ID |
Date |
Author |
Subject |
499
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Tue Nov 29 19:07:35 2016 |
AE, CG, ATS, AT | F11 conditions after change to C target in F8 [light particles?] |
The main experiment changed to a carbon reaction target at F8 (similar thickness of CH2 previously used), and retuned the ZDS. First BigRIPS run after retuning is 40Mg_1093 (at 2:29 am, Nov 30th)
The background at F11 has increased. The neutron backgroun incresead by a factor of ~10. The rates of visual scalers also increased; for example Si Top/Bottom from about 50 Hz to 300 Hz (see attachment 1).
One possible explanation are higher light particle rate at F11. By comparing the PID for C target (attachment 2) with that of CH2 target setting (e.g. https://elog.ph.ed.ac.uk/AIDA/492), it looks like the new conditions have a higher transmission for A/Q=3 fragments (3H et al). Also, in the new setting the Si isotopes are also transmitted to F11.
The implantation depth is still good; same as we had for C target at F8 (compare 40Al distribution in attachment 3 with what we had before). |
Attachment 1: visual_scal_4am_Cin_F7.png
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Attachment 2: pid_r1093.png
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Attachment 3: imp_ch2.png
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Attachment 4: pid_ch2.png
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Attachment 5: hits_ch2.png
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487
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Sun Nov 27 19:33:00 2016 |
Liu, PV, AE | F11 degrader setting (night Nov27-Nov28) |
Analysis of files for two more settings of F11 degrader to optimize implantation of 40Mg.
+ setting 1: from Nov 27th, 22:16
Fixed degrader: 3 mm Pb + 1 mm Al, Variable degrader: 1.3 mm W + 2 mm Al
AIDA run: R26_0 to R26_38
BigRIPS run: 40Mg1037 (partial) to 40Mg1040
see attachments: run1038_imp*png
+ setting 2: from Nov 28th, 1:38.
Entered F11 during stripper foil change and removed 1mm Al fixed degrader (same as during Nov 26th - ~ run
40Mg1012).
Fixed degrader: 3 mm Pb, Variable degrader: 1.3 mm W + 2 mm Al
AIDA run: R26_39 to ...
BigRIPS run: from 40Mg1041 to ...
see attachments: run104x_imp*png (2 hours of data: run 1041 and 1042)
Setting 2 moved implantation depth one or two strips upstream (1.2 according to calculations). 40Mg seems to be
implanted about the third strip; a conclusion with LOW STATISTICS, but consistent with the trend of how the
implantation position depends on neutron number for the higher-count isotopes.
Setting 2 seems to be our best option (at least without going into F11 and reconfiguring degraders). We will
continue accumulating data with it.
Attachments: the 1D plot shows the ion implant position (DSSD) gated for all ions and for Al and Mg gates in the
PID. The 2D plots show the PID with gates on implants in different DSSDs.
Range calculation for degrader's configuration:
https://docs.google.com/spreadsheets/d/1QJp8t98sT3pExAQb3xtHtAvk4TUDVO6alhbLIaNtx8A/edit?usp=sharing |
Attachment 1: run1038_imp_profile.png
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Attachment 2: run1038_imp_pid.png
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Attachment 3: run104x_imp_profile.png
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Attachment 4: run104x_imp_pid.png
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517
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Fri Dec 2 09:47:45 2016 |
DK | F8 targets |
F8 targets, for posterity.
Plastic: 39~40 mm
Carbon: 20. mm |
518
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Fri Dec 2 09:47:58 2016 |
DK | F8 targets |
F8 target measurements, for posterity.
Plastic: ~39 to 40 mm
Carbon: 20. mm |
431
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Tue Nov 8 00:52:59 2016 |
OH, TD | FEE Settings and Options files |
Used a program to sort through the settings files located in /MIDAS/DB/EXPERIMENTS/AIDA/Settings_FIle_Name/nnaider1,2,3... and /MIDAS/DB/EXPERIMENTS/AIDA/Options.
By comparing the parameter values we got from this to the value we know they should be set to we found some discrepancies in FEEs 1 and 3-8 with values being set
to 0xd rather than the value to which they should have been saved to. This was corrected and new settings and options files were created. Last night we saw that
the DAQ is able to load these files correctly and that the values remain as they should be.
An excel sheet is attached which makes it easy to compare the values parsed by the code to the default values. To do this it is best to sort the data by FEE, then
type, then type number then parameter value number using the sort function on the data tab. After copying this data into the new settings sheet it will flag any
values that do not match the default values in red. |
Attachment 1: FEE_Settings.xlsx
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357
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Sun Sep 4 04:35:42 2016 |
TD | FEE64 & MACB configuration |
UP
nnaida1 nnaida9 nnaida17
LEFT nnaida2 nnaida10 nnaida18 RIGHT
nnaida23 nnaida15 nnaida7 nnaida3 nnaida11 nnaida19
nnaida24 nnaida16 nnaida8 nnaida4 nnaida12 nnaida20
nnaida5 nnaida13 nnaida21
nnaida6 nnaida14 nnaida22
DOWN
<LOOKING UPSTREAM>
LEFT-RIGHT n+n ohmic strips
UP-DOWN p+n junction strips
1 2 3 4 5 6 7 8 9 10 11 MACB NIM Module # spare 1 spare 2
<- #1 <- #2 <- #2 <- #2 <- #2 <- #1 <- #7 <- #7 <- #7 <- #7 Next
-> #2 -> #3 6* 21 7 23 -> #8 1 17 3 19 Port 1
-> #7 -> #4 5 22 8 24 -> #9 2 18 4 20 Port 2
-> #5 13 29 15 31 -> #10 9 25 11 27 Port 3
-> #6 14 30 16 32 -> #11 10 26 12 28 Port 4
** 2 2 3 3 3 3 3 3 3 3 Mode
y y Rev B y
* = Master Timestamp FEE64
** MACB (rev A serial #13 mode 5) external 50MHz clock
or
MACB (rev B serial #11 mode 0) internal 50MHz cloxk
MACB HDMI cabling mechanically secured by 1U cable organiser above MACB NIM bin and by AIDA frame
- see attachments 1-3 |
Attachment 1: IMG_6502.JPG
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Attachment 2: IMG_6503.JPG
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Attachment 3: IMG_6504.JPG
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218
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Wed May 11 06:00:56 2016 |
AE, VP, BM (Byul Moon) | FEE64 <-> MACB trigger mapping |
Here is the mapping of the trigger output of MAC-B modules to FEE64 modules
3.1 NNAIDA5 veto-X2
3.2 NNAIDA14 D4-X2
3.3 NNAIDA13 D5-X2
3.4 NNAIDA6 D6-X2
4.1 NNAIDA28 -
4.2 NNAIDA27 D1-Y1
4.3 NNAIDA20 D2-Y1
4.4 NNAIDA19 D3-Y1
5.1 NNAIDA12 D4-Y1
5.2 NNAIDA11 D5-Y1
5.3 NNAIDA3 veto-Y1
5.4 NNAIDA4 D6-Y1
6.1 NNAIDA25 D1-X1
6.2 NNAIDA17 D3-X1
6.3 NNAIDA18 D2-X1
6.4 NNAIDA26 -
8.1 NNAIDA29 -
8.2 NNAIDA30 D1-X2
8.3 NNAIDA22 D2-X2
8.4 NNAIDA21 D3-X2
9.1 NNAIDA15 D4-Y2
9.2 NNAIDA16 D5-Y2
9.3 NNAIDA7 D6-Y2
9.4 NNAIDA8 veto-Y2
10.1 NNAIDA1 veto-X1
10.2 NNAIDA9 D5-X1
10.3 NNAIDA10 D4-X1
10.4 NNAIDA2 D6-X1
11.1 NNAIDA23 D2-Y2
11.2 NNAIDA32 D1-Y2
11.3 NNAIDA31 -
11.4 NNAIDA24 D3-Y2
MACB modules are labeled, from left to right, according to their position in the NIM crate.
D1 is the most upstream DSSD, and veto the most downstream one. |
Attachment 1: dssd_layout.jpg
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64
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Wed Apr 22 03:33:01 2015 |
TD | FEE64 Fast Discriminator OR o/p via MACB |
Illustration of the trigger timing of the AIDA FEE64 fast discriminator OR output via the
MACB front panel Trigger outputs.
Channel 1: BNC PB-4 Pulser Trigger Output
Channel 2: BNC PB-4 Pulser Analogue Output
Channel 3: MACB Trigger Output
MACB Trigger Output: NIM complement
width ~ 7us
delay ~ 750ns (with respect to BNC PB_4 Pulser Analogue Output)
Example illustrates MAC Trigger Output from nnaida5 with standard ASIC settings and
LEC/MEC fast discriminator 0x40 |
Attachment 1: tek00000.tif
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Attachment 2: tek00001.tif
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68
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Thu Apr 23 09:02:57 2015 |
TD, Patrick | FEE64 Fast Discriminator OR o/p via MACB |
> Illustration of the trigger timing of the AIDA FEE64 fast discriminator OR output via the
> MACB front panel Trigger outputs.
>
> Channel 1: BNC PB-4 Pulser Trigger Output
> Channel 2: BNC PB-4 Pulser Analogue Output
> Channel 3: MACB Trigger Output
>
> MACB Trigger Output: NIM complement
> width ~ 7us
> delay ~ 750ns (with respect to BNC PB_4 Pulser Analogue Output)
>
> Example illustrates MAC Trigger Output from nnaida5 with standard ASIC settings and
> LEC/MEC fast discriminator 0x40
It would be useful to show the Trigger signal at the different levels of the MACB distribution system... then
the difference will show the delay through the MACB layer.
Are you able to estimate the length of cable between the pulser and the adaptor boards.
What are the conclusions about the delay .... is it too much to be useful ? |
935
|
Fri Dec 8 12:55:38 2023 |
TD, NH | FEE64 configuration |
FEE64 configuration for 1x MSL type BB18(DS)-1000 24cm x 8cm DSSSD
*Beam into page*
aida09 BB7 FEE64
aida05 aida01 aida06 p+n junction FEE64s
aida02 aida04 n+n Ohmic FEE64s
*
aida07 aida03 aida08 p+n junction FEE64s
* approximate position of c. 1.5cm diamond-shaped hole in black cloth optical screen positioned between 'upstream' bPlast and BB18 DSSSD. |
846
|
Sun Jun 16 10:06:21 2019 |
TD, CG | FEE64 nnaida14 noise issues |
Attachments 1, 3, 5 & 7 *.L spectra log scale
Attachments 2, 4, 6 & 8 *.L spectra linear scale (expanded around pulser peak)
Attachments 9-12 *.W spectra 20us FSR
Observe
2.13.L low amplitude
2.14.L & 3.3.L large number of counts and 'sinusoidal' continuum
... but ... the corresponding waveform spectra look OK
Zero'd all histograms to confirm observations - confirmed - see attachment 16
Pulser peak width spectrum 3.8.L 71 ch FWHM |
Attachment 1: 100.png
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Attachment 2: 101.png
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Attachment 3: 102.png
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Attachment 4: 103.png
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Attachment 5: 104.png
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Attachment 6: 105.png
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Attachment 7: 106.png
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Attachment 8: 107.png
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Attachment 9: 110.png
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Attachment 10: 111.png
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Attachment 11: 112.png
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Attachment 12: 113.png
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Attachment 13: 120.png
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Attachment 14: 121.png
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Attachment 15: 122.png
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Attachment 16: 130.png
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283
|
Mon Jun 6 13:52:10 2016 |
TD, ML & YS | FEE64 power-cycle, FEE64 & aidas1 reboot |
21.40 toggled merge input pause state - merge pause stopped at link 18 (nnaida19 - this link is supposed
to be disabled
obtained 'unable to connect' to nnaida1 for DAQ stop
reboot aidas1, power cycle and reboot FEE64s |
589
|
Mon May 22 10:29:11 2017 |
TD | FEE64 system console to Raspberry pi /dev/ttyUSB mapping |
ttyUSB0 => last host=nnaida24, => last addr=10.1.2.24, ; #panics => 0 ; Not Finished
ttyUSB1 => last host=nnaida23, => last addr=10.1.2.23, ; #panics => 0 ; Not Finished
ttyUSB10 => last host=nnaida18, => last addr=10.1.1.18, ; #panics => 0 ; Not Finished
ttyUSB11 => last host=nnaida17, => last addr=10.1.1.17, ; #panics => 0 ; Not Finished
ttyUSB12 => last host=nnaida4, => last addr=10.1.2.4, ; #panics => 0 ; Not Finished
ttyUSB13 => last host=nnaida3, => last addr=10.1.2.3, ; #panics => 0 ; Not Finished
ttyUSB14 => last host=nnaida12, => last addr=10.1.2.12, ; #panics => 0 ; Not Finished
ttyUSB15 => last host=nnaida11, => last addr=10.1.2.11, ; #panics => 0 ; Not Finished
ttyUSB16 => last host=nnaida20, => last addr=10.1.2.20, ; #panics => 0 ; Not Finished
ttyUSB17 => last host=nnaida19, => last addr=10.1.2.19, ; #panics => 0 ; Not Finished
ttyUSB18 => last host=nnaida6, => last addr=10.1.1.6, ; #panics => 0 ; Not Finished
ttyUSB19 => last host=nnaida5, => last addr=10.1.1.5, ; #panics => 0 ; Not Finished
ttyUSB2 => last host=nnaida16, => last addr=10.1.2.16, ; #panics => 0 ; Not Finished
ttyUSB20 => last host=nnaida14, => last addr=10.1.1.14, ; #panics => 0 ; Not Finished
ttyUSB21 => last host=nnaida13, => last addr=10.1.1.13, ; #panics => 0 ; Not Finished
ttyUSB22 => last host=nnaida22, => last addr=10.1.1.22, ; #panics => 0 ; Not Finished
ttyUSB23 => last host=nnaida21, => last addr=10.1.1.21, ; #panics => 0 ; Not Finished
ttyUSB3 => last host=nnaida15, => last addr=10.1.2.15, ; #panics => 0 ; Not Finished
ttyUSB4 => last host=nnaida8, => last addr=10.1.2.8, ; #panics => 0 ; Not Finished
ttyUSB5 => last host=nnaida7, => last addr=10.1.2.7, ; #panics => 0 ; Not Finished
ttyUSB6 => last host=nnaida2, => last addr=10.1.1.2, ; #panics => 0 ; Not Finished
ttyUSB7 => last host=nnaida1, => last addr=10.1.1.1, ; #panics => 0 ; Not Finished
ttyUSB8 => last host=nnaida10, => last addr=10.1.1.10, ; #panics => 0 ; Not Finished
ttyUSB9 => last host=nnaida9, => last addr=10.1.1.9, ; #panics => 0 ; Not Finished |
79
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Wed Apr 29 10:01:27 2015 |
Patrick Coleman-Smith | Fast Trigger output fault in FEE64 FPGA logic |
The Fast Trigger output of the FEE64 is formed from the OR of the four OR16 signals ( one from each of the ASICs.
The logic levels of the OR16 signals are active low in the FPGA and so if the are OR'd together then the output is inactive if any one of the ASICs is inactive.
This is a problem when the Fast Trigger is being used by other DAQ systems.
A new FPGA program 0x1b4FE01A ( version 26 ) is being compiled.
The Fast Trigger output will provide the logic AND of the four OR16 signals which should give the correct signal. This setting is selected by "Setup".
The other settings available using the Trigger register are shown below. Note that OR64 is the logic OR of the masked outputs of the ASIC individual Discriminator outputs.
when 0 =>
trigger_hit <= ASIC1_data_ready ;
when 1 =>
trigger_hit <= ASIC1_rdo_range and ASIC1_data_ready ;
when 2 =>
trigger_hit <= ASIC2_rdo_range and ASIC2_data_ready ;
when 3 =>
trigger_hit <= led_trigger(0) ;
when 4 =>
trigger_hit <= led_raw(0) ;
when 5 =>
trigger_hit <= chan_reset(0) ;
when 6 =>
trigger_hit <= force_capture_sync ;
when 7 =>
trigger_hit <= force_capture ;
when 8 =>
trigger_hit <= ASIC1_OR_16 ;
when 9 =>
trigger_hit <= ASIC2_OR_16 ;
when 10 =>
trigger_hit <= ASIC3_OR_16 ;
when 11 =>
trigger_hit <= ASIC4_OR_16 ;
when 12 =>
trigger_hit <= ASIC4_OR_16 and ASIC3_OR_16 and ASIC2_OR_16 and ASIC1_OR_16;
when 13 =>
trigger_hit <= led_trigger(1) ;
when 14 =>
trigger_hit <= OR64 ;
when 15 =>
trigger_hit <= ASIC4_OR_16 or ASIC3_OR_16 or ASIC2_OR_16 or ASIC1_OR_16; |
81
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Wed Apr 29 11:34:09 2015 |
Patrick Coleman-Smith | Fast Trigger timings against Pulser Input and LEC/MEC Fast Comparator threshold setting |
I have tried the latest version ( 26 ) of the FEE64 code and carried out some measurements of the Fast Trigger delay from the Pulser signal ( not the Pulser Trigger out ) and observed the following.
The pulser gives a centroid of 28217 in the histogram.
Threshold setting |
Delay observed at MACB Fast Trigger output (nS) |
0x40 |
no Trigger |
0x38 |
no Trigger |
0x30 |
no Trigger |
0x28 |
1200 to 1800 |
0x20 |
690 to 860 |
0x18 |
505 to 600 |
0x10 |
320 to 385 |
0x8 |
210 to 270 |
This seems to me to be sensible as the discriminator is only a very simple comparator.
The OR64 ( 0xE ) signal works as True Fast NIM Logic. The OR16s ( 0xC ) logic works as inverse Fast NIM.
The OR64 is derived from the individual masked discriminator outputs. By default the Mask is not set.
|
21
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Wed Jan 14 15:29:01 2015 |
Patrick | Filtered switch mode PSU performance |
Trying the AIDA format power supply with the simple filters installed.
The detector is attached and HV of 200v@3.8uA
Using one channel from each FEE64 as a guide to compare performance. Using the Integrate analysis function Peak width.
With the bench power supply and the restored setup for the ASICs.
FEE64 #11:1.4.L:311, #12:2.8.L:183, #13:1.4.L:202, #14:1.4.L:342
Change to the filtered power supply
FEE64 #11:1.4.L:345, #12:2.8.L:414, #13:1.4.L:311, #14:1.4.L:476
Add Braid between the LEMO00 connectors on the two adaptor boards using "croc" clips.
FEE64 #11:1.4.L:172, #12:2.8.L:141, #13:1.4.L:106, #14:1.4.L:161
Change the shaping time of all the ASICs from 0.5uS to 5uS
FEE64 #11:1.4.L:128, #12:2.8.L:127, #13:1.4.L:119, #14:1.4.L:199
I think this means the AIDA power supply with the simple filters is equivalent or better than the bench supply.
Good news I think.....
It needs a more extensive test ( more channels ? ) |
276
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Sun Jun 5 01:32:44 2016 |
TD, DK, GL, AE, PJW | First RIB implantation: Run 67 |
We restarted the merger (Stop, Setup & Configure, Go, Pause) and then we could restart the DAQ as normal. Rate is ~500 Hz. |
544
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Wed Mar 29 13:38:38 2017 |
OH, DK, CG | First beam runs |
For BigRIPS run numbers, they are available online: http://bripscnt01.rarfadv.riken.jp/runsum/index.php
21:30 AIDA and BRIKEN are ready to go -- so we closed the door and asked the BigRIPS team to send the beam to
F11. It will take about 30 minutes as they want to recalibrate one of the Faraday cups.
22:09: Beam is coming to F11. AIDA sub-run R13_17 is running at 22:10 so nearly the same time.
BigRIPS run number 0140
BRIKEN file name 170329_2213_40Mg Run 0. It is started at 22:13. R13_18 for AIDA
See attachment 1 for biases.
23:12: We notice that BigRIPS began the run 0141 at 23:08
AIDA subrun R13_36 began about or near 23:07 or 23:08
BRIKEN run number 170329_2313_40Mg Run 1
All system-wide checks passed (excepting nnaida6 clock status which is a known issue)
Statistics rates look reasonable, except that the nnaida 16 23 24 are even higher than before when the beam
was off (~200k)
23:59 - AIDA crashed. Merger stopped. When attempting to stop the run, the following error is displayed:
STATE for nnaida1 returned with an error
error: SOAP http transport timed out after 20000 ms
NONE
error: SOAP http transport timed out after 20000 ms
while executing
"$transport $procVarName $url $req"
(procedure "::SOAP::invoke" line 18)
invoked from within
"::SOAP::invoke ::SOAP::_DataAcquisitionControlClient__GetState"
("eval" body line 1)
invoked from within
"eval ::SOAP::invoke ::SOAP::_DataAcquisitionControlClient__GetState $args"
(procedure "DataAcquisitionControlClient__GetState" line 1)
invoked from within
"DataAcquisitionControlClient__GetState"
We kill off the merge and tape server.
DAQ itself comes back after a reset. Attempting to open the tape service, however, yields an error
Cannot issue more Access Tokens
ClaimTapeServer returned:-
3 Capability table is full.
30.3.2017
0:56 When attempting to bring AIDA back up, eventually nnaida10 was not showing merger data before enabling the
ASIC readout data. On the run control, nnaida10 consistently showed that its data transfer was not enabled.
Attempting to reset etc., then eventually issuing Go would drop all the data transfers.
After a power cycle by the standard method, essentially the problem persists, except that it is nnaida 7 8 9 10
(the whole block) which shows the problem where we cannot get the enabled data transfer to stick. |
Attachment 1: biases_firstbeam.png
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162
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Wed Feb 24 14:53:41 2016 |
PJCS | First data with two streams merged from one FEE64 |
nnaida2 running Version 8 Firmware and data acquisition software outputting both and ASIC data stream and a Waveform data stream to the Merge process.
Merged data is written to file ... attached.
The waveform is running at 100Hz and ASIC data is running at 10Hz.
|
Attachment 1: R1_0.gz
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164
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Wed Feb 24 16:13:24 2016 |
PJCS | First data with two streams merged from one FEE64 |
Quote: |
nnaida2 running Version 8 Firmware and data acquisition software outputting both and ASIC data stream and a Waveform data stream to the Merge process.
Merged data is written to file ... attached.
The waveform is running at 100Hz and ASIC data is running at 10Hz.
|
S O R T S T A R T I N G .....
S O R T S T A R T E D ..... Wed Feb 24 16:11:54 2016
*** AIDA @ RIKEN - May 2015
*** Entry init commences
*** READ I/O error: 5010
gain( 0- 7) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
gain( 8- 15) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
gain( 16- 23) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
gain( 24- 31) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
gain( 32- 39) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
gain( 40- 47) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
gain( 48- 55) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
gain( 56- 63) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
gain( 64- 71) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
gain( 72- 79) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
gain( 80- 87) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
gain( 88- 95) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
gain( 96- 103) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
gain( 104- 111) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
gain( 112- 119) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
gain( 120- 127) 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000
offset( 0- 7) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
offset( 8- 15) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
offset( 16- 23) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
offset( 24- 31) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
offset( 32- 39) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
offset( 40- 47) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
offset( 48- 55) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
offset( 56- 63) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
offset( 64- 71) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
offset( 72- 79) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
offset( 80- 87) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
offset( 88- 95) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
offset( 96- 103) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
offset( 104- 111) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
offset( 112- 119) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
offset( 120- 127) 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00
c( 0- 7) 1.000 1.000 1.000 1.000 1.000 1.000 1.000 0.000
w( 0- 7) 0 0 0 0 0 0 0 0
w( 8- 15) 0 0 0 0 0 0 0 0
w( 16- 23) 0 0 0 0 0 0 0 0
w( 24- 31) 0 0 0 0 0 0 0 0
*** Entry init ends
plugin_loader: loaded /MIDAS_local/MIDASsort/Linux/lib64/great_fmt.so at 0x7fb5105de8cc
plugin_loader: loaded /MIDAS_local/MIDASsort/Linux/lib64/disc.so at 0x7fb5103a3dc7
Get_Block: Opened file -> /homes/npg/Downloads/R1_0.gz for read
008F 0000 0000 0001 FFFF 0A04 11AE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C0A0411AE ch: 2127
008F 0000 0000 0001 FFFF 0A9C 875E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C0A9C875E ch: 2127
008F 0000 0000 0001 FFFF 0D96 D496
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C0D96D496 ch: 2127
008F 0000 0000 0001 FFFF 0E2F 4A46
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C0E2F4A46 ch: 2127
008F 0000 0000 0001 FFFF 0F60 366E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C0F60366E ch: 2127
008F 0000 0000 0001 FFFF 0091 2296
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C10912296 ch: 2127
008F 0000 0000 0001 FFFF 01C2 0EBE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C11C20EBE ch: 2127
008F 0000 0000 0001 FFFF 025A 8536
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C125A8536 ch: 2127
008F 0000 0000 0001 FFFF 02F2 FBAE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C12F2FBAE ch: 2127
008F 0000 0000 0001 FFFF 084F 25E6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C184F25E6 ch: 2127
008F 0000 0000 0001 FFFF 0980 139E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C1980139E ch: 2127
008F 0000 0000 0001 FFFF 0AB1 0156
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C1AB10156 ch: 2127
008F 0000 0000 0001 FFFF 0EDC 4416
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C1EDC4416 ch: 2127
008F 0000 0000 0001 FFFF 0F74 BB56
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C1F74BB56 ch: 2127
008F 0000 0000 0001 FFFF 00A5 AA9E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C20A5AA9E ch: 2127
008F 0000 0000 0001 FFFF 01D6 99E6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C21D699E6 ch: 2127
008F 0000 0000 0001 FFFF 0307 892E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C2307892E ch: 2127
008F 0000 0000 0001 FFFF 0438 7876
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C24387876 ch: 2127
008F 0000 0000 0001 FFFF 0569 67BE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C256967BE ch: 2127
008F 0000 0000 0001 FFFF 069A 5706
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C269A5706 ch: 2127
008F 0000 0000 0001 FFFF 0732 CF0E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C2732CF0E ch: 2127
008F 0000 0000 0001 FFFF 0863 BE56
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C2863BE56 ch: 2127
008F 0000 0000 0001 FFFF 08FC 365E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C28FC365E ch: 2127
008F 0000 0000 0001 FFFF 0B5E 15B6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C2B5E15B6 ch: 2127
008F 0000 0000 0001 FFFF 0C8F 05C6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C2C8F05C6 ch: 2127
008F 0000 0000 0001 FFFF 0D27 7DCE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C2D277DCE ch: 2127
008F 0000 0000 0001 FFFF 0DBF F5D6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C2DBFF5D6 ch: 2127
008F 0000 0000 0001 FFFF 0E58 6DDE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C2E586DDE ch: 2127
008F 0000 0000 0001 FFFF 0EF0 E5E6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C2EF0E5E6 ch: 2127
008F 0000 0000 0001 FFFF 0F89 5DEE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C2F895DEE ch: 2127
008F 0000 0000 0001 FFFF 0021 D5F6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C3021D5F6 ch: 2127
008F 0000 0000 0001 FFFF 00BA 4DFE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C30BA4DFE ch: 2127
008F 0000 0000 0001 FFFF 0152 C606
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C3152C606 ch: 2127
008F 0000 0000 0001 FFFF 01EB 3E0E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C31EB3E0E ch: 2127
008F 0000 0000 0001 FFFF 0616 857E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C3616857E ch: 2127
008F 0000 0000 0001 FFFF 06AE FD86
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C36AEFD86 ch: 2127
008F 0000 0000 0001 FFFF 0747 758E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C3747758E ch: 2127
008F 0000 0000 0001 FFFF 09A9 54E6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C39A954E6 ch: 2127
008F 0000 0000 0001 FFFF 0A41 CCEE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C3A41CCEE ch: 2127
008F 0000 0000 0001 FFFF 0B72 BC36
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C3B72BC36 ch: 2127
008F 0000 0000 0001 FFFF 0D3C 2386
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C3D3C2386 ch: 2127
008F 0000 0000 0001 FFFF 0E6D 12CE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C3E6D12CE ch: 2127
008F 0000 0000 0001 FFFF 0F9E 0216
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C3F9E0216 ch: 2127
008F 0000 0000 0001 FFFF 00CE F15E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C40CEF15E ch: 2127
008F 0000 0000 0001 FFFF 0298 57E6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C429857E6 ch: 2127
008F 0000 0000 0001 FFFF 0330 CF26
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C4330CF26 ch: 2127
008F 0000 0000 0001 FFFF 04FA 35AE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C44FA35AE ch: 2127
008F 0000 0000 0001 FFFF 062B 242E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C462B242E ch: 2127
008F 0000 0000 0001 FFFF 06C3 9B6E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C46C39B6E ch: 2127
008F 0000 0000 0001 FFFF 09BD EEE6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C49BDEEE6 ch: 2127
008F 0000 0000 0001 FFFF 0A56 6626
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C4A566626 ch: 2127
008F 0000 0000 0001 FFFF 0B87 53DE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C4B8753DE ch: 2127
008F 0000 0000 0001 FFFF 0C1F CB1E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C4C1FCB1E ch: 2127
008F 0000 0000 0001 FFFF 0D50 B8D6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C4D50B8D6 ch: 2127
008F 0000 0000 0001 FFFF 0E81 A68E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C4E81A68E ch: 2127
008F 0000 0000 0001 FFFF 0F1A 1D06
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C4F1A1D06 ch: 2127
008F 0000 0000 0001 FFFF 004B 0ABE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C504B0ABE ch: 2127
008F 0000 0000 0001 FFFF 00E3 8136
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C50E38136 ch: 2127
008F 0000 0000 0001 FFFF 017B F7AE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C517BF7AE ch: 2127
008F 0000 0000 0001 FFFF 050E BE7E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C550EBE7E ch: 2127
008F 0000 0000 0001 FFFF 05A7 34F6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C55A734F6 ch: 2127
008F 0000 0000 0001 FFFF 06D8 211E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C56D8211E ch: 2127
008F 0000 0000 0001 FFFF 0770 9796
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C57709796 ch: 2127
008F 0000 0000 0001 FFFF 0939 F96E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C5939F96E ch: 2127
008F 0000 0000 0001 FFFF 0B03 5B46
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C5B035B46 ch: 2127
008F 0000 0000 0001 FFFF 0B9B D0F6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C5B9BD0F6 ch: 2127
008F 0000 0000 0001 FFFF 0C34 46A6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C5C3446A6 ch: 2127
008F 0000 0000 0001 FFFF 0CCC BC56
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C5CCCBC56 ch: 2127
008F 0000 0000 0001 FFFF 0D65 3206
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C5D653206 ch: 2127
008F 0000 0000 0001 FFFF 0DFD A7B6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C5DFDA7B6 ch: 2127
008F 0000 0000 0001 FFFF 005F 7DAE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C605F7DAE ch: 2127
008F 0000 0000 0001 FFFF 0190 6846
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C61906846 ch: 2127
008F 0000 0000 0001 FFFF 0228 DD2E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C6228DD2E ch: 2127
008F 0000 0000 0001 FFFF 0523 267E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C6523267E ch: 2127
008F 0000 0000 0001 FFFF 05BB 9B66
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C65BB9B66 ch: 2127
008F 0000 0000 0001 FFFF 081D 6E3E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C681D6E3E ch: 2127
008F 0000 0000 0001 FFFF 08B5 E326
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C68B5E326 ch: 2127
008F 0000 0000 0001 FFFF 094E 580E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C694E580E ch: 2127
008F 0000 0000 0001 FFFF 0A7F 4116
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C6A7F4116 ch: 2127
008F 0000 0000 0001 FFFF 0BB0 2A1E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C6BB02A1E ch: 2127
008F 0000 0000 0001 FFFF 0D79 8746
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C6D798746 ch: 2127
008F 0000 0000 0001 FFFF 0E11 FB66
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C6E11FB66 ch: 2127
008F 0000 0000 0001 FFFF 0EAA 6F86
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C6EAA6F86 ch: 2127
008F 0000 0000 0001 FFFF 036E 1086
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C736E1086 ch: 2127
008F 0000 0000 0001 FFFF 0537 6C1E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C75376C1E ch: 2127
008F 0000 0000 0001 FFFF 05CF E03E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C75CFE03E ch: 2127
008F 0000 0000 0001 FFFF 0700 C7B6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C7700C7B6 ch: 2127
008F 0000 0000 0001 FFFF 08CA 234E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C78CA234E ch: 2127
008F 0000 0000 0001 FFFF 09FB 0AC6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C79FB0AC6 ch: 2127
008F 0000 0000 0001 FFFF 0B2B F23E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C7B2BF23E ch: 2127
008F 0000 0000 0001 FFFF 0C5C D9B6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C7C5CD9B6 ch: 2127
008F 0000 0000 0001 FFFF 0D8D C12E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C7D8DC12E ch: 2127
008F 0000 0000 0001 FFFF 0EBE A8A6
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C7EBEA8A6 ch: 2127
008F 0000 0000 0001 FFFF 0FEF 901E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C7FEF901E ch: 2127
008F 0000 0000 0001 FFFF 0120 7796
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C81207796 ch: 2127
008F 0000 0000 0001 FFFF 02E9 D32E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C82E9D32E ch: 2127
008F 0000 0000 0001 FFFF 0382 474E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C8382474E ch: 2127
008F 0000 0000 0001 FFFF 041A BB6E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C841ABB6E ch: 2127
008F 0000 0000 0001 FFFF 05E4 17CE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C85E417CE ch: 2127
008F 0000 0000 0001 FFFF 067C 8BEE
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C867C8BEE ch: 2127
008F 0000 0000 0001 FFFF 0715 000E
module: 2 channel: 15 range: 1 adc_data:FFFF ts:000C8715000E ch: 2127
*** items: 114240 events: 10590 count: 21180
*** time warp: 0 count2: 0
*** elapsed time: 9.76562500E-02 s items: 1169817.6 events: 108441.60 count: 216883.20
*** Entry finish
S O R T C O M P L E T E ..... Wed Feb 24 16:11:54 2016
*** items: 114240 events: 10590 count: 21180
*** time warp: 0 count2: 0
*** elapsed time: 9.76562500E-02 s items: 1169817.6 events: 108441.60 count: 216883.20
*** Entry finish
S O R T S T O P P E D ..... Wed Feb 24 16:11:54 2016 |