ID |
Date |
Author |
Project |
Subject |
Run Number |
Events |
StartTime |
EndTime |
18
|
Sat May 31 17:36:14 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) | run2718 | 100000 | 31.05.2008 16:21:57 | 31.05.2008 21:08:32 | SiLC beam test - CERN SPS June 2008
8 modules, HV=100V, 40MHz, 6 samples, hor stage :=+2 mm
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12 (now for real)
telescope: zero supressed, new firmware
- long break in the middle due to power outage after thunderstorm
horizontal position ("target") = +2.0mm - after we decided to scan the whole area in 3 steps
this is RIGHT position
all 3 positions are:
RIGHT: +2.00 mm <--- this run
MID: -2.75 mm
LEFT: -7.50 mm |
17
|
Sat May 31 17:32:35 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) | run2717 | 6490 | 31.05.2008 15:57:58 | 31.05.2008 16:09:21 | SiLC beam test - CERN SPS June 2008
8 modules, HV=100V, 40MHz, 6 samples
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12 (now for real)
telescope: zero supressed, new firmware
trigger is now correct (9 x 9 mm2 window)
horizontal position ("target") = 0.0mm |
16
|
Sat May 31 17:29:40 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) | run2716 | 20000 | 31.05.2008 14:59:26 | 31.05.2008 15:56:23 | SiLC beam test - CERN SPS June 2008
8 modules, HV=100V, 40MHz, 6 samples
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: zero supressed, new firmware
in fact, trigger was set to coincidence of ALL FOUR scintillators, hence only (less than) 4 x 4 mm2 window !!!
horizontal position ("target") = 0.0mm |
14
|
Fri May 30 19:42:13 2008 |
stephan hänsel | SiLC | APVDAQ only | run0001 | 51803 | 30.05.2008 19:38:04 | 30.05.2008 22:54:59 | SiLC beam test - CERN SPS June 2008
8 modules, HV=100V, 40MHz, 6 samples
trigger: 9 mm opening, TLUControl.exe -d 2 -a 12
no telescope
terminated after 51803 events due to beam drop out @ 22.00h |
57
|
Tue Jun 3 11:03:27 2008 |
Thomas Bergauer | | telescope alignment run | run2830 | 3897 | 2008-06-03 10:52:16.783 | 2008-06-03 10:58:52.790 | telescope run with reduced beam intensity (BEND4=-600A instead of -620A and BEND7=-605A instead of -615A) |
27
|
Sun Jun 1 15:52:03 2008 |
Eudet Telescope | SiLC | Telescope Pedestal Run | run2738 | 1247 | 1.6.2008. 15:50 | 1.6.2008. 15:58 | Telescope Pedestal Run
no DUTs!
no Beam!
Config File: test5boards.conf |
66
|
Tue Jun 3 18:17:47 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) | run2838 | 478159 | 03.06.2008 18:38:07 | 04.06.2008 10:41:51 | SiLC beam test - CERN SPS June 2008
HV=100V, xy "telescope"
8 modules, 40MHz, 6 samples, position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
this is a run where modules 0,2,4,6 are in normal position, while modules 1,3,5,7 are rotated by 90 deg
(counterclockwise as seen by the beam) and flipped (back<->forth) in order to achieve the minimum spacing
(~10.3mm) between "corresponding" x and y planes. |
65
|
Tue Jun 3 16:53:20 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** angle-scan *** | run2837 | 20000 | 03.06.2008 16:49:40 | 03.06.2008 17:26:49 | SiLC beam test - CERN SPS June 2008
Angle scan, HV=100V, alpha = 0 degrees
8 modules, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
Angle scan with pattern mask |
64
|
Tue Jun 3 16:14:26 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** angle-scan *** | run2836 | 10000 | 03.06.2008 16:13:18 | 03.06.2008 16:33:20 | SiLC beam test - CERN SPS June 2008
Angle scan, HV=100V, alpha = 60 degrees
8 modules, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
Angle scan with pattern mask
Please note that there are 8 modules read out in this run, but the last one (#7) is placed outside the beam and
hence does not provide any meaningful data. |
63
|
Tue Jun 3 15:39:57 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** angle-scan *** | run2835 | 10000 | 03.06.2008 15:36:47 | 03.06.2008 15:55:34 | SiLC beam test - CERN SPS June 2008
Angle scan, HV=100V, alpha = 50 degrees
8 modules, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
Angle scan with pattern mask |
62
|
Tue Jun 3 14:59:14 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** angle-scan *** | run2834 | 10000 | 03.06.2008 14:56:32 | 03.06.2008 15:15:37 | SiLC beam test - CERN SPS June 2008
Angle scan, HV=100V, alpha = 40 degrees
8 modules, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
Angle scan with pattern mask |
61
|
Tue Jun 3 14:12:02 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** angle-scan *** | run2833 | 10000 | 03.06.2008 14:10:40 | 03.06.2008 14:29:26 | SiLC beam test - CERN SPS June 2008
Angle scan, HV=100V, alpha = 30 degrees
8 modules, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
Angle scan with pattern mask |
60
|
Tue Jun 3 13:28:15 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** angle-scan *** | run2832 | 10000 | 03.06.2008 13:24:07 | 03.06.2008 13:53:18 | SiLC beam test - CERN SPS June 2008
Angle scan, HV=100V, alpha = 20 degrees
8 modules, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
Angle scan with pattern mask |
58
|
Tue Jun 3 12:32:51 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** angle-scan *** | run2831 | 10000 | 03.06.2008 12:31:42 | 03.06.2008 13:19:36 | SiLC beam test - CERN SPS June 2008
Angle scan, HV=100V, alpha = 10 degrees
8 modules, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
Angle scan with pattern mask |
56
|
Tue Jun 3 10:58:54 2008 |
Markus Friedl | BELLE | APVDAQ only | ped007 | 10000 | 03.06.2008 10:53:04 | 03.06.2008 10:58:47 | SiLC beam test - CERN SPS June 2008
4 Belle modules, 40MHz, HV=80V, 6 samples
beam on (lower intensity) |
55
|
Tue Jun 3 09:57:17 2008 |
Markus Friedl | BELLE | APVDAQ only | run0007 | 105000 | 03.06.2008 09:40:18 | 03.06.2008 10:12:48 | SiLC beam test - CERN SPS June 2008 - HIT MODE
4 Belle modules, 40MHz, HV=80V, 6 samples
trigger: 9 mm opening, TLUControl.exe -d 2 -a 12
no telescope
Flex_Module has only 1 working APV - control bonds suffered during transportation
Position is approximately similar to KEK Nov 2007, however it appears like JP_module is flipped (up-down) w.r.t.
to other modules
RETRY after software bugfix - apparently works |
54
|
Tue Jun 3 09:27:27 2008 |
Markus Friedl | BELLE | APVDAQ only | run0006 | 23929 | 03.06.2008 09:26:16 | 03.06.2008 09:34:22 | SiLC beam test - CERN SPS June 2008 - HIT MODE
4 Belle modules, 40MHz, HV=80V, 6 samples
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
Flex_Module has only 1 working APV - control bonds suffered during transportation
Position is approximately similar to KEK Nov 2007, however it appears like JP_module is flipped (up-down) w.r.t.
to other modules
RETRY
STUCK again after some time - now adding veto clear in error handling routine |
53
|
Tue Jun 3 09:12:42 2008 |
Markus Friedl | BELLE | APVDAQ only | run0005 | 45020 | 03.06.2008 09:11:30 | 03.06.2008 09:24:42 | SiLC beam test - CERN SPS June 2008 - HIT MODE
4 Belle modules, 40MHz, HV=80V, 6 samples
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
Flex_Module has only 1 working APV - control bonds suffered during transportation
Position is approximately similar to KEK Nov 2007, however it appears like JP_module is flipped (up-down) w.r.t.
to other modules
SAME AS PREVIOUS, BUT 0-SUP WITHOUT TELESCOPE
stuck after 45020 events with the repeated message
***WARNING*** FIFO3 empty, FADC 0. Event discarded, reset sent.
to be investigated. |
52
|
Tue Jun 3 02:38:21 2008 |
Markus Friedl | BELLE | APVDAQ + telescope (0-sup) | run2829 | 105000 | 03.06.2008 02:29:51 | 03.06.2008 09:08:58 | SiLC beam test - CERN SPS June 2008
4 Belle modules, 40MHz, HV=80V, 6 samples
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
Flex_Module has only 1 working APV - control bonds suffered during transportation
Position is approximately similar to KEK Nov 2007, however it appears like JP_module is flipped (up-down) w.r.t.
to other modules |
50
|
Tue Jun 3 00:20:06 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** HV-scan *** | run2828 | 10000 | 02.06.2008 23:55:06 | 03.06.2008 00:18:56 | SiLC beam test - CERN SPS June 2008
HV scan, HV=200V
8 modules, modules rearranged, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
HV scan after re-arranging the modules:
JURA
| | |
| | | | |
beam ---->| | | | | | | |
| | | | |
| | |
0 1 2 3 4 5 6 7
SALEVE |
49
|
Mon Jun 2 23:34:29 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** HV-scan *** | run2827 | 10000 | 02.06.2008 23:33:40 | 02.06.2008 23:52:04 | SiLC beam test - CERN SPS June 2008
HV scan, HV=150V
8 modules, modules rearranged, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
HV scan after re-arranging the modules:
JURA
| | |
| | | | |
beam ---->| | | | | | | |
| | | | |
| | |
0 1 2 3 4 5 6 7
SALEVE |
48
|
Mon Jun 2 23:14:58 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** HV-scan *** | run2826 | 10000 | 02.06.2008 23:14:19 | 02.06.2008 23:31:29 | SiLC beam test - CERN SPS June 2008
HV scan, HV=120V
8 modules, modules rearranged, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
HV scan after re-arranging the modules:
JURA
| | |
| | | | |
beam ---->| | | | | | | |
| | | | |
| | |
0 1 2 3 4 5 6 7
SALEVE |
47
|
Mon Jun 2 22:55:49 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** HV-scan *** | run2825 | 10000 | 02.06.2008 22:55:03 | 02.06.2008 23:12:09 | SiLC beam test - CERN SPS June 2008
HV scan, HV=90V
8 modules, modules rearranged, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
HV scan after re-arranging the modules:
JURA
| | |
| | | | |
beam ---->| | | | | | | |
| | | | |
| | |
0 1 2 3 4 5 6 7
SALEVE |
46
|
Mon Jun 2 22:37:13 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** HV-scan *** | run2824 | 10000 | 02.06.2008 22:36:37 | 02.06.2008 22:53:15 | SiLC beam test - CERN SPS June 2008
HV scan, HV=80V
8 modules, modules rearranged, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
HV scan after re-arranging the modules:
JURA
| | |
| | | | |
beam ---->| | | | | | | |
| | | | |
| | |
0 1 2 3 4 5 6 7
SALEVE |
45
|
Mon Jun 2 22:13:17 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** HV-scan *** | run2823 | 10000 | 02.06.2008 22:12:44 | 02.06.2008 22:34:49 | SiLC beam test - CERN SPS June 2008
HV scan, HV=70V
8 modules, modules rearranged, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
HV scan after re-arranging the modules:
JURA
| | |
| | | | |
beam ---->| | | | | | | |
| | | | |
| | |
0 1 2 3 4 5 6 7
SALEVE |
44
|
Mon Jun 2 21:54:34 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** HV-scan *** | run2822 | 10000 | 02.06.2008 21:53:37 | 02.06.2008 22:10:53 | SiLC beam test - CERN SPS June 2008
HV scan, HV=60V
8 modules, modules rearranged, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
HV scan after re-arranging the modules:
JURA
| | |
| | | | |
beam ---->| | | | | | | |
| | | | |
| | |
0 1 2 3 4 5 6 7
SALEVE |
43
|
Mon Jun 2 21:37:10 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** HV-scan *** | run2821 | 10000 | 02.06.2008 21:32:57 | 02.06.2008 21:51:55 | SiLC beam test - CERN SPS June 2008
HV scan, HV=50V
8 modules, modules rearranged, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
re-try after several hours of beam down
HV scan after re-arranging the modules:
JURA
| | |
| | | | |
beam ---->| | | | | | | |
| | | | |
| | |
0 1 2 3 4 5 6 7
SALEVE |
42
|
Mon Jun 2 16:01:10 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** HV-scan *** | run2792 | 4536 | 02.06.2008 16:00:09 | 02.06.2008 16:19:42 | SiLC beam test - CERN SPS June 2008
HV scan, HV=50V
8 modules, modules rearranged, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
stopped after beam problem
HV scan after re-arranging the modules:
JURA
| | |
| | | | |
beam ---->| | | | | | | |
| | | | |
| | |
0 1 2 3 4 5 6 7
SALEVE |
41
|
Mon Jun 2 15:41:20 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** HV-scan *** | run2791 | 10000 | 02.06.2008 15:40:20 | 02.06.2008 15:58:16 | SiLC beam test - CERN SPS June 2008
HV scan, HV=40V
8 modules, modules rearranged, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
HV scan after re-arranging the modules:
JURA
| | |
| | | | |
beam ---->| | | | | | | |
| | | | |
| | |
0 1 2 3 4 5 6 7
SALEVE |
40
|
Mon Jun 2 15:21:53 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** HV-scan *** | run2790 | 10000 | 02.06.2008 15:20:44 | 02.06.2008 15:38:04 | SiLC beam test - CERN SPS June 2008
HV scan, HV=30V
8 modules, modules rearranged, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
HV scan after re-arranging the modules:
JURA
| | |
| | | | |
beam ---->| | | | | | | |
| | | | |
| | |
0 1 2 3 4 5 6 7
SALEVE |
38
|
Mon Jun 2 14:55:38 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** HV-scan *** | run2789 | 10000 | 02.06.2008 14:54:33 | 02.06.2008 15:19:12 | SiLC beam test - CERN SPS June 2008
HV scan, HV=20V
8 modules, modules rearranged, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
HV scan after re-arranging the modules:
JURA
| | |
| | | | |
beam ---->| | | | | | | |
| | | | |
| | |
0 1 2 3 4 5 6 7
SALEVE |
37
|
Mon Jun 2 14:32:40 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** HV-scan *** | run2788 | 10000 | 02.06.2008 14:31:15 | 02.06.2008 14:51:55 | SiLC beam test - CERN SPS June 2008
HV scan, HV=10V
8 modules, modules rearranged, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: 0sup., new firmware
HV scan after re-arranging the modules:
JURA
| | |
| | | | |
beam ---->| | | | | | | |
| | | | |
| | |
0 1 2 3 4 5 6 7
SALEVE |
36
|
Mon Jun 2 13:19:10 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) *** HV-scan *** | run2787 | 30000 | 02.06.2008 13:15:04 | 02.06.2008 14:27:57 | SiLC beam test - CERN SPS June 2008
HV scan, HV=100V
8 modules, modules rearranged, 40MHz, 6 samples, hor position centered
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
Reference run with nominal HV after re-arranging the modules:
JURA
| | |
| | | | |
beam ---->| | | | | | | |
| | | | |
| | |
0 1 2 3 4 5 6 7
SALEVE |
35
|
Sun Jun 1 23:46:33 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (raw) | run2758 - run2783 | 34873 | 01.06.2008 23:44:57 | 02.06.2008 10:08:46 | SiLC beam test - CERN SPS June 2008
8 modules, HV=100V, 40MHz, 6 samples, hor stage :=+2.0 mm
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: raw, new firmware
last raw run in RIGHT position |
28
|
Sun Jun 1 16:06:42 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (raw) | run2741 - run2757 | 22000 | 01.06.2008 16:02:56 | 01.06.2008 22:02:34 | SiLC beam test - CERN SPS June 2008
8 modules, HV=100V, 40MHz, 6 samples, hor stage :=-2.75 mm
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: raw, new firmware
right from the start: no beam... |
22
|
Sun Jun 1 08:06:57 2008 |
stephan hänsel | SiLC | APVDAQ + telescope (raw) | run2721-2737 | 22000 | 01.06.2008 - 08:01:53 | 01.06.2008 - 14:19:13 | SiLC beam test - CERN SPS June 2008
8 modules, HV=100V, 40MHz, 6 samples, hor stage :=-7.5 mm
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: raw, new firmware
horizontal position ("target") = -7.5mm
this is LEFT position |
33
|
Sun Jun 1 23:23:16 2008 |
Markus Friedl | SiLC | APVDAQ only (0-sup) | run0004 | 100000 | 01.06.2008 23:21:12 | 01.06.2008 23:41:09 | SiLC beam test - CERN SPS June 2008 - HIT MODE
8 modules, HV=100V, 40MHz, 6 samples, hor stage :=+2 mm
trigger: 9 mm opening, TLUControl.exe -d 2 -a 12 (manually)
no telescope
This is RIGHT position
APVDAQ runs in HIT MODE (=0-suppressed)
acquisition rate ~430 Hz during spill (TLU says ~86 Hz) |
32
|
Sun Jun 1 23:20:10 2008 |
Markus Friedl | SiLC | APVDAQ only | ped004 | 10000 | 01.06.2008 23:16:52 | 01.06.2008 23:19:59 | SiLC beam test - CERN SPS June 2008 - PEDESTAL with beam
8 modules, HV=100V, 40MHz, 6 samples, hor stage :=+2 mm
software trigger
no telescope
this is RIGHT position |
26
|
Sun Jun 1 15:08:17 2008 |
Markus Friedl | SiLC | APVDAQ only (0-sup) | run0003 | 100000 | 01.06.2008 15:05:51 | 01.06.2008 15:33:58 | SiLC beam test - CERN SPS June 2008 - HIT MODE
8 modules, HV=100V, 40MHz, 6 samples, hor stage :=-2.75 mm
trigger: 9 mm opening, TLUControl.exe -d 2 -a 12 (manually)
no telescope
This is MID position
APVDAQ runs in HIT MODE (=0-suppressed)
acquisition rate ~300 Hz during spill |
25
|
Sun Jun 1 15:02:51 2008 |
Markus Friedl | SiLC | APVDAQ only | ped003 | 10000 | 01.06.2008 15:00:54 | 01.06.2008 15:04:14 | SiLC beam test - CERN SPS June 2008 - PEDESTAL with beam
8 modules, HV=100V, 40MHz, 6 samples, hor stage :=-2.75 mm
software trigger
no telescope
PEDESTAL WITH BEAM (10k) @ MID |
24
|
Sun Jun 1 14:58:53 2008 |
Markus Friedl | SiLC | APVDAQ only | ped002 | 10000 | 01.06.2008 14:55:31 | 01.06.2008 14:59:06 | SiLC beam test - CERN SPS June 2008 - PEDESTAL
8 modules, HV=100V, 40MHz, 6 samples, hor stage :=-7.5 mm
software trigger
no telescope
PEDESTAL with BEAM (10k events) @ LEFT |
23
|
Sun Jun 1 14:36:23 2008 |
Markus Friedl | SiLC | APVDAQ only (0-sup) | run0002 | 100000 | 01.06.2008 14:25:43 | 01.06.2008 14:54:14 | SiLC beam test - CERN SPS June 2008 - HIT MODE
8 modules, HV=100V, 40MHz, 6 samples, hor stage :=-7.5 mm
trigger: 9 mm opening, TLUControl.exe -d 2 -a 12 (manually)
no telescope
This is LEFT position
APVDAQ runs in HIT MODE (=0-suppressed)
acquisition rate ~300 Hz during spill |
21
|
Sun Jun 1 01:56:47 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) | run2720 | 100000 | 01.06.2008 01:51:45 | 01.06.2008 07:48:09 | SiLC beam test - CERN SPS June 2008
8 modules, HV=100V, 40MHz, 6 samples, hor stage :=-7.5 mm
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12
telescope: zero supressed, new firmware
horizontal position ("target") = -7.5mm
this is LEFT position |
20
|
Sat May 31 22:54:29 2008 |
Markus Friedl | SiLC | APVDAQ + telescope (0-sup) | run2719 | 100000 | 31.05.2008 22:34:38 | 01.06.2008 01:49:30 | SiLC beam test - CERN SPS June 2008
8 modules, HV=100V, 40MHz, 6 samples, hor stage :=-2.75 mm
trigger: 9 mm opening, TLUControl.exe -d 10 -a 12 (now for real)
telescope: zero supressed, new firmware
horizontal position ("target") = -2.75mm
this is MID position |
1
|
Tue May 6 13:51:43 2008 |
Thomas Bergauer | other | Equipment list | | | | | Slow Control:
K2410 SMU
K2700 Scanning Voltmeter
Shut-Widerstand-Platine
Flachbandkabel
TRHX + 2 Sensoren + Kabel
Koax-Kabel + Adapter auf Banane
LV-Power-Supplies
Die Katze (Belle-HV-Supply)
DAQ:
Chrisu-PC (inkl. Keyboard, Maus, 2 Monitore)
9U-VME-Crate samt Modulen und PS
DOCK-Box
VME-Kabel (bockig)
30m-Kabel (8xCat7, 2xCat5, 2xgrau)
Lemo-Kabel
100pin-Flachkabel
Bananenkabel
Hybridkabel
Special TLU-Adapter (flipping pin order of RJ45)
Schrauben für Crate-Montage
DUT:
9 SiLC-Module
Micron-Modul
3 Belle-Module + Rahmen
Schrauben für Montage am Drehteller
EDV:
Netzwerkkabel
Netzwerk-Switch
WLAN-Router WRT54GL
1TB externe Festplatte
Webcam
USB-Stick
Tools:
Scope + 4 Probes
Diverse Adaptoren Lemo-BNC, Lemo-Lemo
Taschenlampe
Massband
Multimeter
Werkzeug (Schraubenzieher & Co)
Pinzetten
Laserpointer
Schwarze Fetzen
Scotch tape
Kabelbinder
Adapter f. Steckdosen falls erforderlich
Verteiler-Leisten
Tixo klein & gross
Misc:
5 pcs. SiLC Alignment Sensors for Marcos Fernandez Garcia
Fondueset
Digitalkamera
Akkus+Ladegerät
Dickes Logbook
Kugelschreiber/Bleistifte
Pflaster
VME-6U-PS zur Reparatur
2 x Pixel-FED für W.J. & D.K. |
2
|
Wed May 7 10:43:09 2008 |
Thomas Bergauer | SiLC | Documentation: twiki, Stephans Hardware Drawings,.... | | | | | DUT, APVDAQ Documentation
CERN TWiki: https://twiki.cern.ch/twiki/bin/view/Main/SiLCTestbeam
Stephan's Documentation: http://wwwhephy.oeaw.ac.at/u3w/s/shaensel/www/HEPHY-Testbeam08/
Telescope:
EUDAQ @ hepforge
LCIO homepage at DESY
JRA1 Meeting with Software tutorial (siehe "Software Session" -> "EUtelescope Tutorial") |
3
|
Wed May 7 16:28:23 2008 |
stephan hänsel | SiLC | Photos | | | | | Module Photos
topview of module (without cover)
bottomview of module (without cover)
8 modules on table |
4
|
Fri May 9 11:46:36 2008 |
Markus Friedl | SiLC | Data file format | (work in progress) | | | | APVDAQ Data Analysis
====================
The Vienna APVDAQ system has its origin in the late 1990s, and has grown and been improved since then.
Along with the hardware, also the software has grown and hence now consists of several steps rather
than a single piece of software.
DAQ and Analysis Chain
----------------------
Step 0: APVDAQ Software (=online) - CVI/LabWindows under Windows
* controls and reads hardware, provides quick online analysis for online data quality check
* can record software (pedestal), hardware (normal) or calibration runs
* saves raw data (default) or hardware-zero-suppressed data
Step 1: APVDAQ_Analysis - CVI/Labwindows under Windows
* essentially an improved version of step 0, reads step 0 data from file and performs pedestal
subtraction, common-mode correction, hit finding and clump finding (=2D-clustering; we record
typically 6 samples along the shaped waveform for each event for later peak time reconstruction;
thus clustering is not only done along strip axis, but also in time -> we search for contiguous
hit clouds within the two-dimensional x-t-domain and sum up the cluster for each time point)
* saves clustered waveform hit data (typically 6 sampled values per hit)
Step 2: hitfitgui - ROOT under Linux
* reads the clustered waveform hit data from step 1 and performs a waveform fit for each hit with the
reference waveform created from calibration data, resulting in peak amplitude and peak time for each
hit which is compared to a reference time obtained with a TDC (included in the APVDAQ hardware)
* saves peak amplitude and time information per hit
Step 3: anarun.C - ROOT under Linux
* reads the hit properties file from the previous step and fills the data into several histograms like
Signal, SNR, Noise, Cluster Width, Eta distribution etc. for subsequent graphical display, including
Landau*Gauss fits and p-n side correlations
* saves several plot canvasses as PS files
What we don't have
------------------
Tracking, alignment and such things. I think that the best starting point for these functions is the step 2
output data, as this is the most compact form of data and almost directly represents spatial hit points.
General things to consider
--------------------------
* All counting starts from zero
* Strip numbers are counted by hybrids and can span over up to 4 APV chips (=strip numbers 0..511)
* The first 600 events are always software-triggered and used for pedestal and noise evaluation. Thus, event
numbers 0..599 will never appear in the zero-suppressed data
* The TLU event number is stored separately and does not correspond to the APVDAQ internal event number
* Zones were introduced to label detector regions of different properties, such as the 16 (!) geometrically
different regions of the SiLC test structures, each comprising only 16 strips
Step 1 (APVDAQ_Analysis) output data format
-------------------------------------------
The first step of offline analysis produces a zero-suppressed data file stream out
of the raw data file, thus reducing the file size considerably.
The zero-suppressed file (file name ends with "_cluster.hit") uses the following structure.
#define MAX_SUBEVENTS 6 // maximum number of samples in one readout buffer
#define MAX_HITS_PER_EVENT 200 // maximum number of hits per event
#define MAX_CLUSTERWIDTH 20 // maximum cluster width
#define P_SIDE 0 // p-side of the sensor
#define N_SIDE 1 // n-side of the sensor
typedef struct {
unsigned long event; // APVDAQ event number
unsigned char numberofsubevents; // number of samples in this event
unsigned short numberhits; // total number of hits (clumps) in this event
unsigned char hitbegin; // sample number of the begin of the hit
unsigned char hitlength; // number of samples of this hit
unsigned short first_strip; // first strip of the cluster
unsigned char clwidth; // cluster width
double center_strip; // center-of-gravity of the cluster (counted in strip units)
double center_coord; // coordinate of the center strip
unsigned char side; // sensor side, P_SIDE = 0, N_SIDE = 1
unsigned char module; // module number (internal=0,1,...)
unsigned char zone; // zone number (internal=0,1,...)
unsigned short tlueventnumber; // TLU event number (was previously reserved2)
double eta; // eta of cluster peak
double clnoise; // calibrated cluster noise
double reserved; // used for calibration constant
double clsigcal[MAX_SUBEVENTS]; // calibrated cluster signal of all subevents
double tdc; // time of digital conversion
double strsigcal[MAX_CLUSTERWIDTH][MAX_SUBEVENTS]; // calibrated strip signal of all samples
double strnoise [MAX_CLUSTERWIDTH]; // calibrated strip noise
} Clusterhit_t;
Clusterhit_t clhits[MAX_HITS_PER_EVENT]; // cluster hits of the current event
Each structure array element describes a single clump (2D cluster) found in one sensor plane
in one particular event.
The APV25 chips read out 6 consecutive samples for each strip, spaced by 25ns (MAX_SUBEVENTS).
Hence, the term "cluster" is extended into 2D, with strip number and time sample as coordinates,
leading to a "clump".
A clump is a cluster built from one or more strips and spanning over several time samples.
The total number of clumps per event is stored in the "numberofhits" field, so the procedure
to read the complete event data is to read one element first, then numberofhits-1 more elements.
Step 2 (hitfitgui) output data format
-------------------------------------
The data structure looks very similar to the previous one, except that the (typically) 6 samples values along
the shaped waveform are replaced by a single value pair: peak amplitude and time. Well, actually, there are 3
pairs obtained in different ways, where the last one (i.e. sigcal[2] and tpeak[2]) are most accurate.
The output file (file name ends with "_cluster.hit.fit") uses the following structure.
typedef struct {
unsigned long event; // master event number
unsigned char numberofsubevents; // number of subevents in this master event
unsigned short numberhits; // total number of hits (clumps) in this event
unsigned short numfithits; // total number of fitted hits (clumps) in this event
unsigned char hitbegin; // subevent number of the begin of the hit
unsigned char hitlength; // number of subevents of this hit
unsigned short first_strip; // first strip of the cluster
unsigned char clwidth; // cluster width
double center_strip; // center strip of the cluster
double center_coord; // u or v coordinate of the center strip
unsigned char side; // sensor side, N_SIDE, P_SIDE
unsigned char module; // module number (internal=0,1,...)
unsigned char zone; // zone number (internal=0,1,...)
double tdc; // time of digital conversion
double eta; // eta of cluster peak
double clnoise; // calibrated cluster noise
// OLD:
// double reserved; // reserved for future use
//
// NEW:
unsigned short tlueventnumber; // TLU event number
unsigned short reserved2;
unsigned long reserved3;
double sigcal[3]; // fitted hit amplitude {raw data max / expfit / calfit}
double tpeak[3]; // fitted peak time {raw data max / expfit / calfit}
double strsigcal[MAX_CLUSTERWIDTH][MAX_SUBEVENTS]; // calibrated strip signal of all samples
double strnoise [MAX_CLUSTERWIDTH]; // calibrated strip noise
} FittedHit_t;
FittedHit_t fithits[MAX_HITS_PER_EVENT];
Each structure array element describes a single clump (2D cluster) found in one sensor plane
in one particular event.
The total number of clumps per event is stored in the "numberofhits" field, so the procedure
to read the complete event data is to read one element first, then numberofhits-1 more elements.
To be continued... |
5
|
Fri May 9 15:29:28 2008 |
Thomas Bergauer | SiLC | Sensor Layout | | | | |
|
pplus strip |
number of |
|
width |
intermediate |
strips |
[µm] |
strips |
16 |
6 |
no |
16 |
10 |
no |
16 |
12.5 |
no |
16 |
15 |
no |
16 |
20 |
no |
16 |
25 |
no |
16 |
6 |
single |
16 |
7.5 |
single |
16 |
10 |
single |
16 |
12.5 |
single |
16 |
15 |
single |
16 |
17.5 |
single |
16 |
6 |
double |
16 |
7.5 |
double |
16 |
10 |
double |
16 |
12.5 |
double |
Stephan: weil ichs immer hier suche hab ich das Wafer Layout file geadded ;-) |
6
|
Wed May 14 09:21:39 2008 |
stephan hänsel | SiLC | capacity measurements - HPK-ILC-TS-6687-24 | | | | | ich hab mal die Kapazitäts-Messungen vom Thomas in ein Diagram gegeben
interessant ist, dass die Kapazität mit 2 intermediate strips (int. strips) kleiner ist als mit einem int. strip -> das bedeutet, dass der eine int. strip breiter ist als die 2 int. strips zusammen - oder?
weiters dürfte die breite des einen int. strips mit der stripwith leicht variieren
(zur Erinnerung: Plattenkondensator - C = e eo A / d ) |
7
|
Wed May 14 16:15:30 2008 |
Markus Friedl | BELLE | Micron DDD5 Photos | | | | | This is the new Micron DDD5 double-sided module with 3+3 APV25 readout chips on each side.
The p-side flex hybrid sits at the edge of the sensor, while the n-side flex hybrid is located on top of about
1/3 of the sensor, separated by 1mm of Rohacell.
Sensor data (copied from the Micron catalogue):
DESIGN DDD5 - AC COUPLED ION IMPLANTED TOTALLY DEPLETED DOUBLE SIDED DOUBLE METAL MICROSTRIP DETECTOR
SILICON DETECTOR TYPE: AC coupled ion implanted totally depleted silicon microstrip detector.
DESIGN: Double sided, two metal layers on NN+ 6 inch wafer technology.
JUNCTION SIDE
No STRIPS: 384
STRIP PITCH: 50 µm
OHMIC SIDE
First Metal
No STRIPS: 768
STRIP PITCH: 153.5 µm
Second Metal
No STRIPS: 384
STRIP PITCH: 49.5 µm
POLYSILICON RESISTOR: 2.5 ± 0.5 M
COUPLING CAPACITOR: 100 pF
SILICON THICKNESS: 300 ± 10 µm
CHIP DIMENSIONS: 120.125 x 21.2 mm2
FULL DEPLETION VOLTAGE (FD): 50 V maximum
OPERATING VOLTAGE: FD to 2FD
EXPERIMENTS: D2, FNAL |
8
|
Mon May 19 15:14:40 2008 |
Markus Friedl | other | Tentative Beam Test Schedule | | | | | Wed 28 May: ~16:00 arrival, unpacking
Thu 29 May: installation
Fri 30 May: beam on
1) Telescope + 8xSilC (~7hrs, overnight; first part)
2) 8xSilc, no telescope (fast runs during day)
3) Telescope + 8xSilC (~7hrs, overnight; second part after DUT shift)
4) 1xSilc, rotation
5) Belle, telescope
* starting telescope alignement
* adc delay scan, intcal, pedrun, pedcorr
* DUT alignement
* std. settings, telescope zero supr.(zp) 1st half, lunch break
* std. settings, telescope zero supr. 2nd half
* std. settings, telescope raw data, 1st half
* std. settings, telescope raw data, 2nd half
* optionally HV scan, tel. zp., (10 HV settings --> 2x 10 runs)
* unmount 7 DUTs
* std run 0 deg., (2 runs)
* angle scan (about 10 runs)
* install Belle DUT
* std. settings, telescope raw, transparent mode
* std. settings, telescope sp, transparent mode, high statistics
* std. settings, telescope sp, processed mode, high statistics |
9
|
Mon May 19 15:21:49 2008 |
Markus Friedl | other | CERN SPS page 1 | | | | | SPS Status
SPS Page 1 - http://hpslweb.cern.ch/frame/java/1.1/view110-java.html
Manual - http://jwenning.web.cern.ch/jwenning/documents/SPS/Operation/Page-1%20description.htm
Linac, PSB, CPS Status
Linac, PSB, CPS Status |
10
|
Fri May 23 15:17:49 2008 |
Markus Friedl | SiLC | Module/chip/strip/zone numbering scheme | (work in progress) | | | | The SILC DUT is a stack of 8 silicon sensors surrounded by the telescope.
The spacing between each of the 8 layers is 20mm. Seen with the beam, the fourth layer is exactly centered
between the telescope legs. This means that the stack as a whole is not exactly centered, as there is no
'center' module with an even number of layers. Please refer to drawings "telecope_single_dut.gif" and
"telescope_8_dut.gif" below.
Each sensor has 256 strips, which are read out by 2 APV25 chips. The numbering order of the modules follows the
beam direction (see drawing "silc_dut_stack_beam.jpg"). Modules will have the connector (and thus APV25 hybrid)
at the top as shown in the photos. The numbering scheme within one module is shown in drawing
"silc_dut_beam.jpg": Looking with the beam, strips are numbered from right to left. The strip pitch is 50um
everywhere.
The APVDAQ software works on APV25 level for the data acquisition, where raw data is saved. In that case, the
APVs are consecutively numbered 0,1 (=module 0), 2,3 (=module 1), 4,5 (=module 2), ... ,14,15 (=module 7).
In later steps of the analysis, data are presented on a module [0..7] / strip [0..511] base.
Zone numbers were removed, now everything is zone=1.
(Zone 0 is a reserved value and hence the actual zone counting starts with 1.)
The 256 strips are divided into 16 groups of 16 strips each with different strip width and intermediate strips,
according to the table below:
pplus strip number of
width intermediate
group# strips [µm] strips
0 16 6 none
1 16 10 none
2 16 12.5 none
3 16 15 none
4 16 20 none
5 16 25 none
6 16 6 single
7 16 7.5 single
8 16 10 single
9 16 12.5 single
10 16 15 single
11 16 17.5 single
12 16 6 double
13 16 7.5 double
14 16 10 double
15 16 12.5 double
Please note that the strip pitch is 50µm everywhere, but between each group there is a gap of a single missing
strip. Hence, when calculating the coordinate from the strip number, one must take those distinctive gaps into
account.
We assume that we have a fractional strip position, where the fraction denotes (e.g.) the center of gravity of
the cluster. In order to convert this into a coordinate, we can use the following approach (where s is the
(fractional) strip number and x ist the fractional coordinate [µm]):
/* *** tested and works *** */
double strip2x(double strip)
{
unsigned short ints;
// this is the integral part of the strip number
ints = (unsigned short) strip;
return ( 50.0 * ( strip + ( ints >> 4 ) ) + ( ( (ints+1) & 15 ) ? 0.0 : ( strip - ints ) * 50.0 ) );
// pitch strip
// gaps between zones
// outside gap ? do nothing
// account for double pitch within gap
} |
11
|
Mon May 26 15:38:53 2008 |
Markus Friedl | SiLC | How to run APVDAQ | | | | | Power-on Procedure
==================
PC logon: user "testbeam", pwd "sensor"
Order for switching on the hardware (not strict):
* VME 9U crate
* keithley instruments
* +-5V (fat) 2 lab power supplies (left stack)
* other 3 lab power supplies (right stack)
BE CAREFUL NOT TO CHANGE DIALS AT ALL DURING SWITCHING!!!
Run ResMan.exe (shortcut on desktop) and click OK to close
Start longterm-R31.vi (shortcut on desktop) and start HV bias
Start APVDAQ.exe
Now everything is on and ready to operate.
This is also the condition after a run is finished.
Start Run (see screenshot below)
================================
1. select proper run type (if different from previous run), typically
Hardware (beam) or
Software (pedestal) or
Internal Calibration
2. open proper config file (if different from previous run), one of
cern08_silc_all_single.cfg (8 DUTs, 1 sample) - for software (pedestal) and intcal runs
cern08_silc_all_multi6.cfg (8 DUTs, 6 samples) - for hardware (beam) runs
cern08_silc_mod03_single.cfg (1 DUT, module 03, 1 sample) - for software (pedestal) and intcal runs
cern08_silc_mod03_multi6.cfg (1 DUT, module 03, 6 samples) - for hardware (beam) runs
3. select file name (typically: increase run number)
4. switch Write File ON (if turned off)
5. write some useful comments (conditions, HV, etc)
6. enter number of events
7. hit "Start Run" and relax or cry for help :-)
Additional Info
===============
path to APVDAQ: e:\cvi-projects\apvdaq_fadc
path to Longterm: e:\labview-projects\longterm R3.1
path to data: f:\testbeam\cern_jun08\silc\data |
12
|
Fri May 30 10:36:18 2008 |
Marko Dragicevic | other | Important Information/Contact | | | | | IPs
Linksys Router
- external: routerhephy.cern.ch (137.138.171.102)
- internal: 192.168.1.1
US&ER /PA_SS'WD: admin/sensor
- WLAN-SSID: HEPHY
- WLAN-WPA-TKIP: testbeam08
EUDETMAC
- external: eudetmac001.cern.ch
- U1SE*R/P*AS§S/WD (ssh): eudet/gsigsi
- from EUDETMAC to TLU:
ssh tlupc
LAB2PC (APVDAQ, DUT HV)
- internal: 192.168.1.10
- external VNC: routerhephy.cern.ch (137.138.171.102:5900)
pa2s2s2w2d: hephy
XY Table
- internal VNC: 192.168.1.11
pa2s2s2w2d: hephy
Beam Control PC
- external VNC: CWO-HNA453-H6B1.CERN.CH (137.138.61.206)
Phone
Vienna CERN Mobile Phone (usually Thomas Bergauer)
Daniel Haas
Marko Dragicevic
- Hostel (39-120): 79 120
- Private: +43 650 4243343
Markus Friedl
- Hostel (41-107): 60 107
- Private: +43 699 17251085
Thomas Bergauer
- Hostel (39-220): 79 220
- Private: +43 664 3769400 (switched off during testbeam)
Christian Irmler
- Hostel (41-222): 60 222
- Private: +43 699 19437327
Misc
SPS Page 1
Path to start cesar
|
15
|
Sat May 31 13:34:28 2008 |
Thomas Bergauer | | how to copy data from lab2pc to eudetmac | | | | | rsync -rltvz --exclude "data_vie" --exclude "hitfit_cern08" --exclude "output_vie" --exclude "run2719*" --rsh="ssh -C -p222" friedl@routerhephy.cern.ch:/cygdrive/f/testbeam/cern_jun08/ /Volumes/Data/eudet/APVDAQ/
but replace run2719 with the name of the run file currently active (data taking)
and use Markus' password |
19
|
Sat May 31 18:33:50 2008 |
Thomas Bergauer | other | beam profile | | | | | Beam configuration
Beam configuration file: H6b.802 (FM HAD (P0 off, H8=+180) PARLALLEL IN H6B SILC 2008
Rate: 5.7E5 particles/spill (measured with SCINT8 in beamline)
Particle Production Applet
Calculator applet
For +120 Gev/c beam:
Pi+ | 55.67 %
|
p | 38.95 %
|
K+ | 5.38 %
|
|
29
|
Sun Jun 1 17:01:12 2008 |
Thomas Bergauer | SiLC | path do data | | | | | The data of all runs are stored on eudetmac001.cern.ch:
APVDAQ: /Volumes/Data/eudet/APVDAQ/silc/data
Telescope data: /Volumes/Data/eudet/Data/testing
all data will be saved to an external Firewire disk (Vienna Backup) and to CASTOR |
30
|
Sun Jun 1 18:23:38 2008 |
Markus Friedl | SiLC | Very simple tracking | run2719 | 100000 | | | Very simple alignment (manual linear x direction shifting only, no rotation, assuming equal z spacing) and tracking.
Reference plane = Module 3 (~center)
Deviation calculated from track prediction using the other layers.
Simple Center-of-gravity algorithm (as of APVDAQ_Analysis), no eta applied.
Using only events which have exactly 1 hit per plane (~80% of all events).
Results:
Residual RMS = 4.99 um (REFERENCE against neighbor layers 2+4 only)
Residual RMS = 6.35 um (REFERENCE against all 7 other layers) -> needs more sophisticated alignment |
31
|
Sun Jun 1 20:13:37 2008 |
Eudet Telescope | SiLC | BZIP2 compressed APVDAQ data | | | | | Processed APVDAQ data_cluster - in tar.bzip2 format:
- on machine: eudetmac001.cern.ch
- in directory: /Volumes/Data/eudet/APVDAQ/silc/data_bz2
- size reduction by factor 6
- in order to extract files, write: tar -xjf name.tar.bz2
Zbynek |
34
|
Sun Jun 1 23:36:21 2008 |
Christian Irmler | SiLC | HowTo analyse data | | | | | The analysis consists of two stages:
- The first is zero supression an cluster finding done with "apvdaq_analysis_fadc" (Labwindows/CVI application)
- The second stage is hit time reconstruction done with ROOT. (hitfit)
Both are installed on EUDETMAC.
apvdaq_analysis_fadc:
- start apvdaq_analysis_fadc within the virtal Windows XP machine (parallels).
- select a runfile, e.g. run0001.dat
- select a propper calibration file, default is "cal002.out"
- select pedestal correction file, default is "pedcorr001.ped"
- enable "generate hit file and save results"
- click "Start"
- The result of the analyis is a file containing all hits above threshold, the filename is "xxxxxxx_cluster.hit", where xxxxxxx is the run name
- The data structure of the file is described at http://elog.hephy.at/testbeam-SPS08/04
- The file is located in the same folder as the raw data file (= data)
hitfit:
- Once apvdaq_analysis_fadc is finished, start a console window and change into the directory /Volumes/Data/eudet/APVDAQ
- execute ./hitfitrun nnnn, where nnnn is the run number
- results: file with fitted hits (data structure see http://elog.hephy.at/testbeam-SPS08/04) as well as several plots.
- file name: xxxxxxx_cluster.hit.fit, the file is located in the subdirectory output.
|
59
|
Tue Jun 3 12:41:22 2008 |
Eudet Telescope | | useful eudaq software commands | (work in progress) | | | | to show information about a run (number of events, start and end timestamp,....:
./TestReader.exe -b -e 2828 |
67
|
Wed Jun 4 15:41:04 2008 |
Thomas Bergauer | | end. | | | | | testbeam is over. DUTs and APVDAQ have been dismounted and will be shipped back to Vienna. EUDET telescope is still in H6B and taking data for alignment and pedestal during the night. |
68
|
Tue Jun 17 09:43:07 2008 |
Thomas Bergauer | | Data analysis progress | overview (in progress) | | | |
run number | What? | APVDAQ mode | Telescope mode | #events | hit data processed | hitfit processed
|
0001 | first attempt | raw | n.a. | 51803 | yes | yes
|
0002 | LEFT pos | zs | n.a. | 100k | yes | yes
|
0003 | MID pos | zs | n.a. | 100k | yes | yes
|
0004 | RIGHT pos | zs | n.a. | 100k | yes | yes
|
2716 | all sc on | raw | zs | 20000 | yes | yes
|
2717 | wrong pos | raw | zs | 6490 | no | no
|
2718 | RIGHT pos | raw | zs | 100k | yes | yes
|
2719 | MID pos | raw | zs | 100k | yes | yes
|
2720 | LEFT pos | raw | zs | 100k | yes | yes
|
2721 | LEFT pos | raw | raw (-2737) | 22k | yes | yes |
|
2738 | telescope pedestal
|
2739 | crap
|
2741 | MID pos | raw | raw (-2757) | 22k | yes | yes
|
2758 | RIGHT pos | raw | raw (-2783) | 34873 | yes | yes
|
2784-2786 | telescope something |
|
2787 | HV=100 | raw | zs | 30k | yes | yes
|
2788 | HV=10 | raw | zs | 10k | yes | yes
|
2789 | HV=20 | raw | zs | 10k | yes | yes
|
2790 | HV=30 | raw | zs | 10k | yes | yes
|
2791 | HV=40 | raw | zs | 10k | yes | yes
|
2792 | HV=50 | raw | zs | 4536 | yes | yes
|
2821 | HV=50 | raw | zs | 10k | yes | yes
|
2822 | HV=60 | raw | zs | 10k | yes | yes
|
2823 | HV=70 | raw | zs | 10k | yes | yes
|
2824 | HV=80 | raw | zs | 10k | yes | yes
|
2825 | HV=90 | raw | zs | 10k | yes | yes
|
2826 | HV=120 | raw | zs | 10k | yes | yes
|
2827 | HV=150 | raw | zs | 10k | yes | yes
|
2828 | HV=200 | raw | zs | 10k | yes | yes
|
2831 | angle=10deg | raw | zs | 10k | yes | yes
|
2832 | angle=20deg | raw | zs | 10k | yes | yes
|
2833 | angle=30deg | raw | zs | 10k | yes | yes
|
2834 | angle=40deg | raw | zs | 10k | yes | yes
|
2835 | angle=50deg | raw | zs | 10k | yes | yes
|
2836 | angle=60deg | raw | zs | 10k | yes | yes
|
2837 | angle=0deg | raw | zs | 20k | yes | yes
|
2838 | 2-dimensional DUTs | raw | zs | 478159 | yes | in progress
|
|
|