Table of contents
- 1. 5.3.2013
- 1.1.1.1.1. Andreas reports:
- 2. 14.3.2013
- 2.1.1.1.1. Test of TBBs with 160MHz clock
- 3. 25.3.2013
- 3.1.1.1.1. Installation of monitoring software
- 3.1.1.1.2. Running checkHardware.py
5.3.2013
Andreas reports:
I just tested this mode (=rcumode 6) and found the following things:
- The beamserver does not change the clock. If you set it to rcumode 6 without
changing the clock values, then you get rcumode 6 data (i.e. 170 MHz -
230 MHz) with the 200 MHz ADC clock, thus the data folded into one have of
the sampled band.
- Changing the clock does not kill the beamserver. But it does reset the
rcumode settings of the RCUs, so you'll want to kill and restart the beam
after changing the clock.
- On the other hand the TBBs _are_ reseted when changing the clock. When the
TBBDriver detects a change of the clock, it waits 80 seconds and then
reboots the TBBs. So all data on the TBBs are lost when changing the clock.
- To make matters worse: TBB-board number 4 (when starting to count with 0)
does not seem to like the 160 MHz clock. When in that mode and with the RSPs
configured to send data to the TBBs, it kept reseting every few minutes.
(While I watched it it came back after each reset, but only until the next
reset.)
14.3.2013
Test of TBBs with 160MHz clock
Testing the clock-output of the TDS board in subrack 2 (TBBs 4 and 5) did not work, as we only brought a scope with 100MHz bandwidth.
We swaped TBBs 4 and 5, after that all TBBs worked fine with the 160MHz clock, in rcumode 6. (We didn't test before the swap.)
25.3.2013
Installation of monitoring software
I (AH) installed Tobia Carrozi's monitoring software in: /data/home/user5/iStnMonitor
The cron-job is set up as user5, the local logfile is: /data/home/user5/logs/stnStatus.log
On lofarx it is in: /home/observer/iStnMonitor
Running checkHardware.py
The original version of checkHardware.conf does not contain a valid directory for local data storage (or that can be created by me).
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