 Sun Sep 30 01:13:47 2018, OH, TD, Sunday 30 September 8x
|
09.10 DAQ continues OK - current file Sep18/R2_6
09.15 all system wide checks OK *except* nnaida7 fails ADC calibration
detector biased & leakage currents OK - see attachments 1 & 2
FEE64 temperatures OK - see attachment 3
good event statistics OK - see attachment 4
nnaida2 rate due to one hot channel
Merger OK - see attachment 5
TapeServer OK - see attachment 6
no errors or warnings shown by server terminal sessions
1.8.W - 20us FSR - see attachments 7 & 8
all spectra zeroed
16.05 temperature +24.2 deg C, RH 45.4%, d.p. +11.6deg C
Julabo FL11006 water level c. 75-80% (i.e. approx mid-way between middle and upper level indicators) |
|
Sat Sep 29 06:25:23 2018, OH, TD, Saturday 29 September 18x
|
14:25 Moved from 8x DSSD setup to 6x DSSD
Top two detectors removed.
Detector alignments in snout unchanged so can use the 6xDSSD mark from June 2018
Rev F adapter cards have been put in place for all backside FEEs
All adapter boards are now Rev E or F
All adapter boards have an additional ground cable from the screw on the copper block to the lemo ground
connection
Power on and detectors biased (Cabling changed to reflect new 1-6)
Leakage and bias ok - attachment 1
System wide checks all ok
FEE temperatures ok - attachment 2
DAQ Started
Stats are looking very good - attachment 3
Rates look ok (Lin and Log) - attachments 4 & 5
Front side waveforms look ok - attachment 6
Backside waveforms look ok - attachment 7
Pulser widths are showing double peaking. - attachments 8 & 9
we are not sure if this is down to the pulser or not
Expanded timescales of the waveform, 0, 10, 100 and 1000 cycles
Layout 7 - attachments 10 - 14
Layout 8 - attachments 15 - 18
15:24 Pulser turned off in prep for alpha run
Slow comp set to 0x64
15.42 DAQ start file Sep18/R2
Test and calibration using background alpha particles
ASIC settings 2018Jun22-11.28.18
*except* slow comparator 0xa -> 0x64
BNC PB-4 pulser OFF
Merger c. 30k items/s TapeServer 230kb/s |
|
Fri Sep 28 02:08:07 2018, OH, TD, Friday 28 September 6x
|
10:08 Normal system restart ok
System currently in 8DSSD configuration as was left in June 2018
Bias and leakage currents ok - attachment 1
Temp +24.0 deg C, H 46.8%, D.P +11.7 deg C
FEE Temperatures ok - attachment 2
System wide checks all ok (aida7 fails ADC)
DAQ Started with pulser test input
Statistics ok - attachment 3
Hit rate laout for first 30 FEEs (Note second ASIC in FEE29 still missing) - attachment 4
Waveforms for Layout 7 (Front side) ok - attachment 5
Waveforms for Layout 8 (Back side) good (nnaida 7 missing due to failed ADC check) - attachment 6 |
|
Wed Aug 22 11:38:11 2018, OH, TD, AIDA GSI Setup Noise Tests 13x
|
Currently seems to be a problem with the memory check in the system wide checks that produces the message shown
- attachment 1
DAQ is being run with the following options - attachment 2 and 3
The PSU Temperature readout in aida07 appears to not be working. Shows a permanent value of 160 degC - attachment 4
Water inlet and outlet feel cold so believe it is an artiface
aida07 also appears to quite often take longer to mount than the others. Often coming in 5 minutes later than them.
Only tested aida01 - aida04 for noise as we lacked the required HDMI type c cables to set up a full MACB branch
structure.
We appear to have considerable noise issues in the FEE modules with adapter boards on but no DSSD cables
connected but test input loop and pulsar connected.
The pulsar appears to be the circuit of doom for this noise. With all test input ports connected to a pulsar
chain each FEE is seeing in the region of 800k rate of good events with discriminator thresholds set to 255.
Removing the pulsar cable from the end FEE but leaving the chain in place reduces this to around 500k.
Grounding an adapter board to the copper cooling plate also further reduces this noise somewhat but still leaves
rates of around 300k.
If an adapter board is isolated from the chain so that it has nothing connected to it the rate drops to around
300-400 which is just the rate of the sync pulses.
For the following screenshots aida01 and aida02 are isolated adapter boards.
aida03 and aida04 are connected via lemo cables via the test input to other FEE modules in their chains.
Waveforms for the 4 FEEs - attachment 5-8
Full statistics for the 4 FEEs - attachment 9-12
Good events comparison - attachment 13
It appears we need to provide a low resistance path between the FEE cooling plates like we do in RIKEN.
Currently the measured resistance between FEE 6 and 10 is around 2 ohm.
Also we may need to isolate the pulsar signals themselves
A potential difference of 5mV was also measured between the chassis of the NIM modules and the cooling plates.
Resistance was 0ohm when the power was on. |
 Wed Aug 22 13:50:30 2018, OH, TD, Reply by PCS, AIDA GSI Setup Noise Tests
|
> Currently seems to be a problem with the memory check in the system wide checks that produces the message shown
> - attachment 1
>
> DAQ is being run with the following options - attachment 2 and 3
>
> The PSU Temperature readout in aida07 appears to not be working. Shows a permanent value of 160 degC - attachment 4
> Water inlet and outlet feel cold so believe it is an artiface
> aida07 also appears to quite often take longer to mount than the others. Often coming in 5 minutes later than them.
>
> Only tested aida01 - aida04 for noise as we lacked the required HDMI type c cables to set up a full MACB branch
> structure.
>
> We appear to have considerable noise issues in the FEE modules with adapter boards on but no DSSD cables
> connected but test input loop and pulsar connected.
> The pulsar appears to be the circuit of doom for this noise. With all test input ports connected to a pulsar
> chain each FEE is seeing in the region of 800k rate of good events with discriminator thresholds set to 255.
> Removing the pulsar cable from the end FEE but leaving the chain in place reduces this to around 500k.
>
> Grounding an adapter board to the copper cooling plate also further reduces this noise somewhat but still leaves
> rates of around 300k.
>
> If an adapter board is isolated from the chain so that it has nothing connected to it the rate drops to around
> 300-400 which is just the rate of the sync pulses.
>
> For the following screenshots aida01 and aida02 are isolated adapter boards.
> aida03 and aida04 are connected via lemo cables via the test input to other FEE modules in their chains.
> Waveforms for the 4 FEEs - attachment 5-8
> Full statistics for the 4 FEEs - attachment 9-12
> Good events comparison - attachment 13
>
> It appears we need to provide a low resistance path between the FEE cooling plates like we do in RIKEN.
> Currently the measured resistance between FEE 6 and 10 is around 2 ohm.
>
> Also we may need to isolate the pulsar signals themselves
>
> A potential difference of 5mV was also measured between the chassis of the NIM modules and the cooling plates.
> Resistance was 0ohm when the power was on.
Re:- Memory check problem..... the required log file is not at /MIDAS/XilinxLinux/...... The file is a log file placed
in the FEE64 root file system. The code will be altered in time to reflect the new location by using a local variable.
Re:- aida07. This module should be urgently removed and sent back to Daresbury for repair. This measurement could be
indicative of the worse problems with this module.
Re:- Earthing. Please could you add some photos of the installation. ( apologies if they are already here ;-) If I
recall it is worth adding a low resistance connection ( big copper braid ) from the NIM bin to the adaptor board earths. |
|
Tue Aug 21 12:29:44 2018, OH, TD, AIDA@DESPEC dhcpd.conf, dhcpd startup and log messages
|
Attachment 1 - DHCP configuration file /etc/dhcpd.conf
Attachment 2 - DHCP startup messages
Attachment 3 - FEE64 startup messages from /var/log/messages
Note
1) dhcpd service is not listed by services tool which we have usually used to restart dhcp following
changes to the configuration. Currently we restart dhcpd as follows
kill -SIGTERM <pid dhcpd>
/usr/local/sbin/dhcpd
2) significant delays (~6 and ~9 minutes) starting aida07 and aida05, otherwise appears to be normal startup |
|
Wed Aug 22 09:10:28 2018, OH, TD, AIDA@DESPEC dhcpd.conf, dhcpd startup and log messages
|
>
> Attachment 1 - DHCP configuration file /etc/dhcpd.conf
>
> Attachment 2 - DHCP startup messages
>
> Attachment 3 - FEE64 startup messages from /var/log/messages
>
> Note
>
> 1) dhcpd service is not listed by services tool which we have usually used to restart dhcp following
> changes to the configuration. Currently we restart dhcpd as follows
>
> kill -SIGTERM <pid dhcpd>
> /usr/local/sbin/dhcpd
>
> 2) significant delays (~6 and ~9 minutes) starting aida07 and aida05, otherwise appears to be normal startup
Regarding startup of 5 and 7. what is the report from the console log monitor? |
|
Tue Jul 3 02:24:45 2018, OH, Tuesday 3 July
|
10:23 Bias and leakage currents ok - attachment 1
Fee temperatures ok - attachment 2
System wide checks ok
14:07 Bias and leakage currents ok - attachment 3
FEE temperatures ok
System wide checks ok
Have been unable to recover ASIC 2 in nnaida29. Have checked removing the detector cabling and can still
not recover the ASIC
Also noise in DSSD1 and 2 is still high - attachment 4
However in DSSD3-8 it is very good
Humidity 44.7%, Temperature 25.5C, D.P +13C
15:57 FEE modules turned off via rly16
DSSD bias removed
AIDA has been put in a safe state. |
|
Mon Jul 2 02:36:41 2018, OH, Monday 2 July
|
10:35 Bias and leakage currents ok - attachment 1
FEE Temps ok - attachment 2
System wide checks all ok
|
|
Sun Jul 1 08:25:24 2018, OH, Inventory
|
Attached is an updated inventory of the cables and adapter boards we have in RIKEN. |
|
Sun Jul 1 02:26:50 2018, OH, Sunday 1st July
|
10:25 Bias and leakage currents ok - attachment 1
FEE Temperatures ok
System wide checks ok
Alpha run R9 stopped on file R9_74 |
|
Sat Jun 30 03:05:36 2018, OH, Saturday 30 June
|
11:05 Bias and leakage currents ok - attachment 1
FEE temperatures ok
System wide checks ok
Currently on file R9_74
Temperature 25.3C, Humidity 42.9%, D.P +12.1C
13:27 Bias and leakage currents ok - attachment 2
FEE Temperatures ok
System wide checks ok
Analysis of the pulser run R9_52 -> R9_74 has shown no major losses in terms of apparent broken bond wires.
The large gap in FEE64 29 can be explained by an ASIC dropping out: See https://elog.ph.ed.ac.uk/AIDA/730
Another odd trend appears in the channels relating to DSSD 8 on the x side. - attachment 5
The pattern shows one strip on one strip off for the first 32 strips.
nnaida18 is also the FEE which is running at a much higher rate during this run. - attachment 3
I'm not sure that I believe that these channels are actually relate to broken bond wires.
Here are the hit patterns for the 8 DSSD - attachment 4
Attached is also the x and y histograms for DSSD 8 which shows a weird pattern - attachment 5 |
|
Fri Jun 29 02:26:34 2018, OH, Friday 29 June
|
10:27 Bias and leakage currents ok - attachment 1
Fee temperatures ok - attachment 2
Temperature 24.7C, Humdidity 44.5%, D.P +11.8C
System wide checks all ok
Currently on file R9_69
Vandle guys are about to start building. They have been made aware to avoid the power cables for the
chiller and AIDA
Also of the network cables and HDMI cables.
14:46 Bias and leakage currents ok - attachment 3
System wide checks all ok
FEE temperatures all ok
Currently on R9_70
19:55 Bias and leakage currents ok - attachment 4
Fee temperatures ok
System wide checks ok
|
|
Thu Jun 28 05:22:31 2018, OH, Analysis of R7 -> R9
|
R7_0 -> R7_1 High Energy pulser run
R8_0 -> R8_1 Low energy puler run
R9_52 -> R9_62 Alpha run
On analysing all three runs it appears an ASIC is missing in FEE 29 - attachments 1 - 3
This ASIC does not appear to be missing in the alpha run carried out on June 24th - attachment 4
I do not believe that this is a broken ASIC.
I have performed an ASIC check load on the FEE module to try and regain it. I will check the files created since
later to see if it has been regained.
Using the pulser runs two different sets of offsets were calculated. One using the low energy run and one using
the high energy.
To compare the two different sets of offsets calculated Ex vs Ey plots were created for the first detector.
Attachment 5 shows these plots on the left is the low energy offsets and on the right the high energy pulser offsets
It can be seen that the grouping is much better with the events being tighter to the y = x line on the run sorted
using the low energy pulser offsets. |
|
Thu Jun 28 02:19:30 2018, OH, Thursday 28th June
|
10:18 Bias and leakage currents ok - attachment 1
FEE Temperatures ok
System wide checks all ok
Currently on file R9_63
Humidity 43.3%, Temperature 25.1C, Dew Point +11.8C
Filler level ok
12:51 Bias and leakage currents ok - attachment 2
FEE Temperatures ok
System wide checks all ok
Currently on file R9_64
19:20 Bias and leakage currents - attachment 3
FEE temperatures ok
System wide checks all ok
Currently on file R9_65
ASIC 2 is still missing from FEE29. ASIC checks earlier in the afternoon have failed to recover it. -
attachment 4
This ASIC has been observed to be working since it was installed last week. Once the alpha run is over
further attempts
will be made to test it is back. |
|
Wed Jun 27 02:23:03 2018, OH, Wednesday 26 June
|
10:20 Bias and leakage currents ok - attachment 1
FEE temperatures ok
System wide checks all ok
Currently on file R9_58
15:25 Bias and leakage currents ok - attachment 2
FEE temperatures ok - attachment 3
System wide checks ok
Currently on file R9_59 |
|
Tue Jun 26 05:44:44 2018, OH, Tuesday 26 June
|
04:12 TD found the nnaida14 appeared to have become noisy at some point. Biases/;eakages/temps ok
ASIC check load appears to have fixed problem
Noise appears to affect R9_0 to R9_51
13:45 Biases and leakages all ok - attachment 1
FEE temperatures ok
System wide checks ok
T = 25.1C H = 35.7% DP 8.4C
Currently up to file R9_54
21:53 Biases and leakages all ok - attachment 2
FEE Temps ok
System wide checks ok
Currently up to file R9_56 |
|
Mon Jun 25 01:56:08 2018, OH, TD, Monday 25th June 21x
|
09:55 Alpha run stopped
10:45 Investigating the large noise in FEE28
First test was swapping the PSU positions of 29 and 30 - attachment 1
PSU order 25, 26, 27 ,28, 30, 29, 31, 32
Little affect on the statistics. 30 remains low and 29 is still high
11:15 System back in normal configuration with 29 and 30 going to original psu units
PSU order 25, 26, 27 ,28, 29, 30, 31, 32
System does seem worse off in this order - attachment 2
11:29 Bias cables core and braid switched between detectors 1 and 2
No noticeable difference - attachment 3
11:44 Switched around cables running to FEE so DSSD1 was running to 29 and DSSD2 to 30
Noise moved with cable. Though DSSD1 seems worse in 29 than it did in 30. - attachment 4
12:00 Cables moved back in normal operation. Stats returned to as they were at 11:15 - attachment 5
13:28 Changed kapton for a new one. No change to stats - attachment 6
13:55 Wiggled rain wire (Technical term) Tripped DSSD 2 bias. Ramped up bias. Noise gone. Mystery not solved. -
attachment 7
14.09 DAQ start
AIDA file June18/R7
ASIC settings DB key 2018Jun22-11.28.18
*all* slow comparators 0xa
Pulser walkthrough
BNC PB-4
Amplitude 90,000-10,000 @ 10,000 step
x5 attenuator IN
t_r 100ns tau_d 50us
- polarity
frequency range 250Hz
delay MIN, tail pulse, INT ref
14.18 DAQ stop
See attachment 8 & 9
14.19 DAQ start
AIDA file June18/R8
Pulser walkthrough
BNC PB-4
Amplitude 12,000-2,000 @ 2,000 step
x5 attenuator IN
t_r 100ns tau_d 50us
- polarity
frequency range 250Hz
delay MIN, tail pulse, INT ref
14.28 DAQ stop
See attachment 10 & 11
DAQ statistics OK - see attachment 12
7x FEE64s <10k
13x FEE64s 10-20k
3x FEE64s 20-30k
3x FEE64s 30-40k
2x FEE64s 40-50k
4x FEE64 >50k (nnaida28, 29, 31 & 32)
*all* system wide checks OK *except* nnaida7 & 21 fail ADC calibration
FEE64 temperatures OK - see attachment 13
DSSSD biases and leakage currents OK - see attachments 14 & 15
14.43 DAQ start
AIDA file June18/R9
ASIC settings DB key 2018Jun22-11.28.18
*all* slow comparators 0x64
alpha background
BNC PB-4 OFF
18.30 Julabo FL11006 recirculating chiller - water refill - 75%
per FEE64 1.8.W spectra - range 2ms - see attachments 16 & 17
per FEE64 1.8.W spectra - range 200us - see attachments 18 & 19
per FEE64 1.8.W spectra - range 20us - see attachments 20 & 21 |
|
Sun Jun 24 09:08:03 2018, 3OH, TD, June 2018 New Stack Configuration
|
Stack has been changed in configuration from a 6 DSSD stack to 8 DSSD stack.
What was detectors 1-6 are now 3-8 with 2 new detectors added to the front.
The stack order is now:
DSSD 1 3058-25 Top
DSSD 2 3058-2
DSSD 3 3058-4
DSSD 4 3058-3
DSSD 5 2998-23
DSSD 6 3058-5
DSSD 7 3058-6
DSSD 8 3058-7 Bottom
To handle the new detectors an additional 4 FEE modules 8 FEE64 were installed in the system with MAC addresses:
FEE 25 - 2B 09 E7
FEE 26 - 2B 22 55
FEE 27 - 2A F6 D4
FEE 28 - 2A ED 8F
FEE 29 - 2A D0 1A
FEE 30 - 2B 33 0C
FEE 31 - 2A B6 45
FEE 32 - 2A B2 B2
FEE Mapping is now:
FEE Number
DSSD A B C D
1 25 28 30 31
2 26 27 29 32
3 1 20 22 23
4 2 19 21 24
5 9 12 14 15
6 10 11 13 16
7 17 4 6 7
8 18 3 5 8
All 4 new p side cables were made using 33" ribbon cables
The n side cables for detector 2 were made using 37" cables
The n side cables for detector 1 were made using 39" ribbon cables (37" was to short)
Non-isolated cables related to C connector on DSSD
The detectors were placed inside the snout with two reference lines for insertion.
The first labelled as June 18 6 stack will place the centre of the detector stack (Between detectors 5 and
6) in the centre of BRIKEN
when inserted up to this line.
Distance from edge of BRIKEN to centre is 37.5cm
The second mark is 1cm along from this and is labelled June 18 8 stack. This positions the centre of the
stack (Between detectors 4 and 5), what would be 3 and 4 if only 6 detectors)
in the centre of the BRIKEN array.
One thing to note is that with 8 detectors getting the snout on is a tight fit and can push down the rods
the detectors are held on. This was previously
a friction fit between the rods and the snout base. The rods had to be pulled out slightly to allow for the
extra length needed for 8 detectors.
To aid in the rods were not slipping grub nuts were moved to the bottom and locked in position. This may
not hold the strain of someone pushing the snout against them so caution
is still advised when putting this on.
When in the 8 stack configuration DSSD 1 is 4.5cm from the end of the snout. To support more detectors
longer rods would be needed though. |
|
Sun Jun 24 01:40:08 2018, OH, TD, Sunday 24 June 2018 15x
|
09.38 DAQ continues OK
DAQ stop June18/R5_8
Detector biases & leakage currents OK - see attachments 1 & 2
Ambient temperature +25.3 deg C, d.p. +9.4 deg C, RH 36.4%
FEE64 temperatures OK - see attachment 3
System-wide checks OK *except*
nnaida25 failed global clock check code 6
failed ADC calibration
Analysis June18/R5_8 - see attachment 4
10.00 *all* slow comparator thresholds 0x64 -> 0xa
BNC PB-4 pulser ON
per FEE64 1.8.W spectra - 20us & 200us range - see attachments 5-8
14:16 FEE Module nnaida25 & nnaida26 replaced
nnaida25 2b:09:da -> 2b:09;e7
nnaida26 2b:11:c5 -> 2b:22:55
System-wide checks OK *except*
nnaida21 failed global clock check code 6
failed ADC calibration
nnaida28 failed global clock check code 6
failed ADC calibration
511
Since replacing histograming has begun working for all FEE64s and rates across detectors seem lower
Waveforms of FEEs attachments 10 & 11
ADC Rates - attachment 12
Good event statistics - attachment 13
14.28 per FEE64 1.8.W spectra - 200us range - see attachments 14 & 15
17:06 Thresholds at 0x64 across all FEEs
Alpha run started R8 |
|
Sat Jun 23 02:44:36 2018, OH, TD, Saturday 23 June 2018 16x
|
DSSSD stack dismounted yesterday to change configuration from 6x to 8x DSSSDs.
10.15 Overnight, the LHS input fuse (FEE64s 1-16) of the USB-controlled ac mains relay failed.
New fuses installed - see Elog https://elog.ph.ed.ac.uk/AIDA/720
10.25 Successful power-up
System-wide checks OK *except*
nnaida25 failed global clock check code 6 - see attachment 1
failed ADC calibration
Histogramming enabled for all FEE64s
Following DAQ GO *and* before START ASIC Readout only FEE64s 1-24 *and* 25 remain enabled
10.55 *all* FEE64 temperatures OK - see attachment 2
11.00 Stop DAQ
Start MERGE and TapeServer
Configure MERGE for 32x FEE64s
Histogramming *and data transfer #1 enabled for all FEE64s
Following DAQ GO *and* before START ASIC Readout only FEE64s 1-24 *and* 25 remain histogram enabled, *all*
FEE64s enabled for data transfer #1 - see attachment 3
11.44 Observe low leakage current (as expected) with detector bias 100V - see attachments 4 & 5
HV#2 reads zero which may be be too low - to be checked with DSSSD
18.15 June18/R4
Histogramming not available nnaida26-32
Pulser data
ASIC settings 2018Jun22-11.28.18
*all* slow comparators 0xa
BNC PB-4 Pulser
Amplitude 90,000
x5 attenuator IN
t_r 100ns, tau_d 1ms
frequency c. 2Hz
polarity +
delay MIN, ref INT, tail pulse
detector biases & leakage currents OK - see attachments 6 & 7
ambient temperature +25.4 deg C, d.p. +10.1 deg C, RH 37.6%
FEE64 temperatures OK - see attachment 8
DAQ statistics - nnaida22, 25, 28, 29 & 30 high - see attachment 9
MERGE/Tapeserver - see attachments 10 & 11
18.28 DAQ stop (final file R4_4)
Analysis of R4_0 - note lots of HEC data for nnaida25
*** TDR format 3.3.0 analyser - TD - June 2017
*** ERROR: READ I/O error: 5002
blocks: 32000
ADC data format: 258702070 ( 1412508.5 Hz)
Other data format: 2377771 ( 12982.6 Hz)
Sample trace data format: 0 ( 0.0 Hz)
Undefined format: 0 ( 0.0 Hz)
Other data format type: PAUSE: 66 ( 0.4 Hz)
RESUME: 66 ( 0.4 Hz)
SYNC100: 2234733 ( 12201.6 Hz)
FEE64 disc: 142906 ( 780.3 Hz)
MBS info: 0 ( 0.0 Hz)
Other info: 0 ( 0.0 Hz)
ADC data range bit set: 4319574 ( 23584.8 Hz)
Timewarps: ADC: 0 ( 0.0 Hz)
PAUSE: 0 ( 0.0 Hz)
RESUME: 0 ( 0.0 Hz)
SYNC100: 0 ( 0.0 Hz)
FEE64 disc: 0 ( 0.0 Hz)
MBS info: 0 ( 0.0 Hz)
Undefined: 0 ( 0.0 Hz)
Sample trace: 0 ( 0.0 Hz)
*** Timestamp elapsed time: 183.151 s
FEE elapsed dead time(s) elapsed idle time(s)
1 0.000 0.000
2 0.000 0.000
3 0.000 0.000
4 0.000 0.000
5 0.000 0.000
6 0.000 0.000
7 0.000 0.000
8 0.000 0.000
9 0.000 0.000
10 0.000 0.000
11 0.000 0.000
12 0.000 0.000
13 0.000 0.000
14 0.016 0.000
15 0.000 0.000
16 0.000 0.000
17 0.000 0.000
18 0.000 0.000
19 0.000 0.000
20 0.000 0.000
21 0.000 0.000
22 0.245 0.000
23 0.022 0.000
24 0.000 0.000
25 0.738 0.771
26 0.000 0.000
27 0.028 0.000
28 0.023 0.000
29 0.000 0.000
30 0.186 0.194
31 0.364 0.000
32 0.246 0.000
*** Statistics
FEE ADC Data Other Data Sample Undefined Pause Resume SYNC100 Disc MBS Other
HEC Data
0 0 0 0 0 0 0 0 0 0 0
0
1 3222303 76527 0 0 0 0 69859 6668 0 0
569
2 2941948 76748 0 0 0 0 69857 6891 0 0
0
3 5670829 75859 0 0 0 0 69850 6009 0 0
0
4 2125453 74279 0 0 0 0 69858 4421 0 0
0
5 2136921 77632 0 0 0 0 69862 7770 0 0
0
6 2391640 73715 0 0 0 0 69858 3857 0 0
0
7 5890950 74230 0 0 1 1 69858 4370 0 0
4
8 3513119 75980 0 0 0 0 69864 6116 0 0
11
9 2263483 74984 0 0 0 0 69859 5125 0 0
0
10 2586263 77464 0 0 0 0 69857 7607 0 0
0
11 1010024 75142 0 0 0 0 69860 5282 0 0
0
12 1589585 74212 0 0 0 0 69857 4355 0 0
0
13 1683394 76604 0 0 0 0 69859 6745 0 0
0
14 6156870 74846 0 0 4 4 69856 4982 0 0
25
15 4365448 74530 0 0 0 0 69856 4674 0 0
0
16 4573069 75434 0 0 0 0 69864 5570 0 0
0
17 2440883 73800 0 0 0 0 69858 3942 0 0
5
18 3555638 78294 0 0 0 0 69853 8441 0 0
0
19 1011281 77659 0 0 0 0 69859 7800 0 0
0
20 1348970 74278 0 0 0 0 69856 4422 0 0
123
21 3718102 79600 0 0 0 0 69862 9738 0 0
0
22 31353026 76209 0 0 10 10 69765 6424 0 0
10
23 7467427 75889 0 0 3 3 69851 6032 0 0
15
24 5627550 75520 0 0 0 0 69855 5665 0 0
0
25 18997744 69607 0 0 13 13 69581 0 0 0
4318786
26 4444974 69852 0 0 0 0 69852 0 0 0
0
27 7927708 69857 0 0 3 3 69851 0 0 0
6
28 24389685 69867 0 0 9 9 69849 0 0 0
9
29 52059614 69858 0 0 0 0 69858 0 0 0
0
30 17131235 69796 0 0 4 4 69788 0 0 0
3
31 12650414 69742 0 0 11 11 69720 0 0 0
8
32 12456520 69757 0 0 8 8 69741 0 0 0
0
*** Timewarps
FEE ADC Pause Resume SYNC100 Disc MBS Undefined Samples
0 0 0 0 0 0 0 0 0
1 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0
*** MBS Timewarps
FEE
0 0
1 0
2 0
3 0
4 0
5 0
6 0
7 0
8 0
9 0
10 0
11 0
12 0
13 0
14 0
15 0
16 0
17 0
18 0
19 0
20 0
21 0
22 0
23 0
24 0
25 0
26 0
27 0
28 0
29 0
30 0
31 0
32 0
*** Program elapsed time: 21.492s ( 1488.913 blocks/s, 93.057 Mb/s)
19.10 June18/R5
Histogramming not available nnaida26-32
alpha background
ASIC settings 2018Jun22-11.28.18
*all* slow comparators 0x64
BNC PB-4 Pulser OFF |
|
Sat Jun 23 02:28:13 2018, TD, OH, New fuses fitted to USB-controlled ac mains relay
|
The input fuses of the USB-controlled ac mains relay have been changed from 2x 5x20mm 250V/16A to 2x 5x20mm
250V/20A cartridge, time-lag Littelfuse 0215020.MXP |