 IMAGR1: Restore-138.946 MicroJy ( 116 CCs) from field 2 to field 1 IMAGR1: Restore-880.927 Nano Jy ( 134 CCs) from field 2 to field 3 IMAGR1: Restore 45.943 MicroJy ( 190 CCs) from field 2 to field 4 IMAGR1: Restore 218.185 MicroJy ( 154 CCs) from field 3 to field 1 IMAGR1: Restore 232.898 MicroJy ( 183 CCs) from field 3 to field 2 IMAGR1: Restore-338.156 MicroJy ( 96 CCs) from field 3 to field 5 IMAGR1: Restore 1.115 MilliJy ( 178 CCs) from field 4 to field 1 IMAGR1: Restore 988.413 MicroJy ( 197 CCs) from field 4 to field 2 IMAGR1: Restore 20.295 MicroJy ( 101 CCs) from field 4 to field 6 IMAGR1: Restore 290.245 MicroJy ( 179 CCs) from field 5 to field 1 IMAGR1: Restore 151.128 MicroJy ( 124 CCs) from field 5 to field 3 IMAGR1: Restore 413.459 MicroJy ( 209 CCs) from field 5 to field 7 IMAGR1: Restore -67.107 MicroJy ( 141 CCs) from field 6 to field 1 IMAGR1: Restore 311.432 MicroJy ( 112 CCs) from field 6 to field 4 IMAGR1: Restore 134.819 MicroJy ( 139 CCs) from field 6 to field 7 IMAGR1: Restore -32.207 MicroJy ( 83 CCs) from field 7 to field 1 IMAGR1: Restore 300.962 MicroJy ( 191 CCs) from field 7 to field 5 IMAGR1: Restore 88.993 MicroJy ( 166 CCs) from field 7 to field 6 IMAGR1: Checking image max/min IMAGR1: Field 1 final Clean flux 50.814 MilliJy IMAGR1: Field 2 final Clean flux 819.841 MicroJy IMAGR1: Field 3 final Clean flux 1.347 MilliJy IMAGR1: Field 4 final Clean flux 2.069 MilliJy IMAGR1: Field 5 final Clean flux 3.984 MilliJy IMAGR1: Field 6 final Clean flux -271.858 MicroJy IMAGR1: Field 7 final Clean flux 936.091 MicroJy IMAGR1: Deleting UV work file: IMAGR1: Destroyed 1 extension files of type AN IMAGR1: Destroyed 1 extension files of type FQ IMAGR1: Destroyed UV image file: catno= 13 disk= 1 IMAGR1: Appears to have ended successfully IMAGR1: auto 31DEC06 TST: Cpu= 105.8 Real= 111 f /tmp/SETFC@2230+697_C,BAND.0-1 >& /dev/null AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 7 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 8 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 9 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 10 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 11 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 12 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 13 disk= 1 AIPS 1: Disk 1 in-CNO 14 renumbered as CNO 6 AIPS 1: Disk 1 in-CNO 15 renumbered as CNO 7 AIPS 1: Disk 1 in-CNO 16 renumbered as CNO 8 AIPS 1: Disk 1 in-CNO 17 renumbered as CNO 9 AIPS 1: Disk 1 in-CNO 18 renumbered as CNO 10 AIPS 1: Disk 1 in-CNO 19 renumbered as CNO 11 AIPS 1: Disk 1 in-CNO 20 renumbered as CNO 12 AIPS 1: ' ' AIPS 1: 'ESTIMATED RMS:' '0.01407 MILLI JANSKY' AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@CEPA_C,BAND.0-1 >& /dev/null AIPS 1: Waiting for returned adverbs AIPS 1: Resumes AIPS 1: SYSTEM command to be executed is: AIPS 1: cat /tmp/SETFC@CEPA_C,BAND.0-1 >> /home/auto/run/AH687_1999NOV22 AIPS 1: _2.log.0 AIPS 1: ' NOW STARTING WITH SOURCE :2 =CEPA' AIPS 1: ' ' AIPS 1: Resumes AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@CEPA_C,BAND.0-1 >& /dev/null AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 14 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 15 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 16 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 17 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 18 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 19 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 20 disk= 1 AIPS 1: Disk 1 in-CNO 21 renumbered as CNO 13 AIPS 1: Disk 1 in-CNO 22 renumbered as CNO 14 AIPS 1: Disk 1 in-CNO 23 renumbered as CNO 15 AIPS 1: Disk 1 in-CNO 24 renumbered as CNO 16 AIPS 1: Disk 1 in-CNO 25 renumbered as CNO 17 AIPS 1: Disk 1 in-CNO 26 renumbered as CNO 18 AIPS 1: Disk 1 in-CNO 27 renumbered as CNO 19 AIPS 1: ' ' AIPS 1: 'ESTIMATED RMS:' '0.05871 MILLI JANSKY' AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@0137+331_C,BAND.0-1 >& /dev/null SETFC1: Task SETFC (release of 31DEC06) begins SETFC1: Found 0137+331 C BAND Seq 1 Disk: 1 in slot 5 SETFC1: SETCEL: recommends IMSIZE 1062 CELLSIZE 0.52056 SETFC1: SETCEL: returns IMSIZE 1024 CELLSIZE 0.52056 SETFC1: ZTXOP2: using translated file name = SETFC1: ZTXOP2: /tmp/SETFC@0137+331_C,BAND.0-1 SETFC1: FLYEYE added 7 fields to BOXFILE to 0.123 deg SETFC1: Searching catalog between 0.12 and 0.23 degrees radius SETFC1: ZTXOP2: using translated file name = SETFC1: ZTXOP2: /home/auto/aips/TEXT/STARS/NV00.0030 SETFC1: No NVSS sources selected for BOXFILE SETFC1: The Sun is 148.1 deg away - ignoring SETFC1: First field number written was 1 SETFC1: Highest field number written was 7 SETFC1: returns adverbs to AIPS SETFC1: Appears to have ended successfully SETFC1: auto 31DEC06 TST: Cpu= 0.1 Real= 0 C 1 1012 1012 01 37 41.30 33 09 35.1 00001 -1 507 512 513 C 2 1012 1012 01 37 41.30 33 02 12.0 00002 -1 507 512 513 C 3 1012 1012 01 37 10.76 33 05 53.3 00003 -1 507 512 513 C 4 1012 1012 01 38 11.84 33 05 53.3 00004 -1 507 512 513 C 5 1012 1012 01 37 10.72 33 13 16.5 00005 -1 507 512 513 C 6 1012 1012 01 38 11.88 33 13 16.5 00006 -1 507 512 513 C 7 1012 1012 01 37 41.30 33 16 58.3 00007 -1 507 512 513 f /tmp/SETFC@2230+697_C,BAND.0-1 >& /dev/null AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 7 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 8 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 9 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 10 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 11 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 12 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 13 disk= 1 AIPS 1: Disk 1 in-CNO 14 renumbered as CNO 6 AIPS 1: Disk 1 in-CNO 15 renumbered as CNO 7 AIPS 1: Disk 1 in-CNO 16 renumbered as CNO 8 AIPS 1: Disk 1 in-CNO 17 renumbered as CNO 9 AIPS 1: Disk 1 in-CNO 18 renumbered as CNO 10 AIPS 1: Disk 1 in-CNO 19 renumbered as CNO 11 AIPS 1: Disk 1 in-CNO 20 renumbered as CNO 12 AIPS 1: ' ' AIPS 1: 'ESTIMATED RMS:' '0.01407 MILLI JANSKY' AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@CEPA_C,BAND.0-1 >& /dev/null AIPS 1: Waiting for returned adverbs AIPS 1: Resumes AIPS 1: SYSTEM command to be executed is: AIPS 1: cat /tmp/SETFC@CEPA_C,BAND.0-1 >> /home/auto/run/AH687_1999NOV22 AIPS 1: _2.log.0 AIPS 1: ' NOW STARTING WITH SOURCE :2 =CEPA' AIPS 1: ' ' AIPS 1: Resumes AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@CEPA_C,BAND.0-1 >& /dev/null AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 14 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 15 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 16 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 17 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 18 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 19 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 20 disk= 1 AIPS 1: Disk 1 in-CNO 21 renumbered as CNO 13 AIPS 1: Disk 1 in-CNO 22 renumbered as CNO 14 AIPS 1: Disk 1 in-CNO 23 renumbered as CNO 15 AIPS 1: Disk 1 in-CNO 24 renumbered as CNO 16 AIPS 1: Disk 1 in-CNO 25 renumbered as CNO 17 AIPS 1: Disk 1 in-CNO 26 renumbered as CNO 18 AIPS 1: Disk 1 in-CNO 27 renumbered as CNO 19 AIPS 1: ' ' AIPS 1: 'ESTIMATED RMS:' '0.05871 MILLI JANSKY' AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@0137+331_C,BAND.0-1 >& /dev/null AIPS 1: Waiting for returned adverbs AIPS 1: Resumes AIPS 1: SYSTEM command to be executed is: AIPS 1: cat /tmp/SETFC@0137+331_C,BAND.0-1 >> /home/auto/run/AH687_1999N AIPS 1: OV22_2.log.0 AIPS 1: ' NOW STARTING WITH SOURCE :3 =0137+331' AIPS 1: ' ' IMAGR1: Task IMAGR (release of 31DEC06) begins IMAGR1: ZTXOP2: using translated file name = IMAGR1: ZTXOP2: /tmp/SETFC@0137+331_C,BAND.0-1 IMAGR1: FIELDF: Final field parameters and # read are: IMAGR1: Field 1 1012 1012 6.2786E-03 -3.4000E-02 0 IMAGR1: Field 2 1012 1012 6.2786E-03 -4.4313E+02 0 IMAGR1: Field 3 1012 1012 -3.8349E+02 -2.2183E+02 0 IMAGR1: Field 4 1012 1012 3.8350E+02 -2.2183E+02 0 IMAGR1: Field 5 1012 1012 -3.8399E+02 2.2137E+02 0 IMAGR1: Field 6 1012 1012 3.8401E+02 2.2137E+02 0 IMAGR1: Field 7 1012 1012 6.2786E-03 4.4317E+02 0 IMAGR1: ZTXOP2: using translated file name = IMAGR1: ZTXOP2: /tmp/SETFC@0137+331_C,BAND.0-1 IMAGR1: WINDF: Number of clean boxes/field read as follows: IMAGR1: Field 01: 1 Field 02: 1 Field 03: 1 Field 04: 1 IMAGR1: Field 05: 1 Field 06: 1 Field 07: 1 IMAGR1: Create 0137+331 .IMAGR . 1 (UV) on disk 1 cno 20 IMAGR1: Beginning channel 1 through 1 with 2 IFs IMAGR1: IMACPY: Copied 8470 visibilities to be imaged IMAGR1: **** WARNING data included out of inner portion of UV plane **** IMAGR1: **** Watch for high-frequency & other poor cleaning effects **** IMAGR1: UVWAIT: begin finding uniform weights IMAGR1: UVWAIT: Average grid weight 6.795E+04 IMAGR1: UVWAIT: Adding temperance S 1.359E+04 IMAGR1: UVWAIT: begin applying uniform or other weights IMAGR1: UVWAIT: Sum of weights in 2.243E+07 and out 3.155E+07 IMAGR1: UVWAIT: Noise is increased by a factor 1.143 due to weighting IMAGR1: UVWAIT: Average summed weight 6.795E+04 over 16940 vis IMAGR1: Create 0137+331 .IBM001. 1 (MA) on disk 1 cno 21 IMAGR1: Create 0137+331 .IBM002. 1 (MA) on disk 1 cno 22 IMAGR1: Create 0137+331 .IBM003. 1 (MA) on disk 1 cno 23 IMAGR1: Create 0137+331 .IBM004. 1 (MA) on disk 1 cno 24 IMAGR1: Create 0137+331 .IBM005. 1 (MA) on disk 1 cno 25 IMAGR1: Create 0137+331 .IBM006. 1 (MA) on disk 1 cno 26 IMAGR1: Create 0137+331 .IBM007. 1 (MA) on disk 1 cno 27 IMAGR1: Create 0137+331 .ICL001. 1 (MA) on disk 1 cno 28 IMAGR1: Create 0137+331 .ICL002. 1 (MA) on disk 1 cno 29 IMAGR1: Create 0137+331 .ICL003. 1 (MA) on disk 1 cno 30 IMAGR1: Create 0137+331 .ICL004. 1 (MA) on disk 1 cno 31 IMAGR1: Create 0137+331 .ICL005. 1 (MA) on disk 1 cno 32 IMAGR1: Create 0137+331 .ICL006. 1 (MA) on disk 1 cno 33 IMAGR1: Create 0137+331 .ICL007. 1 (MA) on disk 1 cno 34 IMAGR1: GRDFLT: X and Y convolution type = SPHEROIDAL IMAGR1: GRDFLT: X and Y parms = 3.0000 1.0000 IMAGR1: GRDFLT: convolution function sampled every 1/100 of a cell IMAGR1: GRDMEM: Ave 2 Channels; 4.885100E+09 to 4.835100E+09 Hz IMAGR1: Field 1 Sum of gridding weights = 3.34899E+08 IMAGR1: Field 1 Beam min = -185.0 MilliJy, max = 1.0 Jy IMAGR1: Field 1 fit FWHM = 1.773 x 1.248 arcsec, PA= -14.0 IMAGR1: Field 2 Sum of gridding weights = 3.34899E+08 IMAGR1: Field 2 Beam min = -185.0 MilliJy, max = 1.0 Jy IMAGR1: Field 2 fit FWHM = 1.774 x 1.248 arcsec, PA= -14.1 IMAGR1: Field 3 Sum of gridding weights = 3.34899E+08 IMAGR1: Field 3 Beam min = -187.0 MilliJy, max = 1.0 Jy IMAGR1: Field 3 fit FWHM = 1.774 x 1.247 arcsec, PA= -14.1 IMAGR1: Field 4 Sum of gridding weights = 3.34899E+08 IMAGR1: Field 4 Beam min = -182.6 MilliJy, max = 1.0 Jy IMAGR1: Field 4 fit FWHM = 1.774 x 1.248 arcsec, PA= -14.0 IMAGR1: Field 5 Sum of gridding weights = 3.34899E+08 IMAGR1: Field 5 Beam min = -187.0 MilliJy, max = 1.0 Jy IMAGR1: Field 5 fit FWHM = 1.773 x 1.247 arcsec, PA= -14.1 IMAGR1: Field 6 Sum of gridding weights = 3.34899E+08 IMAGR1: Field 6 Beam min = -182.6 MilliJy, max = 1.0 Jy IMAGR1: Field 6 fit FWHM = 1.773 x 1.248 arcsec, PA= -13.9 IMAGR1: Field 7 Sum of gridding weights = 3.34899E+08 IMAGR1: Field 7 Beam min = -185.0 MilliJy, max = 1.0 Jy IMAGR1: Field 7 fit FWHM = 1.773 x 1.248 arcsec, PA= -14.0 IMAGR1: CLBHIS: minimum component 0.500 of current peak IMAGR1: Field 1 min = -964.9 MilliJy,max = 5.0 Jy IMAGR1: Field 2 min = -560.7 MilliJy,max = 699.2 MilliJy IMAGR1: Field 3 min = -497.5 MilliJy,max = 932.3 MilliJy IMAGR1: Field 4 min = -570.8 MilliJy,max = 981.2 MilliJy IMAGR1: Field 5 min = -574.6 MilliJy,max = 926.1 MilliJy IMAGR1: Field 6 min = -634.8 MilliJy,max = 1.0 Jy IMAGR1: Field 7 min = -600.0 MilliJy,max = 776.9 MilliJy IMAGR1: BGC Clean: using 2043 cell beam + residuals > 584.45 MilliJy IMAGR1: 9709 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 2.325 Jy iter= 9 IMAGR1: Field 1 Clean flux density= 3.146 Jy 9 comps IMAGR1: Total Cleaned flux density = 3.146 Jy 9 comps IMAGR1: SETDO3: imaging done with multiple tangent planes IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: VISDFT: Model components of type Point IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -439.8 MilliJy,max = 2.1 Jy IMAGR1: BGC Clean: using 857 cell beam + residuals > 386.28 MilliJy IMAGR1: 2941 Residual map points loaded IMAGR1: Field 1 min allowed flux = 988.001 MilliJy iter= 18 IMAGR1: Field 1 Clean flux density= 4.486 Jy 18 comps IMAGR1: Total Cleaned flux density = 4.486 Jy 18 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -228.2 MilliJy,max = 910.0 MilliJy IMAGR1: BGC Clean: using 161 cell beam + residuals > 382.25 MilliJy IMAGR1: 109 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 465.571 MilliJy iter= 26 IMAGR1: Field 1 Clean flux density= 5.019 Jy 26 comps IMAGR1: Total Cleaned flux density = 5.019 Jy 26 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -76.0 MilliJy,max = 84.1 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 7.220E-02 < Second best 8.391E-01 IMAGR1: Field 3 min = -66.4 MilliJy,max = 77.9 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 7.294E-02 < Second best 8.111E-01 IMAGR1: Field 5 min = -81.0 MilliJy,max = 97.7 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 9.324E-02 < Second best 7.741E-01 IMAGR1: Field 4 min = -74.6 MilliJy,max = 84.8 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 8.103E-02 < Second best 6.651E-01 IMAGR1: Field 7 min = -84.5 MilliJy,max = 100.6 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 8.789E-02 < Second best 6.451E-01 IMAGR1: Field 2 min = -81.8 MilliJy,max = 92.9 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 8.253E-02 < Second best 4.430E-01 IMAGR1: Field 1 min = -158.3 MilliJy,max = 429.2 MilliJy IMAGR1: BGC Clean: using 2043 cell beam + residuals > 54.01 MilliJy IMAGR1: 15683 Residual map points loaded IMAGR1: Field 1 min allowed flux = 198.043 MilliJy iter= 37 IMAGR1: Field 1 Clean flux density= 5.351 Jy 37 comps IMAGR1: Total Cleaned flux density = 5.351 Jy 37 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -131.1 MilliJy,max = 189.3 MilliJy IMAGR1: BGC Clean: using 399 cell beam + residuals > 47.92 MilliJy IMAGR1: 3974 Residual map points loaded IMAGR1: Field 1 min allowed flux = -93.709 MilliJy iter= 54 IMAGR1: Field 1 Clean flux density= 5.412 Jy 54 comps IMAGR1: Total Cleaned flux density = 5.412 Jy 54 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -40.1 MilliJy,max = 39.1 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 3.800E-02 < Second best 8.922E-02 IMAGR1: Field 1 min = -92.2 MilliJy,max = 89.1 MilliJy IMAGR1: BGC Clean: using 159 cell beam + residuals > 41.72 MilliJy IMAGR1: 1191 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 57.783 MilliJy iter= 79 IMAGR1: Field 1 Clean flux density= 5.402 Jy 79 comps IMAGR1: Total Cleaned flux density = 5.402 Jy 79 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -29.8 MilliJy,max = 31.5 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 2.575E-02 < Second best 8.253E-02 IMAGR1: Field 2 min = -29.9 MilliJy,max = 29.3 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 2.388E-02 < Second best 8.103E-02 IMAGR1: Field 4 min = -27.4 MilliJy,max = 26.0 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 2.483E-02 < Second best 7.294E-02 IMAGR1: Field 3 min = -21.8 MilliJy,max = 21.9 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 2.080E-02 < Second best 7.220E-02 IMAGR1: Field 6 min = -22.7 MilliJy,max = 25.1 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 1.957E-02 < Second best 5.506E-02 IMAGR1: Field 1 min = -53.8 MilliJy,max = 50.1 MilliJy IMAGR1: BGC Clean: using 347 cell beam + residuals > 18.60 MilliJy IMAGR1: 7932 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 27.578 MilliJy iter= 126 IMAGR1: Field 1 Clean flux density= 5.398 Jy 126 comps IMAGR1: Total Cleaned flux density = 5.398 Jy 126 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -18.3 MilliJy,max = 20.4 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 1.804E-02 < Second best 2.630E-02 IMAGR1: Field 1 min = -26.6 MilliJy,max = 26.6 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 14.68 MilliJy IMAGR1: 2589 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 19.031 MilliJy iter= 168 IMAGR1: Field 1 Clean flux density= 5.410 Jy 168 comps IMAGR1: Total Cleaned flux density = 5.410 Jy 168 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -15.9 MilliJy,max = 15.7 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 1.355E-02 < Second best 2.483E-02 IMAGR1: Field 4 min = -15.4 MilliJy,max = 16.1 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 1.542E-02 < Second best 2.388E-02 IMAGR1: Field 2 min = -16.0 MilliJy,max = 15.6 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 1.491E-02 < Second best 2.080E-02 IMAGR1: Field 3 min = -11.0 MilliJy,max = 12.0 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 1.050E-02 < Second best 1.957E-02 IMAGR1: Field 6 min = -11.3 MilliJy,max = 12.2 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 1.087E-02 < Second best 1.818E-02 IMAGR1: Field 1 min = -19.4 MilliJy,max = 18.0 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 10.13 MilliJy IMAGR1: 4457 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 13.269 MilliJy iter= 227 IMAGR1: Field 1 Clean flux density= 5.404 Jy 227 comps IMAGR1: Total Cleaned flux density = 5.404 Jy 227 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -10.8 MilliJy,max = 12.9 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 1.088E-02 < Second best 1.542E-02 IMAGR1: Field 4 min = -13.4 MilliJy,max = 13.1 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 1.252E-02 < Second best 1.491E-02 IMAGR1: Field 2 min = -12.8 MilliJy,max = 12.4 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 1.191E-02 < Second best 1.355E-02 IMAGR1: Field 7 min = -11.9 MilliJy,max = 12.6 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 1.201E-02 < Second best 1.268E-02 IMAGR1: Field 1 min = -12.8 MilliJy,max = 12.9 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 7.06 MilliJy IMAGR1: 5702 Residual map points loaded IMAGR1: Field 1 min algorithm flux= -9.164 MilliJy iter= 305 IMAGR1: Field 1 Clean flux density= 5.403 Jy 305 comps IMAGR1: Total Cleaned flux density = 5.403 Jy 305 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -12.0 MilliJy,max = 10.3 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 9.839E-03 < Second best 1.201E-02 IMAGR1: Field 7 min = -10.4 MilliJy,max = 11.3 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 1.080E-02 < Second best 1.191E-02 IMAGR1: Field 2 min = -11.3 MilliJy,max = 10.8 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 9.467E-03 < Second best 1.088E-02 IMAGR1: Field 5 min = -9.4 MilliJy,max = 11.2 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 1.004E-02 < Second best 1.087E-02 IMAGR1: Field 6 min = -8.7 MilliJy,max = 9.9 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 9.501E-03 < Second best 1.080E-02 IMAGR1: BGC Clean: using 113 cell beam + residuals > 6.69 MilliJy IMAGR1: 1523 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 8.132 MilliJy iter= 70 IMAGR1: Field 7 Clean flux density= 31.943 MilliJy 70 comps IMAGR1: Total Cleaned flux density = 5.435 Jy 375 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -8.8 MilliJy,max = 10.0 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 8.377E-03 < Second best 1.004E-02 IMAGR1: Field 5 min = -8.9 MilliJy,max = 9.9 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 8.136E-03 < Second best 9.839E-03 IMAGR1: Field 4 min = -11.7 MilliJy,max = 9.9 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 6.85 MilliJy IMAGR1: 443 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -7.497 MilliJy iter= 37 IMAGR1: Field 4 Clean flux density= 4.454 MilliJy 37 comps IMAGR1: Total Cleaned flux density = 5.440 Jy 412 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -8.0 MilliJy,max = 8.7 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 8.286E-03 < Second best 9.467E-03 IMAGR1: Field 2 min = -10.3 MilliJy,max = 10.0 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 6.85 MilliJy IMAGR1: 501 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -7.639 MilliJy iter= 50 IMAGR1: Field 2 Clean flux density= -11.681 MilliJy 50 comps IMAGR1: Total Cleaned flux density = 5.428 Jy 462 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -8.5 MilliJy,max = 9.5 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 6.01 MilliJy IMAGR1: 708 Residual map points loaded IMAGR1: Field 1 min algorithm flux= -6.500 MilliJy iter= 346 IMAGR1: Field 1 Clean flux density= 5.394 Jy 346 comps IMAGR1: Total Cleaned flux density = 5.419 Jy 503 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -7.9 MilliJy,max = 8.8 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 7.531E-03 < Second best 8.286E-03 IMAGR1: Field 6 min = -7.5 MilliJy,max = 8.6 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 6.01 MilliJy IMAGR1: 219 Residual map points loaded IMAGR1: Field 6 min algorithm flux= 6.434 MilliJy iter= 41 IMAGR1: Field 6 Clean flux density= 1.118 MilliJy 41 comps IMAGR1: Total Cleaned flux density = 5.420 Jy 544 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -8.4 MilliJy,max = 8.6 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 6.01 MilliJy IMAGR1: 200 Residual map points loaded IMAGR1: Field 5 min algorithm flux= 6.389 MilliJy iter= 37 IMAGR1: Field 5 Clean flux density= 12.268 MilliJy 37 comps IMAGR1: Total Cleaned flux density = 5.432 Jy 581 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -8.0 MilliJy,max = 7.4 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 6.738E-03 < Second best 7.531E-03 IMAGR1: Field 3 min = -7.8 MilliJy,max = 8.7 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 5.27 MilliJy IMAGR1: 743 Residual map points loaded IMAGR1: Field 3 min algorithm flux= -5.882 MilliJy iter= 71 IMAGR1: Field 3 Clean flux density= 11.812 MilliJy 71 comps IMAGR1: Total Cleaned flux density = 5.444 Jy 652 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -8.2 MilliJy,max = 7.8 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 5.27 MilliJy IMAGR1: 753 Residual map points loaded IMAGR1: Field 2 min algorithm flux= 5.816 MilliJy iter= 119 IMAGR1: Field 2 Clean flux density= -8.135 MilliJy 119 comps IMAGR1: Total Cleaned flux density = 5.448 Jy 721 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -7.5 MilliJy,max = 8.6 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 6.038E-03 < Second best 6.738E-03 IMAGR1: Field 7 min = -7.7 MilliJy,max = 7.2 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 5.09 MilliJy IMAGR1: 900 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 5.694 MilliJy iter= 162 IMAGR1: Field 7 Clean flux density= 24.336 MilliJy 162 comps IMAGR1: Total Cleaned flux density = 5.440 Jy 813 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -6.5 MilliJy,max = 7.4 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 5.520E-03 < Second best 6.158E-03 IMAGR1: Field 6 min = -6.5 MilliJy,max = 6.4 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 5.665E-03 < Second best 6.118E-03 IMAGR1: Field 5 min = -6.8 MilliJy,max = 7.5 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 5.467E-03 < Second best 6.038E-03 IMAGR1: Field 4 min = -7.3 MilliJy,max = 8.5 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 4.59 MilliJy IMAGR1: 654 Residual map points loaded IMAGR1: Field 4 min algorithm flux= 5.048 MilliJy iter= 122 IMAGR1: Field 4 Clean flux density= 5.786 MilliJy 122 comps IMAGR1: Total Cleaned flux density = 5.441 Jy 898 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -6.4 MilliJy,max = 6.1 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 4.59 MilliJy IMAGR1: 263 Residual map points loaded IMAGR1: Field 6 min algorithm flux= 4.847 MilliJy iter= 93 IMAGR1: Field 6 Clean flux density= 4.180 MilliJy 93 comps IMAGR1: Total Cleaned flux density = 5.445 Jy 950 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -6.2 MilliJy,max = 6.1 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 5.217E-03 < Second best 5.573E-03 IMAGR1: Field 2 min = -7.2 MilliJy,max = 6.9 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 5.056E-03 < Second best 5.520E-03 IMAGR1: Field 1 min = -6.2 MilliJy,max = 6.5 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 5.086E-03 < Second best 5.467E-03 IMAGR1: Field 5 min = -6.4 MilliJy,max = 7.1 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 4.20 MilliJy IMAGR1: 725 Residual map points loaded IMAGR1: Field 5 min algorithm flux= 4.600 MilliJy iter= 130 IMAGR1: Field 5 Clean flux density= 13.447 MilliJy 130 comps IMAGR1: Total Cleaned flux density = 5.446 Jy 1043 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -6.3 MilliJy,max = 6.8 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 4.861E-03 < Second best 5.217E-03 IMAGR1: Field 3 min = -6.1 MilliJy,max = 6.4 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 3.65 MilliJy IMAGR1: 1538 Residual map points loaded IMAGR1: Field 3 min algorithm flux= 4.145 MilliJy iter= 220 IMAGR1: Field 3 Clean flux density= 22.818 MilliJy 220 comps IMAGR1: Total Cleaned flux density = 5.457 Jy 1192 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -5.7 MilliJy,max = 6.1 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 3.63 MilliJy IMAGR1: 605 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 3.835 MilliJy iter= 414 IMAGR1: Field 1 Clean flux density= 5.395 Jy 414 comps IMAGR1: Total Cleaned flux density = 5.457 Jy 1260 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -6.3 MilliJy,max = 5.9 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 3.58 MilliJy IMAGR1: 1354 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -3.976 MilliJy iter= 266 IMAGR1: Field 2 Clean flux density= -8.274 MilliJy 266 comps IMAGR1: Total Cleaned flux density = 5.457 Jy 1407 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -6.3 MilliJy,max = 6.5 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 3.63 MilliJy IMAGR1: 868 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 3.950 MilliJy iter= 289 IMAGR1: Field 7 Clean flux density= 27.308 MilliJy 289 comps IMAGR1: Total Cleaned flux density = 5.460 Jy 1534 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -5.6 MilliJy,max = 6.6 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 3.967E-03 < Second best 4.646E-03 IMAGR1: Field 6 min = -4.7 MilliJy,max = 4.9 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 4.026E-03 < Second best 4.410E-03 IMAGR1: Field 5 min = -5.0 MilliJy,max = 5.8 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 3.633E-03 < Second best 4.026E-03 IMAGR1: BGC Clean: using 113 cell beam + residuals > 3.19 MilliJy IMAGR1: 557 Residual map points loaded IMAGR1: Field 6 min algorithm flux= 3.395 MilliJy iter= 190 IMAGR1: Field 6 Clean flux density= 1.054 MilliJy 190 comps IMAGR1: Total Cleaned flux density = 5.457 Jy 1631 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -5.0 MilliJy,max = 5.0 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 3.461E-03 < Second best 3.967E-03 IMAGR1: Field 4 min = -5.6 MilliJy,max = 6.1 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 3.04 MilliJy IMAGR1: 531 Residual map points loaded IMAGR1: Field 4 min algorithm flux= 3.221 MilliJy iter= 219 IMAGR1: Field 4 Clean flux density= 11.710 MilliJy 219 comps IMAGR1: Total Cleaned flux density = 5.463 Jy 1728 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -5.1 MilliJy,max = 5.2 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 3.413E-03 < Second best 3.787E-03 IMAGR1: Field 7 min = -5.2 MilliJy,max = 5.4 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 2.73 MilliJy IMAGR1: 1100 Residual map points loaded IMAGR1: Field 7 min algorithm flux= -2.942 MilliJy iter= 423 IMAGR1: Field 7 Clean flux density= 24.932 MilliJy 423 comps IMAGR1: Total Cleaned flux density = 5.461 Jy 1862 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -3.8 MilliJy,max = 4.4 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 3.083E-03 < Second best 3.633E-03 IMAGR1: Field 5 min = -4.6 MilliJy,max = 5.1 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 2.48 MilliJy IMAGR1: 1186 Residual map points loaded IMAGR1: Field 5 min algorithm flux= 2.703 MilliJy iter= 302 IMAGR1: Field 5 Clean flux density= 15.764 MilliJy 302 comps IMAGR1: Total Cleaned flux density = 5.463 Jy 2034 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -4.9 MilliJy,max = 4.4 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 3.218E-03 < Second best 3.413E-03 IMAGR1: Field 2 min = -5.0 MilliJy,max = 5.0 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 2.46 MilliJy IMAGR1: 1984 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -2.735 MilliJy iter= 484 IMAGR1: Field 2 Clean flux density= 6.730 MilliJy 484 comps IMAGR1: Total Cleaned flux density = 5.478 Jy 2252 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -3.8 MilliJy,max = 4.1 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 2.995E-03 < Second best 3.218E-03 IMAGR1: Field 3 min = -4.4 MilliJy,max = 4.1 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 2.34 MilliJy IMAGR1: 353 Residual map points loaded IMAGR1: Field 3 min algorithm flux= 2.447 MilliJy iter= 325 IMAGR1: Field 3 Clean flux density= 21.862 MilliJy 325 comps IMAGR1: Total Cleaned flux density = 5.477 Jy 2357 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -4.7 MilliJy,max = 4.7 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 2.768E-03 < Second best 3.083E-03 IMAGR1: Field 1 min = -3.4 MilliJy,max = 3.8 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 2.753E-03 < Second best 2.995E-03 IMAGR1: Field 6 min = -3.7 MilliJy,max = 4.1 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 2.22 MilliJy IMAGR1: 987 Residual map points loaded IMAGR1: Field 6 min algorithm flux= -2.384 MilliJy iter= 357 IMAGR1: Field 6 Clean flux density= 2.622 MilliJy 357 comps IMAGR1: Total Cleaned flux density = 5.479 Jy 2524 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -4.7 MilliJy,max = 4.5 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 2.20 MilliJy IMAGR1: 458 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 2.290 MilliJy iter= 524 IMAGR1: Field 7 Clean flux density= 27.181 MilliJy 524 comps IMAGR1: Total Cleaned flux density = 5.481 Jy 2625 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -4.6 MilliJy,max = 4.5 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 2.20 MilliJy IMAGR1: 300 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -2.269 MilliJy iter= 301 IMAGR1: Field 4 Clean flux density= 9.601 MilliJy 301 comps IMAGR1: Total Cleaned flux density = 5.479 Jy 2707 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -2.7 MilliJy,max = 3.1 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 2.20 MilliJy IMAGR1: 73 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 2.199 MilliJy iter= 438 IMAGR1: Field 1 Clean flux density= 5.395 Jy 438 comps IMAGR1: Total Cleaned flux density = 5.479 Jy 2731 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -4.1 MilliJy,max = 4.0 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 2.08 MilliJy IMAGR1: 133 Residual map points loaded IMAGR1: Field 2 min algorithm flux= 2.123 MilliJy iter= 535 IMAGR1: Field 2 Clean flux density= 4.956 MilliJy 535 comps IMAGR1: Total Cleaned flux density = 5.477 Jy 2782 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -3.9 MilliJy,max = 4.3 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 1.84 MilliJy IMAGR1: 438 Residual map points loaded IMAGR1: Field 5 min algorithm flux= -1.910 MilliJy iter= 417 IMAGR1: Field 5 Clean flux density= 19.316 MilliJy 417 comps IMAGR1: Total Cleaned flux density = 5.480 Jy 2897 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -3.7 MilliJy,max = 3.9 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 1.88 MilliJy IMAGR1: 144 Residual map points loaded IMAGR1: Field 3 min algorithm flux= 1.920 MilliJy iter= 384 IMAGR1: Field 3 Clean flux density= 23.274 MilliJy 384 comps IMAGR1: Total Cleaned flux density = 5.482 Jy 2956 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -3.5 MilliJy,max = 3.5 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 2.053E-03 < Second best 2.195E-03 IMAGR1: Field 7 min = -4.6 MilliJy,max = 4.2 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 1.67 MilliJy IMAGR1: 1308 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 1.781 MilliJy iter= 727 IMAGR1: Field 7 Clean flux density= 26.848 MilliJy 727 comps IMAGR1: Total Cleaned flux density = 5.482 Jy 3159 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -4.2 MilliJy,max = 4.1 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 2.006E-03 < Second best 2.107E-03 IMAGR1: Field 1 min = -2.3 MilliJy,max = 2.7 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 1.65 MilliJy IMAGR1: 266 Residual map points loaded IMAGR1: Field 1 min algorithm flux= -1.688 MilliJy iter= 504 IMAGR1: Field 1 Clean flux density= 5.395 Jy 504 comps IMAGR1: Total Cleaned flux density = 5.482 Jy 3225 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -3.6 MilliJy,max = 3.4 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 1.65 MilliJy IMAGR1: 268 Residual map points loaded IMAGR1: Field 6 min algorithm flux= -1.699 MilliJy iter= 442 IMAGR1: Field 6 Clean flux density= -3.471 MilliJy 442 comps IMAGR1: Total Cleaned flux density = 5.476 Jy 3310 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -3.8 MilliJy,max = 3.9 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 1.50 MilliJy IMAGR1: 2739 Residual map points loaded IMAGR1: Field 2 min algorithm flux= 1.652 MilliJy iter= 873 IMAGR1: Field 2 Clean flux density= 10.358 MilliJy 873 comps IMAGR1: Total Cleaned flux density = 5.481 Jy 3648 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -3.8 MilliJy,max = 3.3 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 1.48 MilliJy IMAGR1: 1117 Residual map points loaded IMAGR1: Field 4 min algorithm flux= 1.558 MilliJy iter= 489 IMAGR1: Field 4 Clean flux density= 14.769 MilliJy 489 comps IMAGR1: Total Cleaned flux density = 5.487 Jy 3836 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -3.4 MilliJy,max = 3.4 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 1.45 MilliJy IMAGR1: 607 Residual map points loaded IMAGR1: Field 3 min algorithm flux= -1.516 MilliJy iter= 537 IMAGR1: Field 3 Clean flux density= 24.951 MilliJy 537 comps IMAGR1: Total Cleaned flux density = 5.488 Jy 3989 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -3.7 MilliJy,max = 3.9 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 1.40 MilliJy IMAGR1: 596 Residual map points loaded IMAGR1: Field 5 min algorithm flux= 1.457 MilliJy iter= 562 IMAGR1: Field 5 Clean flux density= 24.124 MilliJy 562 comps IMAGR1: Total Cleaned flux density = 5.493 Jy 4134 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -4.2 MilliJy,max = 3.9 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 1.34 MilliJy IMAGR1: 813 Residual map points loaded IMAGR1: Field 7 min algorithm flux= -1.402 MilliJy iter= 905 IMAGR1: Field 7 Clean flux density= 27.268 MilliJy 905 comps IMAGR1: Total Cleaned flux density = 5.493 Jy 4312 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -3.2 MilliJy,max = 3.3 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 1.32 MilliJy IMAGR1: 659 Residual map points loaded IMAGR1: Field 6 min algorithm flux= -1.373 MilliJy iter= 612 IMAGR1: Field 6 Clean flux density= -967.071 MicroJy 612 comps IMAGR1: Total Cleaned flux density = 5.496 Jy 4482 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -1.6 MilliJy,max = 1.7 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 1.29 MilliJy IMAGR1: 43 Residual map points loaded IMAGR1: Field 1 min algorithm flux= -1.299 MilliJy iter= 529 IMAGR1: Field 1 Clean flux density= 5.396 Jy 529 comps IMAGR1: Total Cleaned flux density = 5.496 Jy 4507 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -3.3 MilliJy,max = 3.5 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 1.26 MilliJy IMAGR1: 279 Residual map points loaded IMAGR1: Field 2 min algorithm flux= 1.288 MilliJy iter= 967 IMAGR1: Field 2 Clean flux density= 12.208 MilliJy 967 comps IMAGR1: Total Cleaned flux density = 5.498 Jy 4601 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -3.9 MilliJy,max = 3.1 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 1.26 MilliJy IMAGR1: 132 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -1.273 MilliJy iter= 546 IMAGR1: Field 4 Clean flux density= 12.455 MilliJy 546 comps IMAGR1: Total Cleaned flux density = 5.496 Jy 4658 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -3.2 MilliJy,max = 3.2 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 1.15 MilliJy IMAGR1: 482 Residual map points loaded IMAGR1: Field 3 min algorithm flux= -1.188 MilliJy iter= 677 IMAGR1: Field 3 Clean flux density= 25.752 MilliJy 677 comps IMAGR1: Total Cleaned flux density = 5.496 Jy 4798 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -3.4 MilliJy,max = 3.7 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 1.12 MilliJy IMAGR1: 361 Residual map points loaded IMAGR1: Field 5 min algorithm flux= -1.144 MilliJy iter= 684 IMAGR1: Field 5 Clean flux density= 24.882 MilliJy 684 comps IMAGR1: Total Cleaned flux density = 5.497 Jy 4920 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -3.8 MilliJy,max = 3.7 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 1.11 MilliJy IMAGR1: 408 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 1.135 MilliJy iter= 1024 IMAGR1: Field 7 Clean flux density= 26.022 MilliJy 1024 comps IMAGR1: Total Cleaned flux density = 5.496 Jy 5039 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -3.1 MilliJy,max = 3.2 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 1.05 MilliJy IMAGR1: 353 Residual map points loaded IMAGR1: Field 6 min algorithm flux= 1.075 MilliJy iter= 719 IMAGR1: Field 6 Clean flux density= -1.258 MilliJy 719 comps IMAGR1: Total Cleaned flux density = 5.496 Jy 5146 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -1.4 MilliJy,max = 1.4 MilliJy IMAGR1: TRY ANOTHER FIELD: this is 1.162E-03 < Second best 1.234E-03 IMAGR1: Field 2 min = -3.1 MilliJy,max = 3.4 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 941.78 MicroJy IMAGR1: 2124 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -1.006 MilliJy iter= 1309 IMAGR1: Field 2 Clean flux density= 13.842 MilliJy 1309 comps IMAGR1: Total Cleaned flux density = 5.497 Jy 5488 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -3.5 MilliJy,max = 3.0 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 920.46 MicroJy IMAGR1: 1504 Residual map points loaded IMAGR1: Field 4 min algorithm flux= 971.130 MicroJy iter= 834 IMAGR1: Field 4 Clean flux density= 15.770 MilliJy 834 comps IMAGR1: Total Cleaned flux density = 5.501 Jy 5776 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -1.2 MilliJy,max = 1.4 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 919.18 MicroJy IMAGR1: 328 Residual map points loaded IMAGR1: Field 1 min algorithm flux= -940.328 MicroJy iter= 646 IMAGR1: Field 1 Clean flux density= 5.396 Jy 646 comps IMAGR1: Total Cleaned flux density = 5.501 Jy 5893 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -3.0 MilliJy,max = 3.0 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 891.59 MicroJy IMAGR1: 1091 Residual map points loaded IMAGR1: Field 3 min algorithm flux= 937.544 MicroJy iter= 913 IMAGR1: Field 3 Clean flux density= 27.524 MilliJy 913 comps IMAGR1: Total Cleaned flux density = 5.503 Jy 6129 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -3.2 MilliJy,max = 3.5 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 871.67 MicroJy IMAGR1: 1504 Residual map points loaded IMAGR1: Field 5 min algorithm flux= 912.282 MicroJy iter= 950 IMAGR1: Field 5 Clean flux density= 27.540 MilliJy 950 comps IMAGR1: Total Cleaned flux density = 5.505 Jy 6395 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -3.6 MilliJy,max = 3.4 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 871.67 MicroJy IMAGR1: 1793 Residual map points loaded IMAGR1: Field 7 min algorithm flux= -920.769 MicroJy iter= 1317 IMAGR1: Field 7 Clean flux density= 25.541 MilliJy 1317 comps IMAGR1: Total Cleaned flux density = 5.505 Jy 6688 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -2.9 MilliJy,max = 3.0 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 871.67 MicroJy IMAGR1: 847 Residual map points loaded IMAGR1: Field 6 min algorithm flux= 904.869 MicroJy iter= 911 IMAGR1: Field 6 Clean flux density= 302.575 MicroJy 911 comps IMAGR1: Total Cleaned flux density = 5.506 Jy 6880 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -2.9 MilliJy,max = 3.3 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 871.67 MicroJy IMAGR1: 464 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -896.631 MicroJy iter= 1441 IMAGR1: Field 2 Clean flux density= 13.445 MilliJy 1441 comps IMAGR1: Total Cleaned flux density = 5.506 Jy 7012 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -3.4 MilliJy,max = 2.9 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 782.57 MicroJy IMAGR1: 523 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -800.656 MicroJy iter= 978 IMAGR1: Field 4 Clean flux density= 15.384 MilliJy 978 comps IMAGR1: Total Cleaned flux density = 5.506 Jy 7156 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -950.6 MicroJy,max = 1.1 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 782.57 MicroJy IMAGR1: 55 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 787.181 MicroJy iter= 675 IMAGR1: Field 1 Clean flux density= 5.396 Jy 675 comps IMAGR1: Total Cleaned flux density = 5.506 Jy 7185 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -3.0 MilliJy,max = 2.8 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 828.48 MicroJy IMAGR1: 127 Residual map points loaded IMAGR1: Field 3 min algorithm flux= 837.347 MicroJy iter= 983 IMAGR1: Field 3 Clean flux density= 27.130 MilliJy 983 comps IMAGR1: Total Cleaned flux density = 5.505 Jy 7255 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -3.3 MilliJy,max = 3.2 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 792.33 MicroJy IMAGR1: 355 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 806.337 MicroJy iter= 1431 IMAGR1: Field 7 Clean flux density= 25.866 MilliJy 1431 comps IMAGR1: Total Cleaned flux density = 5.506 Jy 7369 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -2.9 MilliJy,max = 3.3 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 711.34 MicroJy IMAGR1: 757 Residual map points loaded IMAGR1: Field 5 min algorithm flux= 730.529 MicroJy iter= 1130 IMAGR1: Field 5 Clean flux density= 27.689 MilliJy 1130 comps IMAGR1: Total Cleaned flux density = 5.506 Jy 7549 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -2.9 MilliJy,max = 3.0 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 702.88 MicroJy IMAGR1: 759 Residual map points loaded IMAGR1: Field 6 min algorithm flux= -722.378 MicroJy iter= 1103 IMAGR1: Field 6 Clean flux density= -703.363 MicroJy 1103 comps IMAGR1: Total Cleaned flux density = 5.505 Jy 7741 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -2.9 MilliJy,max = 3.3 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 664.91 MicroJy IMAGR1: 2438 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -704.443 MicroJy iter= 1827 IMAGR1: Field 2 Clean flux density= 18.204 MilliJy 1827 comps IMAGR1: Total Cleaned flux density = 5.510 Jy 8127 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -2.9 MilliJy,max = 2.6 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 664.91 MicroJy IMAGR1: 845 Residual map points loaded IMAGR1: Field 3 min algorithm flux= -686.700 MicroJy iter= 1221 IMAGR1: Field 3 Clean flux density= 24.655 MilliJy 1221 comps IMAGR1: Total Cleaned flux density = 5.507 Jy 8365 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -3.4 MilliJy,max = 3.2 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 659.24 MicroJy IMAGR1: 1528 Residual map points loaded IMAGR1: Field 7 min algorithm flux= -686.230 MicroJy iter= 1739 IMAGR1: Field 7 Clean flux density= 26.784 MilliJy 1739 comps IMAGR1: Total Cleaned flux density = 5.508 Jy 8673 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -3.2 MilliJy,max = 2.8 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 629.79 MicroJy IMAGR1: 1709 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -658.449 MicroJy iter= 1270 IMAGR1: Field 4 Clean flux density= 13.329 MilliJy 1270 comps IMAGR1: Total Cleaned flux density = 5.506 Jy 8965 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -767.4 MicroJy,max = 807.8 MicroJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 629.79 MicroJy IMAGR1: 99 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 634.268 MicroJy iter= 726 IMAGR1: Field 1 Clean flux density= 5.396 Jy 726 comps IMAGR1: Total Cleaned flux density = 5.505 Jy 9016 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -2.7 MilliJy,max = 3.2 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 629.79 MicroJy IMAGR1: 950 Residual map points loaded IMAGR1: Field 5 min algorithm flux= 646.844 MicroJy iter= 1345 IMAGR1: Field 5 Clean flux density= 27.889 MilliJy 1345 comps IMAGR1: Total Cleaned flux density = 5.506 Jy 9231 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -2.8 MilliJy,max = 2.9 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 629.79 MicroJy IMAGR1: 806 Residual map points loaded IMAGR1: Field 6 min algorithm flux= 650.116 MicroJy iter= 1309 IMAGR1: Field 6 Clean flux density= -796.779 MicroJy 1309 comps IMAGR1: Total Cleaned flux density = 5.506 Jy 9437 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -2.9 MilliJy,max = 3.2 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 574.65 MicroJy IMAGR1: 1520 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -600.857 MicroJy iter= 2098 IMAGR1: Field 2 Clean flux density= 19.847 MilliJy 2098 comps IMAGR1: Total Cleaned flux density = 5.507 Jy 9708 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -2.9 MilliJy,max = 2.5 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 574.65 MicroJy IMAGR1: 1165 Residual map points loaded IMAGR1: Field 3 min algorithm flux= -590.107 MicroJy iter= 1454 IMAGR1: Field 3 Clean flux density= 24.337 MilliJy 1454 comps IMAGR1: Total Cleaned flux density = 5.507 Jy 9941 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -3.4 MilliJy,max = 3.0 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 574.65 MicroJy IMAGR1: 1533 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 597.106 MicroJy iter= 2015 IMAGR1: Field 7 Clean flux density= 26.104 MilliJy 2015 comps IMAGR1: Total Cleaned flux density = 5.506 Jy 10217 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -3.2 MilliJy,max = 2.6 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 574.65 MicroJy IMAGR1: 547 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -587.847 MicroJy iter= 1402 IMAGR1: Field 4 Clean flux density= 15.119 MilliJy 1402 comps IMAGR1: Total Cleaned flux density = 5.508 Jy 10349 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -2.6 MilliJy,max = 2.8 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 574.65 MicroJy IMAGR1: 444 Residual map points loaded IMAGR1: Field 6 min algorithm flux= -581.542 MicroJy iter= 1439 IMAGR1: Field 6 Clean flux density= 1.143 MilliJy 1439 comps IMAGR1: Total Cleaned flux density = 5.510 Jy 10479 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -2.6 MilliJy,max = 3.1 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 574.65 MicroJy IMAGR1: 412 Residual map points loaded IMAGR1: Field 5 min algorithm flux= 584.639 MicroJy iter= 1452 IMAGR1: Field 5 Clean flux density= 28.081 MilliJy 1452 comps IMAGR1: Total Cleaned flux density = 5.510 Jy 10586 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -715.6 MicroJy,max = 718.2 MicroJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 574.65 MicroJy IMAGR1: 20 Residual map points loaded IMAGR1: Field 1 min algorithm flux= -574.726 MicroJy iter= 739 IMAGR1: Field 1 Clean flux density= 5.396 Jy 739 comps IMAGR1: Total Cleaned flux density = 5.510 Jy 10599 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -2.6 MilliJy,max = 3.1 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 552.28 MicroJy IMAGR1: 819 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -563.705 MicroJy iter= 2288 IMAGR1: Field 2 Clean flux density= 20.697 MilliJy 2288 comps IMAGR1: Total Cleaned flux density = 5.511 Jy 10789 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -3.3 MilliJy,max = 2.9 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 516.04 MicroJy IMAGR1: 1359 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 532.266 MicroJy iter= 2312 IMAGR1: Field 7 Clean flux density= 23.279 MilliJy 2312 comps IMAGR1: Total Cleaned flux density = 5.508 Jy 11086 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -2.8 MilliJy,max = 2.5 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 516.04 MicroJy IMAGR1: 743 Residual map points loaded IMAGR1: Field 3 min algorithm flux= 528.102 MicroJy iter= 1671 IMAGR1: Field 3 Clean flux density= 23.303 MilliJy 1671 comps IMAGR1: Total Cleaned flux density = 5.507 Jy 11303 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -3.1 MilliJy,max = 2.6 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 513.49 MicroJy IMAGR1: 767 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -524.353 MicroJy iter= 1610 IMAGR1: Field 4 Clean flux density= 13.589 MilliJy 1610 comps IMAGR1: Total Cleaned flux density = 5.506 Jy 11511 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -2.5 MilliJy,max = 3.1 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 474.04 MicroJy IMAGR1: 1995 Residual map points loaded IMAGR1: Field 5 min algorithm flux= 492.062 MicroJy iter= 1852 IMAGR1: Field 5 Clean flux density= 29.940 MilliJy 1852 comps IMAGR1: Total Cleaned flux density = 5.508 Jy 11911 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -2.6 MilliJy,max = 2.9 MilliJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 460.57 MicroJy IMAGR1: 2323 Residual map points loaded IMAGR1: Field 6 min algorithm flux= -483.159 MicroJy iter= 1905 IMAGR1: Field 6 Clean flux density= 3.437 MilliJy 1905 comps IMAGR1: Total Cleaned flux density = 5.510 Jy 12377 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -605.2 MicroJy,max = 624.4 MicroJy IMAGR1: BGC Clean: using 103 cell beam + residuals > 458.88 MicroJy IMAGR1: 320 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 464.248 MicroJy iter= 852 IMAGR1: Field 1 Clean flux density= 5.396 Jy 852 comps IMAGR1: Total Cleaned flux density = 5.510 Jy 12490 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -2.6 MilliJy,max = 3.2 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 507.01 MicroJy IMAGR1: 1481 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -525.720 MicroJy iter= 2591 IMAGR1: Field 2 Clean flux density= 23.830 MilliJy 2591 comps IMAGR1: Total Cleaned flux density = 5.513 Jy 12793 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -3.2 MilliJy,max = 2.7 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 455.18 MicroJy IMAGR1: 2926 Residual map points loaded IMAGR1: Field 7 min algorithm flux= -476.352 MicroJy iter= 2717 IMAGR1: Field 7 Clean flux density= 19.247 MilliJy 2717 comps IMAGR1: Total Cleaned flux density = 5.509 Jy 13198 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -2.7 MilliJy,max = 2.4 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 455.18 MicroJy IMAGR1: 2172 Residual map points loaded IMAGR1: Field 3 min algorithm flux= -472.154 MicroJy iter= 2007 IMAGR1: Field 3 Clean flux density= 22.030 MilliJy 2007 comps IMAGR1: Total Cleaned flux density = 5.508 Jy 13534 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -2.6 MilliJy,max = 3.1 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 484.89 MicroJy IMAGR1: 734 Residual map points loaded IMAGR1: Field 2 min algorithm flux= 492.954 MicroJy iter= 2774 IMAGR1: Field 2 Clean flux density= 25.298 MilliJy 2774 comps IMAGR1: Total Cleaned flux density = 5.509 Jy 13717 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -3.0 MilliJy,max = 2.6 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 484.89 MicroJy IMAGR1: 1089 Residual map points loaded IMAGR1: Field 4 min algorithm flux= 497.697 MicroJy iter= 1847 IMAGR1: Field 4 Clean flux density= 13.754 MilliJy 1847 comps IMAGR1: Total Cleaned flux density = 5.509 Jy 13954 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -3.1 MilliJy,max = 2.5 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 435.32 MicroJy IMAGR1: 400 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -440.155 MicroJy iter= 1974 IMAGR1: Field 4 Clean flux density= 12.644 MilliJy 1974 comps IMAGR1: Total Cleaned flux density = 5.508 Jy 14081 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -2.5 MilliJy,max = 3.1 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 435.32 MicroJy IMAGR1: 912 Residual map points loaded IMAGR1: Field 2 min algorithm flux= 446.123 MicroJy iter= 2981 IMAGR1: Field 2 Clean flux density= 25.305 MilliJy 2981 comps IMAGR1: Total Cleaned flux density = 5.508 Jy 14288 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -2.6 MilliJy,max = 3.1 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 435.32 MicroJy IMAGR1: 2636 Residual map points loaded IMAGR1: Field 5 min algorithm flux= -453.443 MicroJy iter= 2233 IMAGR1: Field 5 Clean flux density= 30.967 MilliJy 2233 comps IMAGR1: Total Cleaned flux density = 5.509 Jy 14669 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -2.4 MilliJy,max = 2.8 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 435.32 MicroJy IMAGR1: 1323 Residual map points loaded IMAGR1: Field 6 min algorithm flux= 447.902 MicroJy iter= 2152 IMAGR1: Field 6 Clean flux density= 5.050 MilliJy 2152 comps IMAGR1: Total Cleaned flux density = 5.511 Jy 14916 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -3.1 MilliJy,max = 2.6 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 411.17 MicroJy IMAGR1: 3685 Residual map points loaded IMAGR1: Field 7 min algorithm flux= -428.692 MicroJy iter= 3144 IMAGR1: Field 7 Clean flux density= 18.163 MilliJy 3144 comps IMAGR1: Total Cleaned flux density = 5.510 Jy 15343 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -2.6 MilliJy,max = 2.5 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 411.17 MicroJy IMAGR1: 1954 Residual map points loaded IMAGR1: Field 3 min algorithm flux= -424.360 MicroJy iter= 2340 IMAGR1: Field 3 Clean flux density= 23.833 MilliJy 2340 comps IMAGR1: Total Cleaned flux density = 5.512 Jy 15676 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -543.3 MicroJy,max = 520.4 MicroJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 411.17 MicroJy IMAGR1: 169 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 413.001 MicroJy iter= 915 IMAGR1: Field 1 Clean flux density= 5.395 Jy 915 comps IMAGR1: Total Cleaned flux density = 5.511 Jy 15739 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -2.4 MilliJy,max = 2.9 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 389.40 MicroJy IMAGR1: 1254 Residual map points loaded IMAGR1: Field 5 min algorithm flux= 400.520 MicroJy iter= 2464 IMAGR1: Field 5 Clean flux density= 30.567 MilliJy 2464 comps IMAGR1: Total Cleaned flux density = 5.511 Jy 15970 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -2.4 MilliJy,max = 2.7 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 388.53 MicroJy IMAGR1: 916 Residual map points loaded IMAGR1: Field 6 min algorithm flux= -395.725 MicroJy iter= 2377 IMAGR1: Field 6 Clean flux density= 5.050 MilliJy 2377 comps IMAGR1: Total Cleaned flux density = 5.511 Jy 16195 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -2.6 MilliJy,max = 3.0 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 388.53 MicroJy IMAGR1: 5446 Residual map points loaded IMAGR1: Field 2 min algorithm flux= 406.932 MicroJy iter= 3508 IMAGR1: Field 2 Clean flux density= 27.570 MilliJy 3508 comps IMAGR1: Total Cleaned flux density = 5.513 Jy 16722 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -3.0 MilliJy,max = 2.6 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 388.53 MicroJy IMAGR1: 2282 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -402.635 MicroJy iter= 2330 IMAGR1: Field 4 Clean flux density= 9.824 MilliJy 2330 comps IMAGR1: Total Cleaned flux density = 5.510 Jy 17078 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -3.0 MilliJy,max = 2.5 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 419.46 MicroJy IMAGR1: 1232 Residual map points loaded IMAGR1: Field 7 min algorithm flux= -432.175 MicroJy iter= 3431 IMAGR1: Field 7 Clean flux density= 16.954 MilliJy 3431 comps IMAGR1: Total Cleaned flux density = 5.509 Jy 17365 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -2.9 MilliJy,max = 2.5 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 414.90 MicroJy IMAGR1: 663 Residual map points loaded IMAGR1: Field 7 min algorithm flux= -419.995 MicroJy iter= 3595 IMAGR1: Field 7 Clean flux density= 16.612 MilliJy 3595 comps IMAGR1: Total Cleaned flux density = 5.509 Jy 17529 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -2.6 MilliJy,max = 2.4 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 372.49 MicroJy IMAGR1: 2107 Residual map points loaded IMAGR1: Field 3 min algorithm flux= -384.233 MicroJy iter= 2695 IMAGR1: Field 3 Clean flux density= 22.821 MilliJy 2695 comps IMAGR1: Total Cleaned flux density = 5.507 Jy 17884 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -3.0 MilliJy,max = 2.6 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 372.49 MicroJy IMAGR1: 876 Residual map points loaded IMAGR1: Field 7 min algorithm flux= 381.240 MicroJy iter= 3816 IMAGR1: Field 7 Clean flux density= 16.639 MilliJy 3816 comps IMAGR1: Total Cleaned flux density = 5.508 Jy 18105 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -503.3 MicroJy,max = 480.9 MicroJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 372.49 MicroJy IMAGR1: 204 Residual map points loaded IMAGR1: Field 1 min algorithm flux= 374.497 MicroJy iter= 980 IMAGR1: Field 1 Clean flux density= 5.395 Jy 980 comps IMAGR1: Total Cleaned flux density = 5.507 Jy 18170 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -2.6 MilliJy,max = 3.1 MilliJy IMAGR1: BGC Clean: using 159 cell beam + residuals > 361.38 MicroJy IMAGR1: 2793 Residual map points loaded IMAGR1: Field 2 min allowed flux = 405.521 MicroJy iter= 3818 IMAGR1: Field 2 Clean flux density= 28.404 MilliJy 3818 comps IMAGR1: Total Cleaned flux density = 5.508 Jy 18480 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -2.5 MilliJy,max = 2.9 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 377.35 MicroJy IMAGR1: 2428 Residual map points loaded IMAGR1: Field 2 min algorithm flux= 389.371 MicroJy iter= 4095 IMAGR1: Field 2 Clean flux density= 29.381 MilliJy 4095 comps IMAGR1: Total Cleaned flux density = 5.509 Jy 18757 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -2.9 MilliJy,max = 2.5 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 377.35 MicroJy IMAGR1: 850 Residual map points loaded IMAGR1: Field 4 min algorithm flux= 385.058 MicroJy iter= 2521 IMAGR1: Field 4 Clean flux density= 10.509 MilliJy 2521 comps IMAGR1: Total Cleaned flux density = 5.510 Jy 18948 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -2.5 MilliJy,max = 3.0 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 377.35 MicroJy IMAGR1: 2318 Residual map points loaded IMAGR1: Field 5 min algorithm flux= -388.784 MicroJy iter= 2810 IMAGR1: Field 5 Clean flux density= 31.096 MilliJy 2810 comps IMAGR1: Total Cleaned flux density = 5.510 Jy 19294 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -2.3 MilliJy,max = 2.7 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 377.35 MicroJy IMAGR1: 1504 Residual map points loaded IMAGR1: Field 6 min algorithm flux= -386.518 MicroJy iter= 2653 IMAGR1: Field 6 Clean flux density= 4.778 MilliJy 2653 comps IMAGR1: Total Cleaned flux density = 5.510 Jy 19570 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -2.6 MilliJy,max = 2.9 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 363.77 MicroJy IMAGR1: 895 Residual map points loaded IMAGR1: Field 2 min algorithm flux= -372.367 MicroJy iter= 4338 IMAGR1: Field 2 Clean flux density= 28.466 MilliJy 4338 comps IMAGR1: Total Cleaned flux density = 5.509 Jy 19813 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -2.5 MilliJy,max = 2.9 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 360.02 MicroJy IMAGR1: 458 Residual map points loaded IMAGR1: Field 5 min algorithm flux= 366.988 MicroJy iter= 2954 IMAGR1: Field 5 Clean flux density= 30.381 MilliJy 2954 comps IMAGR1: Total Cleaned flux density = 5.508 Jy 19957 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -2.3 MilliJy,max = 2.7 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 350.66 MicroJy IMAGR1: 412 Residual map points loaded IMAGR1: Field 6 min algorithm flux= -354.301 MicroJy iter= 2812 IMAGR1: Field 6 Clean flux density= 5.199 MilliJy 2812 comps IMAGR1: Total Cleaned flux density = 5.509 Jy 20116 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -2.9 MilliJy,max = 2.5 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 350.66 MicroJy IMAGR1: 1229 Residual map points loaded IMAGR1: Field 4 min algorithm flux= -359.259 MicroJy iter= 2812 IMAGR1: Field 4 Clean flux density= 12.330 MilliJy 2812 comps IMAGR1: Total Cleaned flux density = 5.511 Jy 20407 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -2.5 MilliJy,max = 2.3 MilliJy IMAGR1: BGC Clean: using 113 cell beam + residuals > 347.42 MicroJy IMAGR1: 1869 Residual map points loaded IMAGR1: Field 3 min algorithm flux= -358.338 MicroJy iter= 3073 IMAGR1: Field 3 Clean flux density= 23.393 MilliJy 3073 comps IMAGR1: Total Cleaned flux density = 5.511 Jy 20785 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 7 min = -3.0 MilliJy,max = 2.4 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 336.98 MicroJy IMAGR1: 4383 Residual map points loaded IMAGR1: Field 7 min Clean flux = -351.379 MicroJy iter= 4359 IMAGR1: Field 7 Clean flux density= 13.944 MilliJy 4359 comps IMAGR1: Total Cleaned flux density = 5.509 Jy 21328 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 1 min = -468.3 MicroJy,max = 441.8 MicroJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 308.98 MicroJy IMAGR1: 1699 Residual map points loaded IMAGR1: Field 1 min Clean flux = -351.574 MicroJy iter= 1093 IMAGR1: Field 1 Clean flux density= 5.395 Jy 1093 comps IMAGR1: Total Cleaned flux density = 5.508 Jy 21441 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 2 min = -2.4 MilliJy,max = 2.9 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 311.00 MicroJy IMAGR1: 5496 Residual map points loaded IMAGR1: Field 2 min Clean flux = 352.167 MicroJy iter= 4691 IMAGR1: Field 2 Clean flux density= 31.124 MilliJy 4691 comps IMAGR1: Total Cleaned flux density = 5.511 Jy 21794 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 5 min = -2.4 MilliJy,max = 2.8 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 337.89 MicroJy IMAGR1: 2387 Residual map points loaded IMAGR1: Field 5 min Clean flux = -352.166 MicroJy iter= 3281 IMAGR1: Field 5 Clean flux density= 31.616 MilliJy 3281 comps IMAGR1: Total Cleaned flux density = 5.512 Jy 22121 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 4 min = -2.9 MilliJy,max = 2.4 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 307.89 MicroJy IMAGR1: 3615 Residual map points loaded IMAGR1: Field 4 min Clean flux = -352.224 MicroJy iter= 3043 IMAGR1: Field 4 Clean flux density= 11.842 MilliJy 3043 comps IMAGR1: Total Cleaned flux density = 5.512 Jy 22352 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 3 min = -2.6 MilliJy,max = 2.3 MilliJy IMAGR1: BGC Clean: using 145 cell beam + residuals > 265.47 MicroJy IMAGR1: 8692 Residual map points loaded IMAGR1: Field 3 min Clean flux = -351.791 MicroJy iter= 3269 IMAGR1: Field 3 Clean flux density= 24.561 MilliJy 3269 comps IMAGR1: Total Cleaned flux density = 5.513 Jy 22548 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Field 6 min = -2.3 MilliJy,max = 2.6 MilliJy IMAGR1: BGC Clean: using 159 cell beam + residuals > 263.55 MicroJy IMAGR1: 11871 Residual map points loaded IMAGR1: Field 6 min Clean flux = -351.962 MicroJy iter= 3057 IMAGR1: Field 6 Clean flux density= 4.755 MilliJy 3057 comps IMAGR1: Total Cleaned flux density = 5.512 Jy 22793 comps IMAGR1: VISDFT: Begin DFT component subtraction IMAGR1: I Polarization model processed IMAGR1: Peak residual in window 352.224 less than limit 352.268 MicroJy IMAGR1: Merging the Clean components files IMAGR1: Field 1 compressed from 1093 to 679 components IMAGR1: Field 2 compressed from 4691 to 2156 components IMAGR1: Field 3 compressed from 3269 to 1651 components IMAGR1: Field 4 compressed from 3043 to 1693 components IMAGR1: Field 5 compressed from 3281 to 1679 components IMAGR1: Field 6 compressed from 3057 to 1532 components IMAGR1: Field 7 compressed from 4359 to 1976 components IMAGR1: Field 1 min = -397.7 MicroJy,max = 427.3 MicroJy IMAGR1: Field 2 min = -2.4 MilliJy,max = 2.8 MilliJy IMAGR1: Field 3 min = -2.5 MilliJy,max = 2.2 MilliJy IMAGR1: Field 4 min = -2.8 MilliJy,max = 2.4 MilliJy IMAGR1: Field 5 min = -2.4 MilliJy,max = 2.8 MilliJy IMAGR1: Field 6 min = -2.2 MilliJy,max = 2.6 MilliJy IMAGR1: Field 7 min = -2.9 MilliJy,max = 2.4 MilliJy IMAGR1: Restoring Clean components IMAGR1: Restoring overlapped Clean components IMAGR1: Restore 7.885 MilliJy ( 74 CCs) from field 1 to field 2 IMAGR1: Restore -6.944 MicroJy ( 17 CCs) from field 1 to field 3 IMAGR1: Restore 7.556 MilliJy ( 28 CCs) from field 1 to field 4 IMAGR1: Restore 5.966 MilliJy ( 45 CCs) from field 1 to field 5 IMAGR1: Restore 1.074 MilliJy ( 24 CCs) from field 1 to field 6 IMAGR1: Restore 10.172 MilliJy ( 74 CCs) from field 1 to field 7 IMAGR1: Restore 884.030 MicroJy ( 34 CCs) from field 2 to field 1 IMAGR1: Restore 3.324 MilliJy ( 118 CCs) from field 2 to field 3 IMAGR1: Restore 11.873 MilliJy ( 228 CCs) from field 2 to field 4 IMAGR1: Restore 320.154 MicroJy ( 46 CCs) from field 3 to field 1 IMAGR1: Restore 2.925 MilliJy ( 97 CCs) from field 3 to field 2 IMAGR1: Restore-178.245 MicroJy ( 58 CCs) from field 3 to field 5 IMAGR1: Restore-722.146 MicroJy ( 46 CCs) from field 4 to field 1 IMAGR1: Restore 11.774 MilliJy ( 150 CCs) from field 4 to field 2 IMAGR1: Restore-357.652 MicroJy ( 44 CCs) from field 4 to field 6 IMAGR1: Restore-322.811 MicroJy ( 56 CCs) from field 5 to field 1 IMAGR1: Restore 2.565 MilliJy ( 53 CCs) from field 5 to field 3 IMAGR1: Restore 569.434 MicroJy ( 165 CCs) from field 5 to field 7 IMAGR1: Restore 3.178 MilliJy ( 34 CCs) from field 6 to field 1 IMAGR1: Restore 313.769 MicroJy ( 64 CCs) from field 6 to field 4 IMAGR1: Restore 4.680 MilliJy ( 75 CCs) from field 6 to field 7 IMAGR1: Restore 726.639 MicroJy ( 34 CCs) from field 7 to field 1 IMAGR1: Restore 13.015 MilliJy ( 156 CCs) from field 7 to field 5 IMAGR1: Restore -1.538 MilliJy ( 123 CCs) from field 7 to field 6 IMAGR1: Checking image max/min IMAGR1: Field 1 final Clean flux 5.399 Jy IMAGR1: Field 2 final Clean flux 53.709 MilliJy IMAGR1: Field 3 final Clean flux 30.444 MilliJy IMAGR1: Field 4 final Clean flux 31.585 MilliJy IMAGR1: Field 5 final Clean flux 50.419 MilliJy IMAGR1: Field 6 final Clean flux 3.934 MilliJy IMAGR1: Field 7 final Clean flux 29.365 MilliJy IMAGR1: Deleting UV work file: IMAGR1: Destroyed 1 extension files of type AN IMAGR1: Destroyed 1 extension files of type FQ IMAGR1: Destroyed UV image file: catno= 20 disk= 1 IMAGR1: Appears to have ended successfully IMAGR1: auto 31DEC06 TST: Cpu= 193.6 Real= 202 f /tmp/SETFC@2230+697_C,BAND.0-1 >& /dev/null AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 7 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 8 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 9 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 10 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 11 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 12 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 13 disk= 1 AIPS 1: Disk 1 in-CNO 14 renumbered as CNO 6 AIPS 1: Disk 1 in-CNO 15 renumbered as CNO 7 AIPS 1: Disk 1 in-CNO 16 renumbered as CNO 8 AIPS 1: Disk 1 in-CNO 17 renumbered as CNO 9 AIPS 1: Disk 1 in-CNO 18 renumbered as CNO 10 AIPS 1: Disk 1 in-CNO 19 renumbered as CNO 11 AIPS 1: Disk 1 in-CNO 20 renumbered as CNO 12 AIPS 1: ' ' AIPS 1: 'ESTIMATED RMS:' '0.01407 MILLI JANSKY' AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@CEPA_C,BAND.0-1 >& /dev/null AIPS 1: Waiting for returned adverbs AIPS 1: Resumes AIPS 1: SYSTEM command to be executed is: AIPS 1: cat /tmp/SETFC@CEPA_C,BAND.0-1 >> /home/auto/run/AH687_1999NOV22 AIPS 1: _2.log.0 AIPS 1: ' NOW STARTING WITH SOURCE :2 =CEPA' AIPS 1: ' ' AIPS 1: Resumes AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@CEPA_C,BAND.0-1 >& /dev/null AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 14 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 15 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 16 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 17 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 18 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 19 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 20 disk= 1 AIPS 1: Disk 1 in-CNO 21 renumbered as CNO 13 AIPS 1: Disk 1 in-CNO 22 renumbered as CNO 14 AIPS 1: Disk 1 in-CNO 23 renumbered as CNO 15 AIPS 1: Disk 1 in-CNO 24 renumbered as CNO 16 AIPS 1: Disk 1 in-CNO 25 renumbered as CNO 17 AIPS 1: Disk 1 in-CNO 26 renumbered as CNO 18 AIPS 1: Disk 1 in-CNO 27 renumbered as CNO 19 AIPS 1: ' ' AIPS 1: 'ESTIMATED RMS:' '0.05871 MILLI JANSKY' AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@0137+331_C,BAND.0-1 >& /dev/null AIPS 1: Waiting for returned adverbs AIPS 1: Resumes AIPS 1: SYSTEM command to be executed is: AIPS 1: cat /tmp/SETFC@0137+331_C,BAND.0-1 >> /home/auto/run/AH687_1999N AIPS 1: OV22_2.log.0 AIPS 1: ' NOW STARTING WITH SOURCE :3 =0137+331' AIPS 1: ' ' AIPS 1: Resumes AIPS 1: SYSTEM command to be executed is: AIPS 1: rm -f /tmp/SETFC@0137+331_C,BAND.0-1 >& /dev/null AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 21 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 22 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 23 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 24 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 25 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 26 disk= 1 AIPS 1: Destroyed 1 extension files of type HI AIPS 1: Destroyed MA image file: catno= 27 disk= 1 AIPS 1: Disk 1 in-CNO 28 renumbered as CNO 20 AIPS 1: Disk 1 in-CNO 29 renumbered as CNO 21 AIPS 1: Disk 1 in-CNO 30 renumbered as CNO 22 AIPS 1: Disk 1 in-CNO 31 renumbered as CNO 23 AIPS 1: Disk 1 in-CNO 32 renumbered as CNO 24 AIPS 1: Disk 1 in-CNO 33 renumbered as CNO 25 AIPS 1: Disk 1 in-CNO 34 renumbered as CNO 26 AIPS 1: ' ' AIPS 1: ' ' AIPS 1: Found in Version=ABIN AIPS 1: '* APPEARS TO HAVE ENDED SUCCESSFULLY *' >>AIPS 1: Disk 1 No files needed renumbering AIPS 1: 'EMPTY CATALOG ?' 26 >AIPS 1: Begin check for any 'standard' scratch files AIPS 1: Scratch files -- destroyed: 0 still active: 0 AIPS 1: User18238: 4451 messages, oldest written 07-SEP-2006 14:52:21 AIPS 1: Deleted 0 messages AIPS 1: Saved POPS environment in area named 'LASTEXIT' AIPS 1: Session command-line history saved. AIPS 1: auto 31DEC06 TST: Cpu= 0.8 Real= 439 /home/auto/run/AH687_1999NOV22_2.run.0 finished on Thu Sep 7 20:28:43 MDT 2006