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operations:aum-hb [2018/08/18 10:17]
Lucas Hyland
operations:aum-hb [2019/07/06 12:02]
Lim Chin Chuan
Line 30: Line 30:
 The next step is to convert the existing snp file into one which will control the flexbuff recordings appropriately. This is done via a script at present - please use the following commands <​code>​cp aum001hb.snp aum001hb.orig.snp The next step is to convert the existing snp file into one which will control the flexbuff recordings appropriately. This is done via a script at present - please use the following commands <​code>​cp aum001hb.snp aum001hb.orig.snp
 /​usr2/​sched/​snp2flexbuff.sh aum001hb.orig.snp aum001hb.snp hb</​code>​ /​usr2/​sched/​snp2flexbuff.sh aum001hb.orig.snp aum001hb.snp hb</​code>​
 +
 +Updated: The DBBC3KE (which will be recording the X-band data is now configured. "​correlation statistics"​ might be slightly lower from the DBBC than  expected (~16000000 rather than 18000000+). It hopefully won't be too  much of an issue (Lim: cited from Jamie). Use the following script instead:
 +<​code>​snp2flexbuff.aum.sh aum001hb.orig.snp aum001hb.snp hb
 +aum007.setup.dbbc3ke.py</​code>​
 +The flexbuff logs will be under 
 +<​code>/​usr2/​log/​$(lognnm).flexbuffhb.log</​code>​ (S-band recordings only, 46236) and <​code>/​usr2/​log/​$(lognnm).flexbuflyg.log</​code>​ (X-band recordings only, 46229 & 46230)
  
 The newly created aum001hb.snp file retains the timing of the source commands, scan names and times but calls a script to run the recorder and omits many of the typical procedures like preob, etc.  **NB - do not use the line number entries in the sum file!** ​ The newly created aum001hb.snp file retains the timing of the source commands, scan names and times but calls a script to run the recorder and omits many of the typical procedures like preob, etc.  **NB - do not use the line number entries in the sum file!** ​
  
-  * RF and IF paths configured/​DBBC settings: The RF/IF/DBBC configuration has been compiled into a single script on pcfshb ''​~/​aum.32mhz.py''​. Running this should set up all the essential settings for both the X-band recorded through the DBBC3 and S-band through the 26m backend and dbbcho. ​+  * RF and IF paths configured/​DBBC settings: The RF/IF/DBBC configuration has been compiled into a single script on pcfshb ''​~/​aum007.setup.py''​. Running this should set up all the essential settings for both the X-band recorded through the DBBC3 and S-band through the 26m backend and dbbcho. ​
     * No RF configuration is needed for the X-band data recorded through the DBBC3, but it is necessary to set the inputs on the 26m's remote backend (e.g "the folly" or "​PalfreymansBackend"​. Go to the hobart26 VNC session (''​vncviewer newsmerd:​1''​) and go to desktop 3. Refresh the Folly display with '​r'​ and confirm that **S/X SRCP** and **S/X XRCP** are highlighted for channels 1 and 2 respectively. ​     * No RF configuration is needed for the X-band data recorded through the DBBC3, but it is necessary to set the inputs on the 26m's remote backend (e.g "the folly" or "​PalfreymansBackend"​. Go to the hobart26 VNC session (''​vncviewer newsmerd:​1''​) and go to desktop 3. Refresh the Folly display with '​r'​ and confirm that **S/X SRCP** and **S/X XRCP** are highlighted for channels 1 and 2 respectively. ​
-    * DBBC server: If the aum.32mhz.py script cannot communicate with the DBBC servers, you can restart the software running through the VNC sessions on dbbc3hb (''​DBBC#​ Control ​DDC_V_v121.exe''​) and dbbcho (''​DBBC2 Control DDC v105_2.exe''​ and ''​SerialServer.sem.py''​),​ respectively.  +    * DBBC server: If the aum007.setup.py script cannot communicate with the DBBC servers, you can restart the software running through the VNC sessions on dbbc3hb (''​DBBC#​ Control ​DDC_V_v122.exe''​) and dbbcho (''​DBBC2 Control DDC v105_2.exe''​ and ''​SerialServer.sem.py''​),​ respectively.  
-    * IF selections ​ can be checked with the ''​aum.query.py''​ script on pcfshb. For the DBBC3, all inputs and filters should be ''​2'' ​ and all power levels should have a target level of ''​42000''​. For the dbbcho, the input should be ''​1'',​ the filter ''​2''​ and the target power level should be ''​48000''​+    * IF selections ​ can be checked with the ''​aum.check.sh''​ script on pcfshb. For the DBBC3, all inputs and filters should be ''​2'' ​ and all power levels should have a target level of ''​42000''​. For the dbbcho, the input should be ''​1'',​ the filter ''​2''​ and the target power level should be ''​48000''​
   * Maser ok: Check the Hobart26 maser as per usual   * Maser ok: Check the Hobart26 maser as per usual
   * Mark5: Not used. Instead log in to the Flexbuff recorder (with ''​ssh observer@flexbuffhb''​) and confirm that the time is correct (with ''​ntpq -np''​) and that jive5ab is running (with ''​ps -ef | grep jive''​)   * Mark5: Not used. Instead log in to the Flexbuff recorder (with ''​ssh observer@flexbuffhb''​) and confirm that the time is correct (with ''​ntpq -np''​) and that jive5ab is running (with ''​ps -ef | grep jive''​)
/home/www/auscope/opswiki/data/pages/operations/aum-hb.txt · Last modified: 2020/02/25 05:40 by Jamie McCallum