Dear PI,

We have examined the data for project RD019 on 31 Jan. 2000.
The contact person for this project was Craig Walker. Here's a summary:

1. Tape weights vs. time plots have been generated for the entire time range
   of your experiment. These are a measure of tape record/playback quality,
   representing the fraction of valid data samples. Data with weights below
   70-75% should be flagged. However, you may want to be more cautious
   when dealing with non-VLBA stations.  The easiest way to estimate
   the best weight threshold is by looking at the tape weights vs. time
   plots generated here.  You can find the weights plots at
   /home/aspen6/astronomy/jan00/rd019/sniffer/final/wtsfile.ps.  If your
   experiment involves more than one distribution tape then there will
   be a tape# subdirectory between /final and wtsfile.ps.  See
   /home/aspen6/README.sniffer for instructions on how to interpret this
   plot.

2. Delay, rate, phase, and amplitude plots were made for the observation.

3. Autocorrelation bandpass plots were generated for all antennas for scans
   on CTA26, OJ287, 4C39.25, 0552+398, 1803+784, 0234+285, 2054-377, and 0403-132.

4. Cross-correlation bandpass plots were generated for all baselines to PT for
   scans on CTA26, OJ287, 4C39.25, 0552+398, 1803+784, 0234+285, 2054-377, and 0403-132.

5. Weather and Tsys plots for the VLBA antennas for your project will be sent
   with the data tape(s).

6. The jobs associated with the correlation of RD019 can be found at:
   /home/aspen6/astronomy/jan00/rd019/jobs. These files provided
   the correlator with all ancillary data needed for VLBI, including:
   correlation parameters and telescopes correlated in the final production.
   The job numbers are: 2820-2853


   Automated Calibration Transfer for VLBA Correlator Output
   ---------------------------------------------------------
The first phase of automated calibration transfer for data from
the VLBA correlator has been completed, and was used
for your observation.  This transfer of calibration information includes
data from the 10 VLBA antennas, as well as selected information from the VLA,
Green Bank, and Effelsberg, which currently provide VLBA-style
monitor data.  Significant changes to AIPS have been required to
introduce calibration transfer, so users must have the patched
version of 15OCT98 AIPS, or any later version, beginning with 15APR99.
Help files for a number of AIPS tasks have been updated to
reflect the new calibration procedures.  There also is a new
version of the VLBI chapter of the AIPS cookbook, available
from http://www.cv.nrao.edu/aips/aipsdoc.html, that includes
more details on how to cope with the calibration transfer process.

The calibration-transfer process relieves observers of the
burden of creating and inputting calibration files for VLBA
antennas.  Instead, this information is now provided as tables
attached to the FITS data sets output by the VLBA correlator.
The ancillary data include antenna gain (GC table), system
temperature (TY table), pulse calibration (PC table), flags (FG
table), and weather (WX table).  The wise observer will not
modify these original tables; processing errors might then force
the data to be reloaded using FITLD.  See the description of
MERGECAL in Section 9.2.1.7 of the new cookbook chapter for more
detail.  Of course, skeptical users can simply delete the appropriate
tables created by FITLD and generate their tables in the old manner.

Phase 2 of calibration transfer will include supply of data from
more external telescopes, and probably will proceed incrementally,
depending on both the availability of the external information and the
implementation of new software in Socorro.  At present, ancillary
data from most external telescopes must still be loaded in the old
manner, and observations of strong sources may be needed for manual
pulse calibration at those telescopes. Up-to-date instructions
on coping with observations including external telescopes can be
found at http://www.nrao.edu/vlba/html/OBSERVING/cal-transfer/cal-transfer.html.

Please send comments on calibration transfer to julvesta@nrao.edu, 
and send bug reports to daip@nrao.edu, with a copy to julvesta@nrao.edu.

NOTES:
BR: OK

FD: OK

GC: OK

HN: Corrupted dewpoint data recorded during the beginning of the experiment. 
    Poor fringing during beginning of observation at X-band due to snow.

HH: Slightly variable weights; track #3 is poor.

KK: OK

KP: RFI in all S-band channels.

LA: Variable weights at 20:40 - 21:10 UT; weights vary between 90% - 100%.

MA: RFI in all S-band channels.  RFI affects cross-correlation plots.

MC: RFI in all S-band channels.  RFI affects cross-correlation plots.

MK: OK

NL: OK

NY: Variable weights at 14:10 - 14:50 UT and 1:30 - 2:30 UT; weights vary between
    50% - 100%.

ON: In SEARCH at 14:50 - 15:30 UT; no data. Variable weights at 15:30 - 17:15 and
    18:10 - 20:30 UT; weights vary between 20% - 90%.

OV: OK

PT: Sloped bandpass edges in channels 7 and 8 in autocorrelation plots (S-band).
    Slightly variable weights at 14:30-15:00 UT.

SC: OK

TS: OK

WF: RFI in all S-band channels.  Delay drifts roughly 100 ns through-out
    the project in the delay plots.  Poor fringing during the beginning of
    the observation at X-band due to snow.

WZ: Out for intensive at ~15:30 - 17:47 UT; no data.