1 0 09-JUN-2020 09:57:42 AIPS refant 1 1 0 09-JUN-2020 09:57:43 AIPS input 1 2 09-JUN-2020 09:57:43 AIPS RLDLY: Task to fringe fit data for R-L delay difference 1 2 09-JUN-2020 09:57:43 AIPS Adverbs Values Comments 1 2 09-JUN-2020 09:57:43 AIPS ---------------------------------------------------------------- 1 2 09-JUN-2020 09:57:43 AIPS Input uv data. 1 2 09-JUN-2020 09:57:43 AIPS INNAME 'EC071C' UV file name (name) 1 2 09-JUN-2020 09:57:43 AIPS INCLASS 'MULTI' UV file name (class) 1 2 09-JUN-2020 09:57:43 AIPS INSEQ 1 UV file name (seq. #) 1 2 09-JUN-2020 09:57:43 AIPS INDISK 3 UV file disk drive # 1 2 09-JUN-2020 09:57:43 AIPS Data selection (multisource): 1 2 09-JUN-2020 09:57:43 AIPS CALSOUR 'J1038+4244' Calibrator sources 1 2 09-JUN-2020 09:57:43 AIPS *rest ' ' 1 2 09-JUN-2020 09:57:43 AIPS QUAL -1 Calibrator qualifier -1=>all 1 2 09-JUN-2020 09:57:43 AIPS CALCODE ' ' Calibrator code ' '=>all 1 2 09-JUN-2020 09:57:43 AIPS SELBAND -1 Bandwidth to select (kHz) 1 2 09-JUN-2020 09:57:43 AIPS SELFREQ -1 Frequency to select (MHz) 1 2 09-JUN-2020 09:57:43 AIPS FREQID 1 Freq. ID to select. 1 2 09-JUN-2020 09:57:43 AIPS TIMERANG 0 22 Time range to use. 1 2 09-JUN-2020 09:57:43 AIPS 4 1 IMPORTANT, NO DEFAULT 1 2 09-JUN-2020 09:57:43 AIPS 0 22 5 28 1 2 09-JUN-2020 09:57:43 AIPS BCHAN 1 Lowest channel number 0=>all 1 2 09-JUN-2020 09:57:43 AIPS ECHAN 0 Highest channel number 1 2 09-JUN-2020 09:57:43 AIPS CHINC 1 Spectral channel increment 1 2 09-JUN-2020 09:57:43 AIPS (data are averaged) 1 2 09-JUN-2020 09:57:43 AIPS ANTENNAS 1 13 Antennas to select. 0=all 1 2 09-JUN-2020 09:57:43 AIPS *rest 0 1 2 09-JUN-2020 09:57:43 AIPS SUBARRAY 0 Subarray, 0=>all 1 2 09-JUN-2020 09:57:43 AIPS UVRANGE 0 0 Range of uv distance for full 1 2 09-JUN-2020 09:57:43 AIPS weight 1 2 09-JUN-2020 09:57:43 AIPS WTUV 0 Weight outside UVRANGE 0=0. 1 2 09-JUN-2020 09:57:43 AIPS WEIGHTIT 0 Modify data weights function 1 2 09-JUN-2020 09:57:43 AIPS 1 2 09-JUN-2020 09:57:43 AIPS Cal. info for input: 1 2 09-JUN-2020 09:57:43 AIPS DOCALIB 1 > 0 calibrate data & weights 1 2 09-JUN-2020 09:57:43 AIPS > 99 do NOT calibrate weights 1 2 09-JUN-2020 09:57:44 AIPS GAINUSE 5 CL table to apply. 1 2 09-JUN-2020 09:57:44 AIPS DOPOL -1 If >0 correct polarization. 1 2 09-JUN-2020 09:57:44 AIPS PDVER 0 PD table to apply (DOPOL>0) 1 2 09-JUN-2020 09:57:44 AIPS BLVER -1 BL table to apply. 1 2 09-JUN-2020 09:57:44 AIPS FLAGVER 1 Flag table version 1 2 09-JUN-2020 09:57:44 AIPS DOBAND 1 If >0 apply bandpass cal. 1 2 09-JUN-2020 09:57:44 AIPS Method used depends on value 1 2 09-JUN-2020 09:57:44 AIPS of DOBAND (see HELP file). 1 2 09-JUN-2020 09:57:44 AIPS BPVER 1 Bandpass table version 1 2 09-JUN-2020 09:57:44 AIPS SMOOTH *all 0 Smoothing function. See 1 2 09-JUN-2020 09:57:44 AIPS HELP SMOOTH for details. 1 2 09-JUN-2020 09:57:44 AIPS 1 2 09-JUN-2020 09:57:44 AIPS Solution control adverbs: 1 2 09-JUN-2020 09:57:44 AIPS REFANT 1 Reference antenna 0 -> all 1 2 09-JUN-2020 09:57:44 AIPS DETIME 0 Data integration time (sec) 1 2 09-JUN-2020 09:57:44 AIPS 0 => found in data 1 2 09-JUN-2020 09:57:44 AIPS SOLINT 1 Separate solutions each 1 2 09-JUN-2020 09:57:44 AIPS SOLINT (minutes) 1 2 09-JUN-2020 09:57:44 AIPS DOIFS 0 <0 => use BPARM 1 2 09-JUN-2020 09:57:44 AIPS 0 => solve all IFs separately 1 2 09-JUN-2020 09:57:44 AIPS 1 => 1 solution for all IFs 1 2 09-JUN-2020 09:57:44 AIPS 2 => 2 solutions, 1 each for 1 2 09-JUN-2020 09:57:44 AIPS IFs by halves 1 2 09-JUN-2020 09:57:44 AIPS 3 => 3 solutions, 1 each for 1 2 09-JUN-2020 09:57:44 AIPS IFs by thirds 1 2 09-JUN-2020 09:57:44 AIPS 4 => 4 solutions, 1 each for 1 2 09-JUN-2020 09:57:44 AIPS IFs by quarters 1 2 09-JUN-2020 09:57:44 AIPS etc. SEE HELP WARNING 1 2 09-JUN-2020 09:57:44 AIPS BIF 0 First IF included when 1 2 09-JUN-2020 09:57:44 AIPS DOIFS > 0 1 2 09-JUN-2020 09:57:44 AIPS EIF 0 Last IF included when DOIFS>0 1 2 09-JUN-2020 09:57:44 AIPS BPARM *all 0 BPARM(i) = highest IF in i'th 1 2 09-JUN-2020 09:57:44 AIPS group if DOIFS = -1 1 2 09-JUN-2020 09:57:44 AIPS APARM 0 1 (1) Minimum SNR to include in 1 2 09-JUN-2020 09:57:44 AIPS *rest 0 solution average 0 -> 5 1 2 09-JUN-2020 09:57:44 AIPS (2) > 0 -> do NOT write CL 1 2 09-JUN-2020 09:57:44 AIPS table even when 1 scan 1 2 09-JUN-2020 09:57:44 AIPS SN table always written 1 2 09-JUN-2020 09:57:44 AIPS (3) max allowed error in 1 2 09-JUN-2020 09:57:44 AIPS delay in ns. 0 -> 1.E6 1 2 09-JUN-2020 09:57:44 AIPS PRTLEV 2 > 0 => diagnostic outputs 1 2 09-JUN-2020 09:57:44 AIPS BADDISK *all 0 Disk no. not to use for 1 2 09-JUN-2020 09:57:44 AIPS scratch files. 1 0 09-JUN-2020 09:57:44 AIPS 1 0 09-JUN-2020 09:57:49 AIPS go 1 5 09-JUN-2020 09:57:49 RLDLY Task RLDLY (release of 31DEC20) begins 1 3 09-JUN-2020 09:57:49 RLDLY UVGET: Using flag table version 1 to edit data 1 4 09-JUN-2020 09:57:49 RLDLY Set integration time to 2.000000 seconds, hope that is ok 1 6 09-JUN-2020 09:57:49 RLDLY Selecting, editing and calibrating the data 1 6 09-JUN-2020 09:57:49 RLDLY NO DATA SELECTED THIS SCAN/SUBARRAY 1 8 09-JUN-2020 09:57:49 RLDLY WARNING: NO DATA SELECTED 1 3 09-JUN-2020 09:57:49 RLDLY Purports to die of UNNATURAL causes 1 5 09-JUN-2020 09:57:49 RLDLY localhos 31DEC20 TST: Cpu= 0.1 Real= 0 IO= 133 1 2 09-JUN-2020 09:57:49 AIPS Resumes 1 0 09-JUN-2020 09:57:56 AIPS refant 13 1 0 09-JUN-2020 09:57:58 AIPS input 1 2 09-JUN-2020 09:57:58 AIPS RLDLY: Task to fringe fit data for R-L delay difference 1 2 09-JUN-2020 09:57:58 AIPS Adverbs Values Comments 1 2 09-JUN-2020 09:57:58 AIPS ---------------------------------------------------------------- 1 2 09-JUN-2020 09:57:58 AIPS Input uv data. 1 2 09-JUN-2020 09:57:58 AIPS INNAME 'EC071C' UV file name (name) 1 2 09-JUN-2020 09:57:58 AIPS INCLASS 'MULTI' UV file name (class) 1 2 09-JUN-2020 09:57:58 AIPS INSEQ 1 UV file name (seq. #) 1 2 09-JUN-2020 09:57:58 AIPS INDISK 3 UV file disk drive # 1 2 09-JUN-2020 09:57:58 AIPS Data selection (multisource): 1 2 09-JUN-2020 09:57:58 AIPS CALSOUR 'J1038+4244' Calibrator sources 1 2 09-JUN-2020 09:57:58 AIPS *rest ' ' 1 2 09-JUN-2020 09:57:58 AIPS QUAL -1 Calibrator qualifier -1=>all 1 2 09-JUN-2020 09:57:58 AIPS CALCODE ' ' Calibrator code ' '=>all 1 2 09-JUN-2020 09:57:58 AIPS SELBAND -1 Bandwidth to select (kHz) 1 2 09-JUN-2020 09:57:58 AIPS SELFREQ -1 Frequency to select (MHz) 1 2 09-JUN-2020 09:57:58 AIPS FREQID 1 Freq. ID to select. 1 2 09-JUN-2020 09:57:58 AIPS TIMERANG 0 22 Time range to use. 1 2 09-JUN-2020 09:57:58 AIPS 4 1 IMPORTANT, NO DEFAULT 1 2 09-JUN-2020 09:57:58 AIPS 0 22 5 28 1 2 09-JUN-2020 09:57:58 AIPS BCHAN 1 Lowest channel number 0=>all 1 2 09-JUN-2020 09:57:58 AIPS ECHAN 0 Highest channel number 1 2 09-JUN-2020 09:57:58 AIPS CHINC 1 Spectral channel increment 1 2 09-JUN-2020 09:57:58 AIPS (data are averaged) 1 2 09-JUN-2020 09:57:58 AIPS ANTENNAS 1 13 Antennas to select. 0=all 1 2 09-JUN-2020 09:57:58 AIPS *rest 0 1 2 09-JUN-2020 09:57:58 AIPS SUBARRAY 0 Subarray, 0=>all 1 2 09-JUN-2020 09:57:58 AIPS UVRANGE 0 0 Range of uv distance for full 1 2 09-JUN-2020 09:57:58 AIPS weight 1 2 09-JUN-2020 09:57:58 AIPS WTUV 0 Weight outside UVRANGE 0=0. 1 2 09-JUN-2020 09:57:58 AIPS WEIGHTIT 0 Modify data weights function 1 2 09-JUN-2020 09:57:58 AIPS 1 2 09-JUN-2020 09:57:58 AIPS Cal. info for input: 1 2 09-JUN-2020 09:57:58 AIPS DOCALIB 1 > 0 calibrate data & weights 1 2 09-JUN-2020 09:57:58 AIPS > 99 do NOT calibrate weights 1 2 09-JUN-2020 09:57:58 AIPS GAINUSE 5 CL table to apply. 1 2 09-JUN-2020 09:57:58 AIPS DOPOL -1 If >0 correct polarization. 1 2 09-JUN-2020 09:57:58 AIPS PDVER 0 PD table to apply (DOPOL>0) 1 2 09-JUN-2020 09:57:58 AIPS BLVER -1 BL table to apply. 1 2 09-JUN-2020 09:57:58 AIPS FLAGVER 1 Flag table version 1 2 09-JUN-2020 09:57:58 AIPS DOBAND 1 If >0 apply bandpass cal. 1 2 09-JUN-2020 09:57:58 AIPS Method used depends on value 1 2 09-JUN-2020 09:57:58 AIPS of DOBAND (see HELP file). 1 2 09-JUN-2020 09:57:58 AIPS BPVER 1 Bandpass table version 1 2 09-JUN-2020 09:57:58 AIPS SMOOTH *all 0 Smoothing function. See 1 2 09-JUN-2020 09:57:58 AIPS HELP SMOOTH for details. 1 2 09-JUN-2020 09:57:58 AIPS 1 2 09-JUN-2020 09:57:58 AIPS Solution control adverbs: 1 2 09-JUN-2020 09:57:58 AIPS REFANT 13 Reference antenna 0 -> all 1 2 09-JUN-2020 09:57:58 AIPS DETIME 0 Data integration time (sec) 1 2 09-JUN-2020 09:57:58 AIPS 0 => found in data 1 2 09-JUN-2020 09:57:58 AIPS SOLINT 1 Separate solutions each 1 2 09-JUN-2020 09:57:58 AIPS SOLINT (minutes) 1 2 09-JUN-2020 09:57:58 AIPS DOIFS 0 <0 => use BPARM 1 2 09-JUN-2020 09:57:58 AIPS 0 => solve all IFs separately 1 2 09-JUN-2020 09:57:58 AIPS 1 => 1 solution for all IFs 1 2 09-JUN-2020 09:57:58 AIPS 2 => 2 solutions, 1 each for 1 2 09-JUN-2020 09:57:58 AIPS IFs by halves 1 2 09-JUN-2020 09:57:58 AIPS 3 => 3 solutions, 1 each for 1 2 09-JUN-2020 09:57:58 AIPS IFs by thirds 1 2 09-JUN-2020 09:57:58 AIPS 4 => 4 solutions, 1 each for 1 2 09-JUN-2020 09:57:58 AIPS IFs by quarters 1 2 09-JUN-2020 09:57:58 AIPS etc. SEE HELP WARNING 1 2 09-JUN-2020 09:57:58 AIPS BIF 0 First IF included when 1 2 09-JUN-2020 09:57:58 AIPS DOIFS > 0 1 2 09-JUN-2020 09:57:58 AIPS EIF 0 Last IF included when DOIFS>0 1 2 09-JUN-2020 09:57:58 AIPS BPARM *all 0 BPARM(i) = highest IF in i'th 1 2 09-JUN-2020 09:57:58 AIPS group if DOIFS = -1 1 2 09-JUN-2020 09:57:58 AIPS APARM 0 1 (1) Minimum SNR to include in 1 2 09-JUN-2020 09:57:58 AIPS *rest 0 solution average 0 -> 5 1 2 09-JUN-2020 09:57:58 AIPS (2) > 0 -> do NOT write CL 1 2 09-JUN-2020 09:57:58 AIPS table even when 1 scan 1 2 09-JUN-2020 09:57:58 AIPS SN table always written 1 2 09-JUN-2020 09:57:58 AIPS (3) max allowed error in 1 2 09-JUN-2020 09:57:58 AIPS delay in ns. 0 -> 1.E6 1 2 09-JUN-2020 09:57:58 AIPS PRTLEV 2 > 0 => diagnostic outputs 1 2 09-JUN-2020 09:57:58 AIPS BADDISK *all 0 Disk no. not to use for 1 2 09-JUN-2020 09:57:58 AIPS scratch files. 1 0 09-JUN-2020 09:57:58 AIPS 1 0 09-JUN-2020 09:58:00 AIPS go 1 5 09-JUN-2020 09:58:00 RLDLY Task RLDLY (release of 31DEC20) begins 1 3 09-JUN-2020 09:58:00 RLDLY UVGET: Using flag table version 1 to edit data 1 4 09-JUN-2020 09:58:00 RLDLY Set integration time to 2.000000 seconds, hope that is ok 1 6 09-JUN-2020 09:58:00 RLDLY Selecting, editing and calibrating the data 1 6 09-JUN-2020 09:58:00 RLDLY Determining solutions 1 2 09-JUN-2020 09:58:00 RLDLY Time= 0/ 22 05 00 baseline= 1 - 13 1 2 09-JUN-2020 09:58:00 RLDLY QINIT: did a GET of 5120 Kwords, OFF 17500165145413 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 1 rate= 0.0 delay= 2.0 SNR= 574.2 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 2 rate= 0.0 delay= 0.0 SNR= 426.0 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 3 rate= 0.0 delay= 3.9 SNR= 281.2 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 4 rate= 0.0 delay= 3.9 SNR= 470.2 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 5 rate= 0.0 delay= 2.0 SNR= 325.5 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 6 rate= 0.0 delay= 0.0 SNR= 228.3 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 7 rate= 0.0 delay= 0.0 SNR= 312.0 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 8 rate= 0.0 delay= 3.9 SNR= 271.4 1 3 09-JUN-2020 09:58:00 RLDLY IF number = 1 Poln. = 1 1 3 09-JUN-2020 09:58:00 RLDLY Fitted phases, rates, delays and SNR: [ P = phase(deg), 1 3 09-JUN-2020 09:58:00 RLDLY R = rate(mHz), D = Single-Band Delay(nsec), S = SNR ] 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 176.4 rate= 0.00 delay= 2.53 SNR= 33.2 1 3 09-JUN-2020 09:58:00 RLDLY Standard RMS errors (deg, mHz, nsec): 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 1.73 rate= 218.390 delay= 0.271 1 3 09-JUN-2020 09:58:00 RLDLY IF number = 2 Poln. = 1 1 3 09-JUN-2020 09:58:00 RLDLY Fitted phases, rates, delays and SNR: [ P = phase(deg), 1 3 09-JUN-2020 09:58:00 RLDLY R = rate(mHz), D = Single-Band Delay(nsec), S = SNR ] 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas=-148.2 rate= 0.00 delay= -0.48 SNR= 29.2 1 3 09-JUN-2020 09:58:00 RLDLY Standard RMS errors (deg, mHz, nsec): 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 1.96 rate= 250.216 delay= 0.309 1 3 09-JUN-2020 09:58:00 RLDLY IF number = 3 Poln. = 1 1 3 09-JUN-2020 09:58:00 RLDLY Fitted phases, rates, delays and SNR: [ P = phase(deg), 1 3 09-JUN-2020 09:58:00 RLDLY R = rate(mHz), D = Single-Band Delay(nsec), S = SNR ] 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas=****** rate= 0.00 delay= -974.18 SNR= 1.2 1 3 09-JUN-2020 09:58:00 RLDLY Standard RMS errors (deg, mHz, nsec): 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 49.00 rate= 8575.048 delay= 7.439 1 3 09-JUN-2020 09:58:00 RLDLY IF number = 4 Poln. = 1 1 3 09-JUN-2020 09:58:00 RLDLY Fitted phases, rates, delays and SNR: [ P = phase(deg), 1 3 09-JUN-2020 09:58:00 RLDLY R = rate(mHz), D = Single-Band Delay(nsec), S = SNR ] 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 256.8 rate= 0.00 delay= 3.63 SNR= 30.3 1 3 09-JUN-2020 09:58:00 RLDLY Standard RMS errors (deg, mHz, nsec): 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 1.89 rate= 240.466 delay= 0.298 1 3 09-JUN-2020 09:58:00 RLDLY IF number = 5 Poln. = 1 1 3 09-JUN-2020 09:58:00 RLDLY Fitted phases, rates, delays and SNR: [ P = phase(deg), 1 3 09-JUN-2020 09:58:00 RLDLY R = rate(mHz), D = Single-Band Delay(nsec), S = SNR ] 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas=****** rate= 0.00 delay= 2.19 SNR= 25.7 1 3 09-JUN-2020 09:58:00 RLDLY Standard RMS errors (deg, mHz, nsec): 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 2.23 rate= 283.176 delay= 0.348 1 3 09-JUN-2020 09:58:00 RLDLY IF number = 6 Poln. = 1 1 3 09-JUN-2020 09:58:00 RLDLY Fitted phases, rates, delays and SNR: [ P = phase(deg), 1 3 09-JUN-2020 09:58:00 RLDLY R = rate(mHz), D = Single-Band Delay(nsec), S = SNR ] 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= -26.0 rate= 0.00 delay= -0.85 SNR= 22.0 1 3 09-JUN-2020 09:58:00 RLDLY Standard RMS errors (deg, mHz, nsec): 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 2.61 rate= 328.782 delay= 0.414 1 3 09-JUN-2020 09:58:00 RLDLY IF number = 7 Poln. = 1 1 3 09-JUN-2020 09:58:00 RLDLY Fitted phases, rates, delays and SNR: [ P = phase(deg), 1 3 09-JUN-2020 09:58:00 RLDLY R = rate(mHz), D = Single-Band Delay(nsec), S = SNR ] 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= -33.0 rate= 0.00 delay= 0.00 SNR= 25.2 1 3 09-JUN-2020 09:58:00 RLDLY Standard RMS errors (deg, mHz, nsec): 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 2.27 rate= 288.858 delay= 0.356 1 3 09-JUN-2020 09:58:00 RLDLY IF number = 8 Poln. = 1 1 3 09-JUN-2020 09:58:00 RLDLY Fitted phases, rates, delays and SNR: [ P = phase(deg), 1 3 09-JUN-2020 09:58:00 RLDLY R = rate(mHz), D = Single-Band Delay(nsec), S = SNR ] 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= -20.5 rate= 0.00 delay= 4.86 SNR= 24.2 1 3 09-JUN-2020 09:58:00 RLDLY Standard RMS errors (deg, mHz, nsec): 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 2.37 rate= 302.650 delay= 0.373 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 1 rate= 0.0 delay= 0.0 SNR= 245.7 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 2 rate= 0.0 delay= -3.9 SNR= 227.2 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 3 rate= 0.0 delay= -2.0 SNR= 136.7 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 4 rate= 0.0 delay= -3.9 SNR= 169.1 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 5 rate= 0.0 delay= -3.9 SNR= 164.9 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 6 rate= 0.0 delay= -2.0 SNR= 161.1 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 7 rate= 0.0 delay= -2.0 SNR= 49.9 1 2 09-JUN-2020 09:58:00 RLDLY Ant= 1 ref= 13 IF= 8 rate= 0.0 delay= -2.0 SNR= 79.8 1 3 09-JUN-2020 09:58:00 RLDLY IF number = 1 Poln. = 2 1 3 09-JUN-2020 09:58:00 RLDLY Fitted phases, rates, delays and SNR: [ P = phase(deg), 1 3 09-JUN-2020 09:58:00 RLDLY R = rate(mHz), D = Single-Band Delay(nsec), S = SNR ] 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= -2.5 rate= 0.00 delay= 0.61 SNR= 22.8 1 3 09-JUN-2020 09:58:00 RLDLY Standard RMS errors (deg, mHz, nsec): 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 2.52 rate= 319.473 delay= 0.394 1 3 09-JUN-2020 09:58:00 RLDLY IF number = 2 Poln. = 2 1 3 09-JUN-2020 09:58:00 RLDLY Fitted phases, rates, delays and SNR: [ P = phase(deg), 1 3 09-JUN-2020 09:58:00 RLDLY R = rate(mHz), D = Single-Band Delay(nsec), S = SNR ] 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 5.7 rate= 0.00 delay= -3.05 SNR= 21.9 1 3 09-JUN-2020 09:58:00 RLDLY Standard RMS errors (deg, mHz, nsec): 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 2.62 rate= 329.319 delay= 0.408 1 3 09-JUN-2020 09:58:00 RLDLY IF number = 3 Poln. = 2 1 3 09-JUN-2020 09:58:00 RLDLY Fitted phases, rates, delays and SNR: [ P = phase(deg), 1 3 09-JUN-2020 09:58:00 RLDLY R = rate(mHz), D = Single-Band Delay(nsec), S = SNR ] 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= -43.0 rate= 0.00 delay= -2.12 SNR= 17.4 1 3 09-JUN-2020 09:58:00 RLDLY Standard RMS errors (deg, mHz, nsec): 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 3.29 rate= 419.006 delay= 0.526 1 3 09-JUN-2020 09:58:00 RLDLY IF number = 4 Poln. = 2 1 3 09-JUN-2020 09:58:00 RLDLY Fitted phases, rates, delays and SNR: [ P = phase(deg), 1 3 09-JUN-2020 09:58:00 RLDLY R = rate(mHz), D = Single-Band Delay(nsec), S = SNR ] 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= -74.2 rate= 0.00 delay= -3.72 SNR= 19.1 1 3 09-JUN-2020 09:58:00 RLDLY Standard RMS errors (deg, mHz, nsec): 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 2.99 rate= 380.107 delay= 0.474 1 7 09-JUN-2020 09:58:00 RLDLY FIT DID NOT CONVERGE FOR IF 5 1 4 09-JUN-2020 09:58:00 RLDLY This probably means that the starting value for the 1 4 09-JUN-2020 09:58:00 RLDLY delay or rate for one or more antennae is bad. You 1 4 09-JUN-2020 09:58:00 RLDLY may want to set search windows and try again. 1 3 09-JUN-2020 09:58:00 RLDLY IF number = 6 Poln. = 2 1 3 09-JUN-2020 09:58:00 RLDLY Fitted phases, rates, delays and SNR: [ P = phase(deg), 1 3 09-JUN-2020 09:58:00 RLDLY R = rate(mHz), D = Single-Band Delay(nsec), S = SNR ] 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas=-141.0 rate= 0.00 delay= -2.15 SNR= 18.7 1 3 09-JUN-2020 09:58:00 RLDLY Standard RMS errors (deg, mHz, nsec): 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 3.07 rate= 388.611 delay= 0.483 1 3 09-JUN-2020 09:58:00 RLDLY IF number = 7 Poln. = 2 1 3 09-JUN-2020 09:58:00 RLDLY Fitted phases, rates, delays and SNR: [ P = phase(deg), 1 3 09-JUN-2020 09:58:00 RLDLY R = rate(mHz), D = Single-Band Delay(nsec), S = SNR ] 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas=-150.9 rate= 0.00 delay= -1.30 SNR= 10.9 1 3 09-JUN-2020 09:58:00 RLDLY Standard RMS errors (deg, mHz, nsec): 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 5.26 rate= 674.628 delay= 0.872 1 3 09-JUN-2020 09:58:00 RLDLY IF number = 8 Poln. = 2 1 3 09-JUN-2020 09:58:00 RLDLY Fitted phases, rates, delays and SNR: [ P = phase(deg), 1 3 09-JUN-2020 09:58:00 RLDLY R = rate(mHz), D = Single-Band Delay(nsec), S = SNR ] 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas=-198.5 rate= 0.00 delay= -2.90 SNR= 13.5 1 3 09-JUN-2020 09:58:00 RLDLY Standard RMS errors (deg, mHz, nsec): 1 3 09-JUN-2020 09:58:00 RLDLY Ant(01): Phas= 4.25 rate= 535.831 delay= 0.674 1 2 09-JUN-2020 09:58:00 RLDLY Time= 0/ 22 05 00 baseline= 2 - 13 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Time= 0/ 22 05 00 baseline= 3 - 13 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Time= 0/ 22 05 00 baseline= 4 - 13 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Time= 0/ 22 05 00 baseline= 5 - 13 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Time= 0/ 22 05 00 baseline= 6 - 13 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Time= 0/ 22 05 00 baseline= 7 - 13 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Time= 0/ 22 05 00 baseline= 8 - 13 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Time= 0/ 22 05 00 baseline= 9 - 13 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Time= 0/ 22 05 00 baseline= 10 - 13 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Time= 0/ 22 05 00 baseline= 11 - 13 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Time= 0/ 22 05 00 baseline= 12 - 13 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 2 09-JUN-2020 09:58:00 RLDLY Coarse search spacing: 0.195E+01 ns; 0.156E+04 mHz 1 4 09-JUN-2020 09:58:00 RLDLY RL delay IF 1 1.2511 +- 1.5440 ns using 2 of 2 samples 1 4 09-JUN-2020 09:58:00 RLDLY RL delay IF 2 1.0301 +- 1.7476 ns using 2 of 2 samples 1 4 09-JUN-2020 09:58:00 RLDLY RL delay IF 3 2.1234 +- 0.0000 ns using 1 of 1 samples 1 4 09-JUN-2020 09:58:00 RLDLY RL delay IF 4 3.6666 +- 0.0460 ns using 2 of 2 samples 1 4 09-JUN-2020 09:58:00 RLDLY RL delay IF 5 2.1902 +- 0.0000 ns using 1 of 1 samples 1 4 09-JUN-2020 09:58:00 RLDLY RL delay IF 6 0.5278 +- 1.4955 ns using 2 of 2 samples 1 4 09-JUN-2020 09:58:00 RLDLY RL delay IF 7 0.3927 +- 0.5972 ns using 2 of 2 samples 1 4 09-JUN-2020 09:58:00 RLDLY RL delay IF 8 4.1573 +- 0.9417 ns using 2 of 2 samples 1 4 09-JUN-2020 09:58:00 RLDLY L phase IF 1 -0.00 degrees 1 4 09-JUN-2020 09:58:00 RLDLY L phase IF 2 -13.57 degrees 1 4 09-JUN-2020 09:58:00 RLDLY L phase IF 3 -40.54 degrees 1 4 09-JUN-2020 09:58:00 RLDLY L phase IF 4 -76.02 degrees 1 4 09-JUN-2020 09:58:00 RLDLY L phase IF 5 -107.84 degrees 1 4 09-JUN-2020 09:58:00 RLDLY L phase IF 6 -148.03 degrees 1 4 09-JUN-2020 09:58:00 RLDLY L phase IF 7 -149.48 degrees 1 4 09-JUN-2020 09:58:00 RLDLY L phase IF 8 -179.56 degrees 1 6 09-JUN-2020 09:58:00 RLDLY Found 30 good solutions 1 6 09-JUN-2020 09:58:00 RLDLY Failed on 2 solutions 1 4 09-JUN-2020 09:58:00 RLDLY IF RL delay (ns) +- fe rms L phase (deg) 1 4 09-JUN-2020 09:58:00 RLDLY 1 1.2511 1.5440 0.0000 0.0 1 4 09-JUN-2020 09:58:00 RLDLY 2 1.0301 1.7476 0.0000 -13.6 1 4 09-JUN-2020 09:58:00 RLDLY 4 3.6666 0.0460 0.0000 -76.0 1 4 09-JUN-2020 09:58:00 RLDLY 6 0.5278 1.4955 0.0000 -148.0 1 4 09-JUN-2020 09:58:00 RLDLY 7 0.3927 0.5972 0.0000 -149.5 1 4 09-JUN-2020 09:58:00 RLDLY 8 4.1573 0.9417 0.0000 -179.6 1 4 09-JUN-2020 09:58:00 RLDLY Average solution being written to SN table 1 3 09-JUN-2020 09:58:00 RLDLY Appears to have ended successfully 1 5 09-JUN-2020 09:58:00 RLDLY localhos 31DEC20 TST: Cpu= 0.1 Real= 0 IO= 135 1 2 09-JUN-2020 09:58:00 AIPS Resumes 1 0 09-JUN-2020 09:58:03 AIPS inp prtmsg 1 0 09-JUN-2020 09:58:30 AIPS outprint ":RLDLY_Refant1problem.txt 1 7 09-JUN-2020 09:58:30 AIPS SYMBOL? " 1 0 09-JUN-2020 09:58:42 AIPS outprint ':RLDLY_Refant1problem.txt 1 0 09-JUN-2020 09:58:44 AIPS go prtmsg