AIPS HELP file for MULTI in 31DEC24
As of Thu Oct 10 7:20:39 2024
MULTI: Task to convert single-source to multi-source UV data
INPUTS
INNAME Input UV file name (name)
INCLASS Input UV file name (class)
INSEQ 0.0 9999.0 Input UV file name (seq. #)
INDISK 0.0 9.0 Input UV file disk unit #
OUTNAME Output UV file name (name)
OUTCLASS Output UV file name (class)
OUTSEQ -1.0 9999.0 Output UV file name (seq. #)
OUTDISK 0.0 9.0 Output UV file disk unit #.
SRCNAME Source name (16 char. max.)
(Def.: extract from header)
APARM (1) CL time interval (min.)
(Def.: 1 minute)
HELP SECTION
MULTI
Task: This task will take an existing time-ordered UV dataset
in single-source format and copy it as a new UV dataset
in multi-source format, and create the required SU and
CL tables.
Adverbs:
INNAME.....Input UV file name (name). Standard defaults.
INCLASS....Input UV file name (class). Standard defaults.
INSEQ......Input UV file name (seq. #). 0 => highest.
INDISK.....Disk drive # of input UV file. 0 => any.
OUTNAME....Output UV file name (name). Standard defaults.
OUTCLASS...Output UV file name (class). Standard defaults.
OUTSEQ.....Output UV file name (seq. #). 0 => highest unique
OUTDISK....Disk drive # of output UV file. 0 => highest with
space for the file.
SRCNAME....Name of source (16 char. max.) Default is to
extract the source name from the catalog header.
APARM(1)...CL time interval (minutes). Default is 1 minute.
EXPLAIN SECTION
MULTI: Task to copy a UV database in single-source format to a
UV database in multi-source format, with creation of the
attendant SU and CL tables.
Documentor: Kevin R. Lind
This task is required in a limited number of circumstances, when
the AIPS task to be run intrinsically requires a multi-source
UV datbase, or (hopefully rarely) the single-source version is
acting up. After running this routine, you might need to run
INDXR to create an NX table. Any other tables are either already
attached to the input database, and are copied over to the
output database, or will be created at need in the AIPS package.
In general, this will have to be run before running CLCAL,
which applies the apriori antenna-based calibrations to the
data. All fringe-fitting and self-calibration steps may be
carried out in either format unless you are applying corrections
obtained from a calibrator source to a weak source; in this
case, you will have to complete the fringe-fitting before
splitting the data into single-source datasets.