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operation:fringe_checking [2012/08/13 05:26] Jamie McCallum |
operation:fringe_checking [2016/04/21 08:53] Arwin Kahlon [Running the script] |
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====== Introduction ====== | ====== Introduction ====== | ||
- | A simple script (adapted from the ATNF's RtFC suite) is now available for carrying out fringe-checks between the AuScope antennas. The script creates a schedule, carries out the observation, correlates the data on the hex cluster and finally carries out the fringe search on the correlated data. A major caveat is that it __does not__ make any attempt to configure the backend or recorders, and assumes that the recording mode is set to the standard R1/R4 geodetic configuration. As such, it's probably best to use this script after going through the Auscope checklist for each telescope first. If a non-standard configuration is desired, it's probably best to create a proper VEX schedule and use that. | + | A simple script (adapted from the ATNF's RtFC suite) is now available for carrying out fringe-checks between the AuScope antennas. The script creates a schedule, carries out the observation, correlates the data on the hex cluster and finally carries out the fringe search on the correlated data. A major caveat is that it __does not__ make any attempt to configure the backend or recorders, and assumes that the recording mode is set to the standard R1/R4/aust geodetic configuration. As such, it's probably best to use this script after going through the Auscope checklist for each telescope first. If a non-standard configuration is desired, it's probably best to create a proper VEX schedule and use that. |
====== Running the script ====== | ====== Running the script ====== | ||
+ | **Note: You need atleast a baseline between two dishes to get fringes. Cannot do fringe checks if only using one telescope** | ||
Firstly, if there are any apparent problems, the script can be efficiently stopped with ctrl-c commands. It should not be necessary to do this except in the event of an antenna/recorder error. | Firstly, if there are any apparent problems, the script can be efficiently stopped with ctrl-c commands. It should not be necessary to do this except in the event of an antenna/recorder error. | ||
- | The script (''fcgeo.sh'') is located on hex0 in the ''/home/observer/fc_auscope/'' subdirectory. It should be started with the command "./fcgeo.sh hb ke yg" (a maximum of three telescopes can be scheduled at once with the current script). It will then issue a warning about requiring the stanadrd geodetic configuration. If Yarragadee is scheduled, it will prompt the user to check that the USN transmitter is not active. | + | The script (''fcgeo.sh'') is located on hex0 in the ''/home/observer/fc_auscope/'' subdirectory. Log on to hex0 as observer (the usual password). It should be started with the command <code>./fcgeo.sh hb ke yg</code> <code> ./fcgeo.aust.sh hb ke yg (for austral observations)</code> (a maximum of three telescopes can be scheduled at once with the current script). It will then issue a warning about requiring the stanadrd geodetic configuration. If Yarragadee is scheduled, it will prompt the user to check that the USN transmitter is not active. |
Once started, it will select a suitable fringefinder (either 0537-441, 3C273 or 1921-293 at present) and issue ''source=...'' commands to all the telescopes via ssh. Once all telescopes report their status as "TRACKING", timed ''disk_record'' and ''disk2file'' commands are issued. The exported ''spectest.m5b'' files are scp'd back to hex0 and renamed appropriately. | Once started, it will select a suitable fringefinder (either 0537-441, 3C273 or 1921-293 at present) and issue ''source=...'' commands to all the telescopes via ssh. Once all telescopes report their status as "TRACKING", timed ''disk_record'' and ''disk2file'' commands are issued. The exported ''spectest.m5b'' files are scp'd back to hex0 and renamed appropriately. | ||
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When everything is ready, the script launches DiFX's errormon2, and will then run the correlation. Once complete, it will then run the ''fringe_find'' program for each correlated baseline (reporting back the results in the terminal window) and also producing eps plots of each frequency channel per baseline. These are stored in ''~observer/fc_auscope/'' | When everything is ready, the script launches DiFX's errormon2, and will then run the correlation. Once complete, it will then run the ''fringe_find'' program for each correlated baseline (reporting back the results in the terminal window) and also producing eps plots of each frequency channel per baseline. These are stored in ''~observer/fc_auscope/'' | ||
+ | View the eps plots using, on hex0, | ||
+ | <code>gv [filename] </code> | ||
+ | |||
+ | From top left to lower right, the first 10 channels are X-band and the last six are S-band. | ||
+ | |||