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Subject |
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747
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Fri Jan 23 08:00:42 2026 |
MA, BA | Wed 12 May 00:00-08:00 |
| 引用: |
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03:12系统检查
附件 1:当å‰
附件2:温度
附件3:费ç‡
时钟状æ€æµ‹è¯•ç»“æœï¼šé€šè¿‡ 16 项,失败 0 项
状æ€ç†è§£å¦‚下
:状æ€ä½ 3:固件 PLL(用äºä»å¤–部时钟生æˆæ—¶é’Ÿï¼‰æœªé”定;
状æ€ä½ 2:始终为逻辑“1”
;状æ€ä½ 1:LMK3200(2) PLL 和时钟分é…芯片未é”定到外部时钟;
状æ€ä½ 0:LMK3200(1) PLL 和时钟分é…芯片未é”定到外部时钟。
如æœæ‰€æœ‰è¿™äº›ä½éƒ½æœªè®¾ç½®ï¼Œåˆ™å›ºä»¶è¿è¡Œä¸å¯é 。
æ ¡å‡†æµ‹è¯•ç»“æœï¼šé€šè¿‡ 16 项,未通过 0 项
如æœä»»ä½•æ¨¡å—æ ¡å‡†å¤±è´¥ï¼Œè¯·æ£€æŸ¥æ—¶é’ŸçŠ¶æ€å¹¶æ‰“å¼€ FADC æ ¡å‡†å’Œæ§åˆ¶æµè§ˆå™¨é¡µé¢ï¼Œé‡æ–°è¿è¡Œè¯¥æ¨¡å—çš„æ ¡å‡†ã€‚
基准电æµå·®å€¼
aida05 故障 0x36ca : 0x36cb : 1
白兔错误计数器测试结æœï¼šé€šè¿‡ 15,失败 1
状æ€æŠ¥å‘Šçš„å«ä¹‰å¦‚下:-
状æ€ä½ 3:White Rabbit 解ç 器检测到æ¥æ”¶åˆ°çš„æ•°æ®æœ‰è¯¯ï¼›
状æ€ä½ 2:固件记录了 WR 错误,时间戳未é‡æ–°åŠ 载;
状æ€ä½ 0:White Rabbit 解ç å™¨æŠ¥å‘Šæ— æ³•ç¡®å®šæ¥è‡ª WR 的时间戳信æ¯ã€‚
基准电æµå·®å€¼
aida13 故障 0xa : 0xf : 5
FPGA 时间戳错误计数器测试结æœï¼šé€šè¿‡ 15,失败 1。
如æœè¿™äº›è®¡æ•°ä¸æœ‰ä»»ä½•ä¸€é¡¹è¢«æŠ¥å‘Šä¸ºé”™è¯¯ï¼Œåˆ™
表示 ASIC 读å–系统检测到了时间滑移。
ä¹Ÿå°±æ˜¯è¯´ï¼Œä» FIFO 读å–的时间戳ä¸æ¯”上一次读å–的时间戳更新。
è¿”å› 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
内å˜(KB) : 4 8 16 32 64 128 256 512 1k 2k 4k
aida01 : 22 5 7 2 1 2 2 3 3 3 6 : 36464
aida02 : 9 8 3 3 1 4 1 2 4 3 6 : 36916
aida03 : 5 2 6 2 0 3 2 3 3 3 6 : 36420
aida04 : 6 5 2 3 4 4 2 3 3 3 6 : 36800
aida05 : 17 6 6 2 2 4 1 3 2 4 6 : 37524
aida06 : 7 12 3 4 3 3 1 3 3 3 6 : 36460
aida07 : 17 11 5 1 3 3 3 2 3 3 6 : 36428
aida08 : 3 5 0 1 4 2 2 4 2 3 6 : 35924
aida09 : 27 6 4 2 0 2 2 2 3 3 6 : 35868
aida10 : 16 11 8 0 2 2 1 3 2 4 6 : 37272
aida11 : 15 2 2 3 1 4 3 4 2 3 6 : 36364
艾达12 : 1 6 4 3 1 3 2 4 2 3 6 : 35988
aida13 : 22 14 10 2 4 2 2 4 2 3 6 : 36264
aida14 : 26 10 4 3 2 1 1 3 3 3 6 : 36184
aida15 : 14 2 3 2 2 4 1 2 3 3 6 : 35896
aida16 : 7 5 4 0 2 4 2 3 2 3 6 : 35588
06:10 DSSD1 ç‡é«˜ï¼
附件 4
我给è€å…¬æ‰“了电è¯ï¼Œä»–èµ·æ¥å°±æ¥ä¿®å¥½äº† :)
æ®ä»–所说,问题出在澳大利亚è¯åˆ¸ä¸æŠ•èµ„委员会(ASIC)的æŸä¸ªéƒ¨é—¨ï¼š
å…¶ä¸ä¸€å°ASIC HEC芯片è¿è¡Œå¼‚常ï¼å¼ºåˆ¶ASIC芯片检查其设置,使其æ¢å¤æ£å¸¸ï¼ˆè§é™„件9)。æ¤æ“作大约在06:35完æˆã€‚
07:03 系统检查
附件 5 频谱速ç‡
附件 6 电å‹
附件 7 è´¹ç‡
附件 8 温度
系统时钟一切æ£å¸¸ï¼Œé™¤äº†
白兔
基准电æµå·®å€¼
aida05 故障 0x36ca : 0x36cb : 1
白兔错误计数器测试结æœï¼šé€šè¿‡ 15,失败 1
状æ€æŠ¥å‘Šçš„å«ä¹‰å¦‚下:-
状æ€ä½ 3:White Rabbit 解ç 器检测到æ¥æ”¶åˆ°çš„æ•°æ®æœ‰è¯¯ï¼›
状æ€ä½ 2:固件记录了 WR 错误,时间戳未é‡æ–°åŠ 载;
状æ€ä½ 0:White Rabbit 解ç å™¨æŠ¥å‘Šæ— æ³•ç¡®å®šæ¥è‡ª WR 的时间戳信æ¯ã€‚
FPGA
基准电æµå·®å€¼
aida13 故障 0xa : 0x14 : 10
FPGA 时间戳错误计数器测试结æœï¼šé€šè¿‡ 15,失败 1。
如æœè¿™äº›è®¡æ•°ä¸æœ‰ä»»ä½•ä¸€é¡¹è¢«æŠ¥å‘Šä¸ºé”™è¯¯ï¼Œåˆ™
表示 ASIC 读å–系统检测到了时间滑移。
ä¹Ÿå°±æ˜¯è¯´ï¼Œä» FIFO 读å–的时间戳ä¸æ¯”上一次读å–的时间戳更新。
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746
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Wed Jan 7 02:21:13 2026 |
BA, AA | Saturday 14 May |
| Quote: |
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FEE64 module aida09 global clocks failed, 6
Clock status test result: Passed 13, Failed 1
Understand status as follows
Status bit 3 : firmware PLL that creates clocks from external clock not locked
Status bit 2 : always logic '1'
Status bit 1 : LMK3200(2) PLL and clock distribution chip not locked to external clock
Status bit 0 : LMK3200(1) PLL and clock distribution chip not locked to external clock
If all these bits are not set then the operation of the firmware is unreliable
FEE64 module aida02 failed
FEE64 module aida06 failed
FEE64 module aida09 failed
FEE64 module aida10 failed
FEE64 module aida13 failed
Calibration test result: Passed 9, Failed 5
If any modules fail calibration , check the clock status and open the FADC Align and Control browser page to rerun calibration for that module
White Rabbit error counter test result: Passed 14, Failed 0
Understand the status reports as follows:-
Status bit 3 : White Rabbit decoder detected an error in the received data
Status bit 2 : Firmware registered WR error, no reload of Timestamp
Status bit 0 : White Rabbit decoder reports uncertain of Timestamp information from WR
FPGA Timestamp error counter test result: Passed 14, Failed 0
If any of these counts are reported as in error
The ASIC readout system has detected a timeslip.
That is the timestamp read from the time FIFO is not younger than the last
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745
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Wed Nov 19 10:28:24 2025 |
JEL, JB | Analysis of AIDA from S100 experiment by JEL |
Analysis done by JEL of the AIDA daq with his own time-stitcher -- not the standard one used by DESPEC.
- Analysis of 168Dy:
-- Correlation efficiency and stopping layer of ion 168Dy in fully-stripped and hydrogen-like charge-state.
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| Attachment 1: aidastop.pdf
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744
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Thu Nov 13 10:14:50 2025 |
JB, MP | Noise conditions after removal of bPlast cabling |
JB has removed unnecessary cables and items from the snout and platform:
- the bPlast cables and booster boards were removed
- crate below the AIDA frame was disconnected from the power supply
- BB7 cables were removed
- power supply for the booster boards was removed
We switch on the system and check the noise conditions.
We started up. BIAS OK. TEMPS OK.
Thresholds initially set to 100 keV.
Rates in all FEEs are > 200 kHZ. Attachment 6.
We then checked the pulser peak widths in aida14. --> 192 channels with 1 V 1x attenuation. at 700 keV threshold (attachment 3). At 100 keV threshold the peak width was significantly higher!!! ---> 385 channels (attachment 2)
We checked the rates in the FEEs with the 700 keV thresholds (attachment 11).
Furthermore, we checked the constant noise that appears to be present in the y FEEs aida02,04,06,08. This can be seen in attachment 8 and has been noted in previous elogs https://elog.ph.ed.ac.uk/DESPEC/727
Info on current status of ion catcher: vacuum system is ON, electronics is also on (RF ~2MHz) on the side opposite to the DESPEC setup |
| Attachment 1: Screenshot_from_2025-11-13_11-17-27.png
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| Attachment 2: Screenshot_from_2025-11-13_11-41-48.png
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| Attachment 3: Screenshot_from_2025-11-13_11-39-30.png
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| Attachment 4: Screenshot_from_2025-11-13_11-34-29.png
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| Attachment 5: Screenshot_from_2025-11-13_11-33-38.png
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| Attachment 6: Screenshot_from_2025-11-13_11-33-13.png
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| Attachment 7: Screenshot_from_2025-11-13_11-29-41.png
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| Attachment 8: Screenshot_from_2025-11-13_11-53-18.png
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| Attachment 9: Screenshot_from_2025-11-13_11-50-53.png
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| Attachment 10: Screenshot_from_2025-11-13_11-47-30.png
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| Attachment 11: Screenshot_from_2025-11-13_11-45-30.png
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743
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Fri Nov 7 12:30:30 2025 |
JB, GB, MP | Pulser walkthrough for source tests. |
13:30 We are going to do the pulser walkthrough for the the source tests.
We are wrapping the snout in some copper first to further establish a better connection with the ground.
2025Nov07-13.55.01 is a setting with 100 keV threshold across all FEEs.
We got the DAQ running, TEMPS ok and biased OK. We execute the pulser walkthrough as follow:
10x attenuation - 10V -> 1V in steps of 1 V
/lustre/despec/aida_sourcetest_2025/raw/
pulser_wt_10V - 10V
pulser_wt_9V - 9V
pulser_wt_8V - 8V
pulser_wt_7V - 7V
pulser wt_6V - 6V
pulser_wt_5V - 5V
pulser_wt_4V - 4V
pulser_wt_3V - 3V
pulser_wt_2V - 2V
pulser_wt_1V - 1V
Data taking stopped and we turn off the system to a safe state.
Initial analysis of the raw ADC spectra can be seen in attachment 4 & 5. |
| Attachment 1: Screenshot_from_2025-11-07_13-56-34.png
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| Attachment 2: Screenshot_from_2025-11-07_13-45-30.png
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| Attachment 3: Screenshot_from_2025-11-07_13-43-50.png
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| Attachment 4: Screenshot_2025-11-07_192947.png
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| Attachment 5: Screenshot_2025-11-07_193005.png
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742
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Fri Nov 7 10:47:29 2025 |
MP | 207Bi source test - data taking |
DAQ stopped at ~17.30 due to anydesk failure
> Restart AIDA
>
> aida06 took three attempts to boot today :(
>
> All system checks OK, ASICs aligned
>
> Run DAQ without merger - looks okay, all FEEs working
>
> When connecting to merger aida15 drops connection, solution restart merger
>
> Aida13 not sending data - do an ASIC check/load
>
> Finally all DAQs send data, merger is happy with all 16 FEEs
>
> Open run R6 on disk |
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741
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Thu Nov 6 12:58:09 2025 |
NH | 207Bi source test - data taking |
Restart AIDA
aida06 took three attempts to boot today :(
All system checks OK, ASICs aligned
Run DAQ without merger - looks okay, all FEEs working
When connecting to merger aida15 drops connection, solution restart merger
Aida13 not sending data - do an ASIC check/load
Finally all DAQs send data, merger is happy with all 16 FEEs
Open run R6 on disk |
| Attachment 1: Screenshot_from_2025-11-06_13-37-10.png
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| Attachment 2: Screenshot_from_2025-11-06_13-40-37.png
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| Attachment 3: Screenshot_from_2025-11-06_13-40-50.png
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| Attachment 4: Screenshot_from_2025-11-06_13-55-58.png
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| Attachment 5: Screenshot_from_2025-11-06_13-57-00.png
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| Attachment 6: Screenshot_from_2025-11-06_13-57-43.png
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740
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Wed Nov 5 13:23:38 2025 |
JB, MP | 207Bi source test - FWHM tests |
14:10 started up the DAQ. HV and TEMPS OK.
Peak threshold with 1V pulser measured at ~ 175 ADC channels. Attachment 3.
14:24 DAQ stopped and detector debiased. We are going to do the following:
1. Cover the snout with a black cloth to check if it is light tight!
2. Disconnect the detector signal cable from the FEE64 adaptor card of aida14.
We put a black cloth cover over the snout, but pulser peak width remained the same ~161 ADC channel. Attachment 4,5.
We disconnected the cable from aida14 and the FWHM pf the pulser is ~15 ADC channels (as expected)
Wrapped the snout with more copper tape at the point where the PCB ground makes contact with the snout to ensure better contact, this seems to improve the FWHM to ~95 ADC channels |
| Attachment 1: Screenshot_from_2025-11-05_14-05-24.png
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| Attachment 2: Screenshot_from_2025-11-05_14-05-14.png
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| Attachment 3: Screenshot_from_2025-11-05_14-22-57.png
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| Attachment 4: IMG_20251105_143017_hdr.jpg
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| Attachment 5: Screenshot_from_2025-11-05_14-46-44.png
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| Attachment 6: Screenshot_from_2025-11-05_15-20-45.png
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| Attachment 7: Screenshot_from_2025-11-05_15-37-47.png
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| Attachment 8: IMG_20251105_154023_hdr.jpg
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739
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Tue Nov 4 17:29:28 2025 |
MP | Bi207 source data, 700keV |
Anydesk has crashed. I am not able to set it up again. I switch off bias and fees
| Quote: |
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Some FEES were not acquiring data for some reason we could not understand. We lowered the thresholds to 200 keV, then rose them again to 700 keV. It seems they are now acquiring. We start data taking again.
| Quote: |
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- Bias and basic checks: the pulser FWHM appears to be ~170, which is the same we have obtained at the end of last week.
- Initialised the Merger and Tape server
- loading of settings: EXPERIMENTS/AIDA/2025Nov03-16.21.44
- slow comparator thresholds set to 700 keV for all X FEES
- y FEEs disabled in the discriminator
- Starting data taking with following details:
MIDAS data in: Bi207Centre_700
MBS data in /lustre/despec/aida_sourcetest_2025/raw started from lxg3138 on screen ('AIDAdaq')
We take data overnight in this configuration and continue the grounding checks tomorrow
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738
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Tue Nov 4 16:34:47 2025 |
MP, NH | Bi207 source data, 700keV |
Some FEES were not acquiring data for some reason we could not understand. We lowered the thresholds to 200 keV, then rose them again to 700 keV. It seems they are now acquiring. We start data taking again.
| Quote: |
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- Bias and basic checks: the pulser FWHM appears to be ~170, which is the same we have obtained at the end of last week.
- Initialised the Merger and Tape server
- loading of settings: EXPERIMENTS/AIDA/2025Nov03-16.21.44
- slow comparator thresholds set to 700 keV for all X FEES
- y FEEs disabled in the discriminator
- Starting data taking with following details:
MIDAS data in: Bi207Centre_700
MBS data in /lustre/despec/aida_sourcetest_2025/raw started from lxg3138 on screen ('AIDAdaq')
We take data overnight in this configuration and continue the grounding checks tomorrow
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737
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Tue Nov 4 14:57:19 2025 |
MP | Bi207 source data, 700keV |
- Bias and basic checks: the pulser FWHM appears to be ~170, which is the same we have obtained at the end of last week.
- Initialised the Merger and Tape server
- loading of settings: EXPERIMENTS/AIDA/2025Nov03-16.21.44
- slow comparator thresholds set to 700 keV for all X FEES
- y FEEs disabled in the discriminator
- Starting data taking with following details:
MIDAS data in: Bi207Centre_700
MBS data in /lustre/despec/aida_sourcetest_2025/raw started from lxg3138 on screen ('AIDAdaq')
We take data overnight in this configuration and continue the grounding checks tomorrow |
| Attachment 1: Screenshot_from_2025-11-04_15-49-20.png
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| Attachment 2: Screenshot_from_2025-11-04_15-33-11.png
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| Attachment 3: Screenshot_from_2025-11-04_15-28-42.png
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| Attachment 4: Screenshot_from_2025-11-04_15-28-35.png
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736
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Thu Oct 30 16:43:36 2025 |
MP, NH | Setup and data taking with 207Bi |
Data taking and DAQ stopped now (17.40)
| Quote: |
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- Initialised the Merger and Tape server
- loading of settings: EXPERIMENTS/AIDA/2025Oct29-16.11.06
- aida16 very noisy (attachments 3,4), slow comparator thresholds was risen to 500 keV, until reducing its deadtime to 0
- y FEEs disabled in the discriminator (example in attachment 5)
- Starting data taking with following details:
MIDAS data in: Bi207Centre
MBS data in /lustre/despec/aida_sourcetest_2025/raw started from lxg3138 on screen ('AIDAdaq')
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735
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Thu Oct 30 10:06:21 2025 |
MP, NH | Setup and data taking with 207Bi |
- Initialised the Merger and Tape server
- loading of settings: EXPERIMENTS/AIDA/2025Oct29-16.11.06
- aida16 very noisy (attachments 3,4), slow comparator thresholds was risen to 500 keV, until reducing its deadtime to 0
- y FEEs disabled in the discriminator (example in attachment 5)
- Starting data taking with following details:
MIDAS data in: Bi207Centre
MBS data in /lustre/despec/aida_sourcetest_2025/raw started from lxg3138 on screen ('AIDAdaq') |
| Attachment 1: Screenshot_from_2025-10-30_11-07-55.png
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| Attachment 2: Screenshot_from_2025-10-30_11-07-39.png
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| Attachment 3: Screenshot_from_2025-10-30_11-07-29.png
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| Attachment 4: Screenshot_from_2025-10-30_11-08-07.png
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| Attachment 5: Screenshot_from_2025-10-30_11-10-06.png
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734
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Wed Oct 29 14:11:01 2025 |
JB, MP | 207Bi source test - data taking |
15:10 MP entered and check the water pressure OK.
15:10 DSSSDs biased - OK.
The plan from https://elog.ph.ed.ac.uk/DESPEC/719
- Energy distribution in x and y for ADC items and cluster
- The cluster size from conversion electrons
- ADC offsets with the 207Bi source after performing a pulser walkthrough
- Threshold test /w a 207Bi source - varying the threshold as while the source is in place and seeing when the 207Bi peaks are cut off.
- Background run without the 207Bi source (after the above tests)
- Possible test with a 152Eu source as well to measure conversion electrons from Eu could also be an option but we would need to discuss how to do this since all the 152Eu source are closed. We could possibly measure the compton edge from this
data.
Currently the n+n ohmic channels are too noisy to be used for the test. So we will disable their readout for the data taking.
All system wide checks passed. ADC calibration not (but we don't care since we aren't looking at waveforms... for now...).
TEMPS OK. Attachment 2.
We loaded the settings from 2025Oct28-14.55.15 which has blanket thresholds of 0x64 (1 MeV) for all the ASICs.
The pulser peaks seem to have gotten wider since yesterday (75 channels). We have now measured a peak width of 167 channels in aida14 (!) (attachment 3). This was only after tightening the grounding of the setup and disabling the y FEEs. Rates in the ohmic FEEs appear to have decreased by a whole order of magnitude excl. aida02 (see attachment 4).
Currently, we have the ohmic FEE64s disabled aida02,04,06,08, in the discriminator channel mask value set 0x0 ---> 0xfffffff.
15:47 We lower the thresholds to 200 keV (2025Oct29-09.55.31)to see how the system responds and what the rates are.
15:54 We see a 207Bi spectrum cleanly ontop of the FEE64s over which the source is place (aida01,aida14,aida03,aida07). Attachment 6. (For comparison the 207Bi spectrum obtained by Oscar Hall in the AIDA NIM paper Attachment 7).
- A quick observation is that the low energy peak around 400 keV is slightly cut off in some of the FEEs (this could suggest that the operating threshold might be slightly different in some of the FEEs).
16:00 Setting up the merger. EXPERIMENTS/AIDA/2025Oct29-16.11.06 setting made for the discriminators mask setting for the y FEEs disabled.
To the reader of this elog: By now it has taken over an hour to start up the DAQ... We give up and will try tomorrow morning |
| Attachment 1: Screenshot_from_2025-10-29_15-09-11.png
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| Attachment 2: Screenshot_from_2025-10-29_15-27-50.png
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| Attachment 3: Screenshot_from_2025-10-29_15-41-53.png
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| Attachment 4: Screenshot_from_2025-10-29_15-34-12.png
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| Attachment 5: Screenshot_from_2025-10-29_15-33-15.png
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| Attachment 6: Screenshot_from_2025-10-29_15-51-38.png
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| Attachment 7: Screenshot_2025-10-29_at_15-53-02_The_Advanced_Implantation_Detector_Array_(AIDA)_-_220923_AIDA_NIM_23Sept2022_pdf.png
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_-_220923_AIDA_NIM_23Sept2022_pdf.png.png "Screenshot_2025-10-29_at_15-53-02_The_Advanced_Implantation_Detector_Array_(AIDA)_-_220923_AIDA_NIM_23Sept2022_pdf.png")
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733
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Wed Oct 29 13:39:13 2025 |
TD | AIDA FEE64 adaptor PCB to AIDA DSSSD cabling |
The cables from the AIDA FEE64 adaptor PCB to the MSL type BB18 DSSSDs are constructed as follows
Per FEE64
2x Samtec FFSD-17-D-xx-01-N-SR where xx is the cable length in inches
along length if ribbon cable Al-plated copper braid drain wire with crimped eyelets to be connected to AIDA FEE64 adaptor PCB
ribbon cables completely wrapped by inner layer of 3M 1245 copper tape (https://docs.rs-online.com/55e0/0900766b814784d5.pdf) and outer layer of 3M 5413 polyimide
tape
(https://docs.rs-online.com/2bce/A700000007254120.pdf)
1x Kapton PCB 15cm length, no screen
transitions from 2x 34-way FTSH-134-?-L-DV-?-?-? headers to Samtec CLP-134-02-L-D connector, minimal additional material in volume around DSSSDs
Samtec information
https://suddendocs.samtec.com/catalog_english/ftsh_smt.pdf?
_gl=1*e176m0*_gcl_au*NDgyMDE2NjE1LjE3NjQyNjkxNTg.*_ga*ODU1NjkwNjU3LjE3NjQyNjkxNTg.*_ga_3KFNZC07WW*czE3NjQyNzUzOTckbzIkZzAkdDE3NjQyNzUzOTgkajU5JGwwJGgzMTY2ODMzMTQ.
https://www.samtec.com/products/ffsd-17-d-17.70-01-n
https://suddendocs.samtec.com/catalog_english/ffsd.pdf?
_gl=1*1lx9fag*_gcl_au*NDgyMDE2NjE1LjE3NjQyNjkxNTg.*_ga*ODU1NjkwNjU3LjE3NjQyNjkxNTg.*_ga_3KFNZC07WW*czE3NjQyNjkxNTckbzEkZzEkdDE3NjQyNjkzNDkkajYwJGwwJGgyMDA0NTk5MDI2
NOTE - we use FFSD-...-SR cables i.e. with strain relief
https://www.samtec.com/products/clp-134-02-l-d#catalog
https://suddendocs.samtec.com/catalog_english/clp_sm.pdf?
_gl=1*16r7foj*_gcl_au*NDgyMDE2NjE1LjE3NjQyNjkxNTg.*_ga*ODU1NjkwNjU3LjE3NjQyNjkxNTg.*_ga_3KFNZC07WW*czE3NjQyNjkxNTckbzEkZzAkdDE3NjQyNjkxNTckajYwJGwwJGgyMDA0NTk5MDI2
MSL type BB18 DSSSD pin assignments
https://www2.ph.ed.ac.uk/~td/AIDA/Information/C-2299.jpg
https://www2.ph.ed.ac.uk/~td/AIDA/Information/C-2300.jpg
https://www2.ph.ed.ac.uk/~td/AIDA/Information/C-2306.jpg
NOTE - G/R = detector bias ring
Hamamatsu 10mm x 10mm x 0.3mm PIN PDs
https://www.hamamatsu.com/content/dam/hamamatsu-photonics/sites/documents/99_SALES_LIBRARY/ssd/s3590-08_etc_kpin1052e.pdf |
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732
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Wed Oct 29 13:01:08 2025 |
NH | Update of AnyDesk |
AnyDesk was updated to the latest version that supports CentOS 7 (EOL OS)
First the YUM repositories were migrated, as the original address was offline due to EOL
# mv yum.repos.d yum.repos.d_old
# git clone https://github.com/tkne/centos-7-repo.git yum.repos.d
The OS was updated and a needed package was installed:
# yum update-minimal
# yum install gtkglext-libs
Finally AnyDesk was downloaded:
# https_proxy=http://proxy.gsi.de:3128 wget https://download.anydesk.com/linux/anydesk-6.3.3-1.el7.x86_64.rpm
# yum install anydesk-6.3.3-1.el7.x86_64.rpm
Note that later versions (such anydesk 6.4 or 7.0) refuse to install as CentOS 7 has too old a GLIBC
The only "fix" I observe is upgrading to a supported edition such as AlmaLinux (as used by CERN)
This would need to be coordinated with STFC |
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|
731
|
Wed Oct 29 12:56:29 2025 |
TD | Further setup for 207Bi test |
Remember that 'ADC calibration' refers to the setup of the fast serial output of the AD9222 Octal, 50MSPS, 14 bit ADC which generates the waveforms - if the FEE64 is unable to calibrate all that happens is that you will not be able to see preamp output waveforms. Energy spectra will work regardless as they use a different ADC.
| Quote: |
|
Inspection of side FEEs (2,6,4,8) and possible grounding improvements:
- all screws and nuts for copper connections were tightenedFee
- FEE 6 was isolated from the copper connection grounding FEE2 with insulating tape (attachment 1)
- A piece of tape was found below FEE6 (attachments 2,3) --> shall this be removed?
Bias and power on of FEES, preparation of two settings with lower thresholds:
- note: cannot calibrate ADC of aida15 even after trying multiple times (?)
- 500-keV thresholds settings saved as EXPERIMENTS/AIDA/2025Oct29-09.49.01
- 200-keV thresholds settings saved as EXPERIMENTS/AIDA/2025Oct29-09.55.31
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730
|
Wed Oct 29 08:12:35 2025 |
MP | Further setup for 207Bi test |
Inspection of side FEEs (2,6,4,8) and possible grounding improvements:
- all screws and nuts for copper connections were tightenedFee
- FEE 6 was isolated from the copper connection grounding FEE2 with insulating tape (attachment 1)
- A piece of tape was found below FEE6 (attachments 2,3) --> shall this be removed?
Bias and power on of FEES, preparation of two settings with lower thresholds:
- note: cannot calibrate ADC of aida15 even after trying multiple times (?)
- 500-keV thresholds settings saved as EXPERIMENTS/AIDA/2025Oct29-09.49.01
- 200-keV thresholds settings saved as EXPERIMENTS/AIDA/2025Oct29-09.55.31
|
| Attachment 1: IMG_5959.jpeg
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| Attachment 2: IMG_5958.jpeg
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| Attachment 3: IMG_5957.jpeg
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| Attachment 4: Screenshot_from_2025-10-29_09-23-32.png
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| Attachment 5: Screenshot_from_2025-10-29_09-32-52.png
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729
|
Tue Oct 28 12:43:38 2025 |
JB, GB, MP, AM | Further setup of tests for 207Bi test |
- Ch 2 and 3 of CAEN HV module changed to negative polarity, Ch 0,1 still with positive polarity
- Bias changed from the n+n to the p+n side (now Ch 2,3) - att. 1
- EXPERIMENTS/AIDA/2025Oct28-14.55.15 -> Slow comparitor -> 0x64 (1MeV) p+n Pos. bias & n+n Neg. bias
- Attachment 7: aida01 had its threshold lowered to 500 keV -> Rate increased from 500 to 6500 Hz
- Pulser inputs plugged in.
We have input a 1V pulser input into the data and have measured a peak in aida01 with a FWHM = 75 channel see attachment 9 and a FWHM in aida 14 (DSSD2) of also 76 channels which is similar to the results obtained in June from Nabil.
We cannot see anything from the n+n side as the signals are too noisy. Probably best to go with a higher trigger rate on the pulser and check with log scale tomorrow. It might also be worth checking the grounding on the y-strips as the problem with biasing with positive polarity is still seen in aida02 and aida04 (high noise repetition0 signal, attachment 2).
Conclusion is that we have reproduced in part the result from Nabil.
Tomorrow we will continue with the tests by lowering the thresholds and hopefully collect some data :-) |
| Attachment 1: Screenshot_from_2025-10-28_14-28-30.png
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| Attachment 2: Screenshot_from_2025-10-28_15-12-27.png
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| Attachment 3: Screenshot_from_2025-10-28_15-10-42.png
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| Attachment 4: Screenshot_from_2025-10-28_15-09-59.png
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| Attachment 5: Screenshot_from_2025-10-28_15-08-24.png
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| Attachment 6: Screenshot_from_2025-10-28_15-08-02.png
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| Attachment 7: Screenshot_from_2025-10-28_15-15-31.png
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| Attachment 8: Screenshot_from_2025-10-28_15-49-20.png
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| Attachment 9: Screenshot_from_2025-10-28_15-47-44.png
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| Attachment 10: Screenshot_from_2025-10-28_15-45-44.png
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| Attachment 11: Screenshot_from_2025-10-28_15-37-13.png
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| Attachment 12: Screenshot_from_2025-10-28_15-31-20.png
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| Attachment 13: Screenshot_from_2025-10-28_15-50-19.png
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| Attachment 14: AIDA_scheme_241020525(1).png
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.png.png "AIDA_scheme_241020525(1).png")
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728
|
Mon Oct 27 18:08:11 2025 |
TD | Changing ground setup from 25102025 |
19.06 Found HV OFF, DAQ GOing
DAQ STOP
FEE64 power OFF
> 12:55 We are going to try the follow changes to the AIDA scheme of 241012025.
>
> - Fitting LK1 (aida01, aida14), removing LK1 (aida03, aida07, aida11, aida15) - only 1x LK1 needs to be fitted per Si wafer
> - Removing LK4 to see what (if anything) changes.
>
> Check that all of the screws securing the copper foil to ground are tight - snout install/removal tends to loosen screws.
>
> - Remove the bias line between aidas 12-3-15 and aidas 16-7-11
> - Remove the test circuit
> (These two should eliminate any extra ground path on the front, except via the DSSD)
>
> - Use a multimeter to confirm 0 Ohm between all the copper foils (short the two probes to correct for resistance of the probe leads)
>
> - Try combinations of LK2/LK4 on the n+n fees
>
> 13:01 We check first the grounding with a multimeter and the different copper grounding components. They should all be grounded to the large iron frame, which is in
turn grounded to the platform. We also checked that the CAEN HV PSU was also grounded to the platform (it is).
>
> 13:22 We removed the LK on aida03, aida07, aida11, aida15 and added LK1 to aida01 and aida14. We try starting the DAQ and seeing the response from these changes.
>
> 13:25 We tried biasing with this configuration and the first DSSD on HV01 read a leakage current of 40 uA (too high). So we biased it down and reassessed.
>
> 13:30 It turns out we had LK1 fitted to aida04. We tried biasing again but this time DSSSD on HV01 tripped. They are fitted with LK4 so we biased down and removed
these link on aida06 and aida08.
>
> 13:35 Trying to bias now with LK4 removed from aida06 and aida08. We tried fitting and removing again. Now the setup appears to bias. This was probably due to a stray
piece of copper shielding touching the PCB.
>
> 14:22 We are checking the noise conditions now. TEMPS OK. FADC Align and whiterabbit timestamps OK.
>
> 14:30 With the changes above we have noticed an intense 5/2 ms pulsed signal in the wave forms. See attachment 2
>
> 15:20 We decabled everything and the current scheme from 24102025, see prev. elog entry is in attachment 1.
>
> 15:34 We have unbiased AIDA1 and the wave forms improve for AIDA2 (?), 5/2 ms pulsed signal is still observed in AIDA1 |
|
|
727
|
Mon Oct 27 11:55:00 2025 |
JB, MP, GB, NH | Changing ground setup from 25102025 |
12:55 We are going to try the follow changes to the AIDA scheme of 241012025.
- Fitting LK1 (aida01, aida14), removing LK1 (aida03, aida07, aida11, aida15) - only 1x LK1 needs to be fitted per Si wafer
- Removing LK4 to see what (if anything) changes.
Check that all of the screws securing the copper foil to ground are tight - snout install/removal tends to loosen screws.
- Remove the bias line between aidas 12-3-15 and aidas 16-7-11
- Remove the test circuit
(These two should eliminate any extra ground path on the front, except via the DSSD)
- Use a multimeter to confirm 0 Ohm between all the copper foils (short the two probes to correct for resistance of the probe leads)
- Try combinations of LK2/LK4 on the n+n fees
13:01 We check first the grounding with a multimeter and the different copper grounding components. They should all be grounded to the large iron frame, which is in turn grounded to the platform. We also checked that the CAEN HV PSU was also grounded to the platform (it is).
13:22 We removed the LK on aida03, aida07, aida11, aida15 and added LK1 to aida01 and aida14. We try starting the DAQ and seeing the response from these changes.
13:25 We tried biasing with this configuration and the first DSSD on HV01 read a leakage current of 40 uA (too high). So we biased it down and reassessed.
13:30 It turns out we had LK1 fitted to aida04. We tried biasing again but this time DSSSD on HV01 tripped. They are fitted with LK4 so we biased down and removed these link on aida06 and aida08.
13:35 Trying to bias now with LK4 removed from aida06 and aida08. We tried fitting and removing again. Now the setup appears to bias. This was probably due to a stray piece of copper shielding touching the PCB.
14:22 We are checking the noise conditions now. TEMPS OK. FADC Align and whiterabbit timestamps OK.
14:30 With the changes above we have noticed an intense 5/2 ms pulsed signal in the wave forms. See attachment 2
15:20 We decabled everything and the current scheme from 24102025, see prev. elog entry is in attachment 1.
15:34 We have unbiased AIDA1 and the wave forms improve for AIDA2 (?), 5/2 ms pulsed signal is still observed in AIDA1 |
| Attachment 1: AIDA_scheme_241020525(1).png
|
.png.png "AIDA_scheme_241020525(1).png")
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| Attachment 2: Screenshot_from_2025-10-27_15-28-21.png
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| Attachment 3: Screenshot_from_2025-10-27_14-44-36.png
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| Attachment 4: Screenshot_from_2025-10-27_14-42-57.png
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| Attachment 5: Screenshot_from_2025-10-27_14-38-24.png
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| Attachment 6: Screenshot_from_2025-10-27_14-37-50.png
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| Attachment 7: Screenshot_from_2025-10-27_14-26-41.png
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| Attachment 8: Screenshot_from_2025-10-27_14-26-28.png
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| Attachment 9: Screenshot_from_2025-10-27_15-34-01.png
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726
|
Sun Oct 26 16:22:38 2025 |
TD | [How To] Check ASIC settings |
tcsh
cd /MIDAS/DB/EXPERIMENTS/AIDA/<ASIC settings DB key>
foreach f (`ls`)
echo $
cat "$f"/CONTENTS | grep .<ASIC parameter #>
Example
ASIC settings DB key = /MIDAS/DB/EXPERIMENTS/AIDA/2025Feb24-17.14.52
ASIC slow comparator parameter = 12
[npg@aidas-gsi 2025Feb24-17.14.52]$ tcsh
[npg@aidas-gsi 2025Feb24-17.14.52]$ cd /MIDAS/DB/EXPERIMENTS/AIDA/2025Feb24-17.14.52
[npg@aidas-gsi 2025Feb24-17.14.52]$ foreach f (`ls`)
foreach? echo $f
foreach? cat "$f"/CONTENTS | grep .12
foreach? end
aida01
ASIC.3.12 string 0x0a
ASIC.1.12 string 0x0a
ASIC.4.12 string 0x0a
ASIC.2.12 string 0x0a
aida02
ASIC.3.12 string 0x0f
ASIC.1.12 string 0x0f
ASIC.4.12 string 0x0f
ASIC.2.12 string 0x0f
aida03
ASIC.3.12 string 0x0a
ASIC.1.12 string 0x0a
ASIC.4.12 string 0x0a
ASIC.2.12 string 0x0a
aida04
ASIC.3.12 string 0x0f
ASIC.1.12 string 0x0f
ASIC.4.12 string 0x0f
ASIC.2.12 string 0x0f
aida05
ASIC.3.12 string 0x0a
ASIC.1.12 string 0x0a
ASIC.4.12 string 0x0a
ASIC.2.12 string 0x0a
aida06
ASIC.3.12 string 0xff
ASIC.1.12 string 0xff
ASIC.4.12 string 0xff
ASIC.2.12 string 0xff
aida07
ASIC.3.12 string 0xff
ASIC.1.12 string 0xff
ASIC.4.12 string 0xff
ASIC.2.12 string 0xff
aida08
ASIC.3.12 string 0xff
ASIC.1.12 string 0xff
ASIC.4.12 string 0xff
ASIC.2.12 string 0xff
aida09
ASIC.3.12 string 0x0a
ASIC.1.12 string 0x0a
ASIC.4.12 string 0x0a
ASIC.2.12 string 0x0a
aida10
ASIC.3.12 string 0x0f
ASIC.1.12 string 0x0a
ASIC.4.12 string 0x0f
ASIC.2.12 string 0x0a
aida11
ASIC.3.12 string 0xff
ASIC.1.12 string 0xff
ASIC.4.12 string 0xff
ASIC.2.12 string 0xff
aida12
ASIC.3.12 string 0x0a
ASIC.1.12 string 0x0a
ASIC.4.12 string 0x0a
ASIC.2.12 string 0x0a
aida13
ASIC.3.12 string 0xff
ASIC.1.12 string 0xff
ASIC.4.12 string 0xff
ASIC.2.12 string 0xff
aida14
ASIC.3.12 string 0xff
ASIC.1.12 string 0xff
ASIC.4.12 string 0xff
ASIC.2.12 string 0xff
aida15
ASIC.3.12 string 0x0a
ASIC.1.12 string 0x0a
ASIC.4.12 string 0x0a
ASIC.2.12 string 0x0a
aida16
ASIC.3.12 string 0xff
ASIC.1.12 string 0xff
ASIC.4.12 string 0xff
ASIC.2.12 string 0xff
CONTENTS
cat: CONTENTS/CONTENTS: Not a directory
Recommend saving (and recording ASIC settings DB key) with specific slow comparator settings which can be subsequently restored.
For example
- slow comparator p+n FEE64s 0xa, n+n FEE64s 0xf
- all slow comparators 0x64
etc |
|
|
725
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Fri Oct 24 14:33:37 2025 |
JB, GB, MP, AM | Snout grounding, bias and test input layout as of 24.10.2025 |
|
| Attachment 1: AIDA_scheme_241020525(2).pdf
|
-0.png "AIDA_scheme_241020525(2).pdf")
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|
|
724
|
Fri Oct 24 12:29:02 2025 |
JB, GB, MP, AM, NH | 207Bi source threshold tests |
> > >
> > > We have dismounted the AIDA stack and bPlast and realigned the cables so that they can fit into the adapters.
> > >
> > > The plan for the next couple days is the following:
> > >
> > > - Alignment -- done
> > > - Remount cable -- done
> > > - Fix position w/o bPlast mounted -- done
> > > - Remount bracket for the last stage -- done
> > > - Remount AIDA 1 & 2 and the 207Bi source with the source holder -- done
> > > - Mount the snout and take data -- we wait till next week Monday when the heat exchanger is active again. (ongoing)
> > >
> > > The current setup at the end of work is that the snout is mount with a bPlast (uncabled) and 2 AIDA layers at the regular spaced position with a 207Bi source down stream, as can be seen in the previous elog. The source is ~1 cm away from the middle AIDA wafer.
> > >
> > > Currently what is cabled:
> > >
> > > - Signal out from the detector
> > > - Bias daisy chain
> > >
> > > Still to be cabled:
> > >
> > > - HV cable
> > > - Grounding
> > > - Pulser
> > >
> > > Additional info on the source position:
> > > - the source is at ~9.6 mm distance from the downstream detector
> > > - the source is placed at the centre of the middle wafer: 12.25 cm in x, 4.75 cm in y
> > > - the radius of the source is ~1.5 mm
> >
> > The Messhuette has been cleaned and equipment has been rearranged. If there are any broken or missing components be sure to follow up with the FRS group (as I believe they have been cleaning here).
> >
> > We are resuming the work on the source measurements as the cooling water is back. Some of the valves still look closed so we are investigating if the water is flowing to the setup.
> >
> > 14:31 Temperature on start up OK - attachment 2.
> >
> > 15:41 We reset the ASIC control registers to a setup used in Feb 2024 (2025Feb24-17.14.52) to match the full AIDA setup (it was using BB7 initially in aida10).
> >
> > The old bias scheme is obsolete and the bias is now done via the Ohmic side.
> >
> > 16:47 We have look at some initial spectra with the 207Bi 3-8 shows the ADC channels and waveforms of the n+n and p+n sides. Bias and grounding developed by Nabiel have been done.
> >
> > We are going to wait for the system to stabilise over night so that we start taking data tomorrow. Then we can analyse the results and see what we get :) Some channels are clearly broken which can be seen in the waveforms eg. aida16.
>
> 11:31 The detector was turned off last night to put it into a safe state. We return to make some comparison of the noise w.r.t the tests performed by Nabil and co.
>
> email snippet:
>
> "
> I would suggest that you first quantify current noise performance (slow comparators -> 0x64 to reduce rate, measure pulser peak width) for each FEE64 (use layouts 3 and 4) and compare to Nabil's most recent test results. Looking at last night's 1.8.W spectra I would assume that they would be significantly worse but best to check.
>
> I would then suggest you carefully check
>
> Grounding configuration (both internal and external to the snout) used Nabil's most recent tests has actually been re-established
> Grounding of the bPlas cabling
> "
>
> We are going to restart the DAQ and set the LEC thresholds to 0x64 and compare the peak FWHM with a pulser.
>
> 11:50 We started up the DAQ temps and bias look OK.
>
> 12:00 We set the thresholds on each ASIC in the slow comparator LEC to 0x64. This should correspond to a high threshold. For some reason the y-strips are still noisy (wrong polarity in the register ?)
13:28 we returned after a hearty lunch. When turning on the FEE64s we noticed that the bias of the CAEN to the detector increases by 0.3 V.
We rebiased and set the thresholds in one FEE64 aida02 to 0xff (very high, attachment 2) and the detector is still reading about 100 kHz ADC items. When the threshold was set to 0x64 it was 360 kHz (attachment 4).
We bias down the system to cross-check the cabling etc. |
| Attachment 1: Screenshot_from_2025-10-24_13-52-42.png
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| Attachment 2: Screenshot_from_2025-10-24_13-53-05.png
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| Attachment 3: Screenshot_from_2025-10-24_14-08-56.png
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| Attachment 4: Screenshot_from_2025-10-24_14-08-52.png
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| Attachment 5: IMG_5919.jpeg
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| Attachment 6: IMG_5918.jpeg
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| Attachment 7: IMG_5917.jpeg
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| Attachment 8: IMG_5914.jpeg
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| Attachment 9: IMG_5913.jpeg
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| Attachment 10: IMG_5915.jpeg
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| Attachment 11: IMG_5916.jpeg
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723
|
Fri Oct 24 10:31:59 2025 |
JB, GB, MP, AM, NH | 207Bi source threshold tests |
> >
> > We have dismounted the AIDA stack and bPlast and realigned the cables so that they can fit into the adapters.
> >
> > The plan for the next couple days is the following:
> >
> > - Alignment -- done
> > - Remount cable -- done
> > - Fix position w/o bPlast mounted -- done
> > - Remount bracket for the last stage -- done
> > - Remount AIDA 1 & 2 and the 207Bi source with the source holder -- done
> > - Mount the snout and take data -- we wait till next week Monday when the heat exchanger is active again. (ongoing)
> >
> > The current setup at the end of work is that the snout is mount with a bPlast (uncabled) and 2 AIDA layers at the regular spaced position with a 207Bi source down stream, as can be seen in the previous elog. The source is ~1 cm away from the middle AIDA wafer.
> >
> > Currently what is cabled:
> >
> > - Signal out from the detector
> > - Bias daisy chain
> >
> > Still to be cabled:
> >
> > - HV cable
> > - Grounding
> > - Pulser
> >
> > Additional info on the source position:
> > - the source is at ~9.6 mm distance from the downstream detector
> > - the source is placed at the centre of the middle wafer: 12.25 cm in x, 4.75 cm in y
> > - the radius of the source is ~1.5 mm
>
> The Messhuette has been cleaned and equipment has been rearranged. If there are any broken or missing components be sure to follow up with the FRS group (as I believe they have been cleaning here).
>
> We are resuming the work on the source measurements as the cooling water is back. Some of the valves still look closed so we are investigating if the water is flowing to the setup.
>
> 14:31 Temperature on start up OK - attachment 2.
>
> 15:41 We reset the ASIC control registers to a setup used in Feb 2024 (2025Feb24-17.14.52) to match the full AIDA setup (it was using BB7 initially in aida10).
>
> The old bias scheme is obsolete and the bias is now done via the Ohmic side.
>
> 16:47 We have look at some initial spectra with the 207Bi 3-8 shows the ADC channels and waveforms of the n+n and p+n sides. Bias and grounding developed by Nabiel have been done.
>
> We are going to wait for the system to stabilise over night so that we start taking data tomorrow. Then we can analyse the results and see what we get :) Some channels are clearly broken which can be seen in the waveforms eg. aida16.
11:31 The detector was turned off last night to put it into a safe state. We return to make some comparison of the noise w.r.t the tests performed by Nabil and co.
email snippet:
"
I would suggest that you first quantify current noise performance (slow comparators -> 0x64 to reduce rate, measure pulser peak width) for each FEE64 (use layouts 3 and 4) and compare to Nabil's most recent test results. Looking at last night's 1.8.W spectra I would assume that they would be significantly worse but best to check.
I would then suggest you carefully check
Grounding configuration (both internal and external to the snout) used Nabil's most recent tests has actually been re-established
Grounding of the bPlas cabling
"
We are going to restart the DAQ and set the LEC thresholds to 0x64 and compare the peak FWHM with a pulser.
11:50 We started up the DAQ temps and bias look OK.
12:00 We set the thresholds on each ASIC in the slow comparator LEC to 0x64. This should correspond to a high threshold. For some reason the y-strips are still noisy (wrong polarity in the register ?) |
| Attachment 1: Screenshot_from_2025-10-24_11-56-06.png
|
|
| Attachment 2: Screenshot_from_2025-10-24_12-00-30.png
|
|
| Attachment 3: Screenshot_from_2025-10-24_11-59-35.png
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| Attachment 4: Screenshot_from_2025-10-24_11-55-02.png
|
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| Attachment 5: Screenshot_from_2025-10-24_11-54-09.png
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| Attachment 6: Screenshot_from_2025-10-24_11-53-59.png
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|
722
|
Thu Oct 23 18:45:12 2025 |
TD | Thursday 23 October 2025 |
19.45 Remote system check
DSSSD bias & leakage currents OK - attachment 1
FEE64 temperatures OK - attachment 2
aida02 ASIC temperature often reporting zero but sometimes a sensible value - presumably PT100 fault
ADC data item stats - attachment 3
all FEE64s at high/very high rates - only 3x of 16x FEE64s < 100k
ASIC settings per aida01-aida04
p+n FEE64s slow comparator 0xa, n+n FEE64s 0xf cf. 0x64 used for previous tests by Nabil?
per FEE64 Rate spectra - attachment 4
per FEE64 1.8.W spectra - 20us FSR - attachments 5-6
19.55 Switch to safe state (FEE64 power OFF, DSSSD HV OFF) overnight as appears to be unattended/not monitored overnight.
Tomorrow I would suggest resuming tests (using slow comparator 0x64) and checking per FEE64 pulser peak width for comparison with previous tests by Nabil. If
unable to reproduce previous tests (or previous AIDA performance) you will need to check setup/reduce noise to be able to perform measurements using the 207Bi source. |
| Attachment 1: Screenshot_from_2025-10-23_19-44-28.png
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| Attachment 2: Screenshot_from_2025-10-23_19-40-38.png
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| Attachment 6: Screenshot_from_2025-10-23_19-43-04.png
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721
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Thu Oct 23 12:22:31 2025 |
JB, GB, MP, AM, NH | 207Bi source threshold tests |
>
> We have dismounted the AIDA stack and bPlast and realigned the cables so that they can fit into the adapters.
>
> The plan for the next couple days is the following:
>
> - Alignment -- done
> - Remount cable -- done
> - Fix position w/o bPlast mounted -- done
> - Remount bracket for the last stage -- done
> - Remount AIDA 1 & 2 and the 207Bi source with the source holder -- done
> - Mount the snout and take data -- we wait till next week Monday when the heat exchanger is active again. (ongoing)
>
> The current setup at the end of work is that the snout is mount with a bPlast (uncabled) and 2 AIDA layers at the regular spaced position with a 207Bi source down stream, as can be seen in the previous elog. The source is ~1 cm away from the middle AIDA wafer.
>
> Currently what is cabled:
>
> - Signal out from the detector
> - Bias daisy chain
>
> Still to be cabled:
>
> - HV cable
> - Grounding
> - Pulser
>
> Additional info on the source position:
> - the source is at ~9.6 mm distance from the downstream detector
> - the source is placed at the centre of the middle wafer: 12.25 cm in x, 4.75 cm in y
> - the radius of the source is ~1.5 mm
The Messhuette has been cleaned and equipment has been rearranged. If there are any broken or missing components be sure to follow up with the FRS group (as I believe they have been cleaning here).
We are resuming the work on the source measurements as the cooling water is back. Some of the valves still look closed so we are investigating if the water is flowing to the setup.
14:31 Temperature on start up OK - attachment 2.
15:41 We reset the ASIC control registers to a setup used in Feb 2024 (2025Feb24-17.14.52) to match the full AIDA setup (it was using BB7 initially in aida10).
The old bias scheme is obsolete and the bias is now done via the Ohmic side.
16:47 We have look at some initial spectra with the 207Bi 3-8 shows the ADC channels and waveforms of the n+n and p+n sides. Bias and grounding developed by Nabiel have been done.
We are going to wait for the system to stabilise over night so that we start taking data tomorrow. Then we can analyse the results and see what we get :) Some channels are clearly broken which can be seen in the waveforms eg. aida16. |
| Attachment 1: IMG_20251023_132958.jpg
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| Attachment 2: Screenshot_from_2025-10-23_14-30-28.png
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720
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Wed Oct 15 09:41:24 2025 |
JB, GB, MP | 207Bi source threshold tests |
We have dismounted the AIDA stack and bPlast and realigned the cables so that they can fit into the adapters.
The plan for the next couple days is the following:
- Alignment -- done
- Remount cable -- done
- Fix position w/o bPlast mounted -- done
- Remount bracket for the last stage -- done
- Remount AIDA 1 & 2 and the 207Bi source with the source holder -- done
- Mount the snout and take data -- we wait till next week Monday when the heat exchanger is active again. (ongoing)
The current setup at the end of work is that the snout is mount with a bPlast (uncabled) and 2 AIDA layers at the regular spaced position with a 207Bi source down stream, as can be seen in the previous elog. The source is ~1 cm away from the middle AIDA wafer.
Currently what is cabled:
- Signal out from the detector
- Bias daisy chain
Still to be cabled:
- HV cable
- Grounding
- Pulser
Additional info on the source position:
- the source is at ~9.6 mm distance from the downstream detector
- the source is placed at the centre of the middle wafer: 12.25 cm in x, 4.75 cm in y
- the radius of the source is ~1.5 mm |
| Attachment 1: IMG_5796.jpg
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| Attachment 2: IMG_5797.jpg
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| Attachment 3: IMG_5798.jpg
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719
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Mon Oct 13 15:04:53 2025 |
JPB, NH, GB, MP | Dismount AIDA and realign the cables |
We have dismounted the AIDA stack and bPlast and realigned the cables so that they can fit into the adaptors.
The plan for the next couple days is the following:
- Alignment -- done
- Remount cable -- ongoing
- Fix position w/o bPlast mounted --
- Remount bracket for the last stage --
- Remount AIDA 1 & 2 and the 207Bi source with the source holder --
- Mount the snout and take data --
The tests we want to perform are the following:
- Energy distribution in x and y for ADC items and cluster
- The cluster size from conversion electrons
- ADC offsets with the 207Bi source after performing a pulser walkthrough
- Threshold test /w a 207Bi source - varying the threshold as while the source is in place and seeing when the 207Bi peaks are cut off.
- Background run without the 207Bi source (after the above tests)
- Possible test with a 152Eu source as well to measure conversion electrons from Eu could also be an option but we would need to discuss how to do this since all the 152Eu source are closed. We could possibly measure the compton edge from this
data. |
| Attachment 1: IMG_5778.jpeg
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| Attachment 2: IMG_5779.jpeg
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718
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Thu Jul 24 15:50:01 2025 |
CC, MP, NK | Check of BB7 impact |
HT of upstream AIDA from iseg, HT cable shielded, 100V, 17 uA. HT of downstream AIDA from CAEN, AIDA#0. Both channel 0 and 1 of CAEN are on, even though there is just one channel connected. DEGAS platform closed. The crates of BB7 and bplast have been put to the ground of the AIDA's structure (cupper sheet)
Attachment 1: TEST1: BB7 fully connected = 2 tiles of BB7 have been connected to the mesytec preamps. BB7 is not biased. The mesytec preamps have been fully connected and supplied but 6/8 black cables are not connected on the other side. 4X and 4Y are connected to the 2 FEBEX cards. The cables of BB7 right between the snout and the preamps are shielded.
AIDA05.1.8L --> FWHM 76-80 channels
Attachment 2: TEST2: BB7 fully disconnected
AIDA05.1.8L --> FWHM 71 channels
Attachment 3: TEST3: BB7 fully disconnected, TAMEX crate unbiased, BB7 NIM crate turned off
AIDA05.1.8L --> FWHM 67 channels
Attachment 4: AIDA01.1.0 --> FWHM 171 channels --> same detector, also biased with iseg but bad results |
| Attachment 1: Screenshot_from_2025-07-24_16-49-27.png
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| Attachment 2: Screenshot_from_2025-07-24_17-03-44.png
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| Attachment 3: Screenshot_from_2025-07-24_17-22-49.png
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| Attachment 4: Screenshot_from_2025-07-24_17-29-38.png
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717
|
Thu Jul 24 13:36:34 2025 |
CC, MP, NK | AIDA05 connected and disconnected compared to AIDA09 |
HT cable shielded, HT of upstream AIDA from iseg, HT of downstream AIDA from CAEN. Both channel 0 and 1 of CAEN are on, even though there is just one channel connected. During this test, some parallele tests are being done on BB7 Mesytec. In general, middle tile: detector disconnected from preamps but preamps connected on the other side. Right tile: detector connected to preamps, cable shielded but preamps disconnected on the other side (supplied, one output is plugged). Those conditions may have changed during the test. The BB7 and bplast crates are also being connected to the cupper sheet of AIDA's structure to be grounded, the carton pieces under the crates have been removed.
AIDA05 connected, HT 0V
Attachment 1: AIDA05.1.8L --> FWHM 1907 channels
Attachment 2: AIDA09.1.9L --> FWHM 1467 channels
AIDA05 connected, HT 100V
Attachment 3: AIDA05.1.8L --> FWHM 74 channels
Attachment 4: AIDA09.1.8L --> FWHM 79 channels
Attachment 5: AIDA13.1.8L --> FWHM 250 channels
AIDA05 disconnected, HT 0V (cable between the detector and the adaptor board)
Attachment 6: AIDA05.1.8L --> FWHM 16 channels
AIDA05 disconnected, HT 100V
Attachment 7: AIDA05.1.8L --> FWHM 16 channels
Attachment 8: AIDA09.1.8L --> FWHM 87 channels
Attachment 9: AIDA13.1.8L --> FWHM 234 channels
Attachment 10: AIDA12.1.8L --> FWHM 116 channels (bplast cable side disconnected) to be compared to 117 channels (screenshot forgotten to be saved but tags left 21600 and 21171) --> no effect |
| Attachment 1: Screenshot_from_2025-07-24_14-48-38.png
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| Attachment 2: Screenshot_from_2025-07-24_14-49-27.png
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| Attachment 5: Screenshot_from_2025-07-24_15-08-24.png
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| Attachment 6: Screenshot_from_2025-07-24_15-16-48.png
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| Attachment 8: Screenshot_from_2025-07-24_15-28-48.png
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| Attachment 9: Screenshot_from_2025-07-24_15-29-52.png
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| Attachment 10: Screenshot_from_2025-07-24_15-50-57.png
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716
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Thu Jul 24 10:28:04 2025 |
CC, NK, MP | Comparison of channels in the same FEE64 and ASIC 05.1 and with AIDA13.1.8L |
BB7 is still connected but not biased (same configuration as the previous elog). The channel of the CAEN power supply #0 is connected to ASIC08 and biased at 100V. The channel of the CAEN power supply #1 is disconnected but still biased at 100V. AIDA04 (chained to AIDA05) is biased via an unshielded cable to an iseg NHQ 246L power supplied, biased at 100 V with 15 uA.
All the outside drain wires of bplast are now taped to the snout.
The red markers of the cursors of the previous test have been left for ease of comparison.
Attachment 1: AIDA05.1.8L --> FWHM 67 channels
Attachment 2: AIDA05.1.1L --> FWHM 69 channels
Attachment 3: AIDA05.1.4L --> FWHM 79 channels
Attachment 4: AIDA05.1.12L --> FWHM 79 channels
Attachment 5: AIDA05.1.15L --> FWHM 79 channels
Attachment 6: AIDA13.1.8L --> FWHM 236 channels, chosen because same place than AIDA05 but for the dowstream detector that is still biased with the CAEN module
Attachment 7: AIDA12.1.8L --> FWHM 91 channels, chosen because same place than AIDA05 but of the bottom of upstream detector that is still biased with the iseg module
Attachment 8: AIDA16.1.8L --> FWHM 143 channels, chosen because same place than AIDA05 of the bottom of dowstream detector that is still biased with the CAEN module. This curve has 2 humps |
| Attachment 1: Screenshot_from_2025-07-24_14-17-04.png
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| Attachment 2: Screenshot_from_2025-07-24_14-18-32.png
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| Attachment 8: Screenshot_from_2025-07-24_14-28-44.png
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715
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Wed Jul 23 17:02:22 2025 |
CC, NK | Comparison of channels in the same FEE64 and ASIC 05.1 and with AIDA13.1.8L |
BB7 is still connected but not biased (same configuration as the previous elog). The channel of the CAEN power supply #0 is connected to ASIC08 and biased at 100V. The channel of the CAEN power supply #1 is disconnected but still biased at 100V. AIDA04 (chained to AIDA05) is biased via a shielded cable to an iseg NHQ 246L power supplied, biased at 101 V with 16 uA.
All the outside drain wires of bplast are now taped to the snout.
Attachment 1: AIDA05.1.8L --> FWHM 60 channels
Attachment 2: AIDA05.1.1L --> FWHM 51 channels
Attachment 3: AIDA05.1.4L --> FWHM 57 channels
Attachment 4: AIDA05.1.12L --> FWHM 65 channels
Attachment 5: AIDA05.1.15L --> FWHM 69 channels
Attachment 6: AIDA13.1.8L --> FWHM 277 channels, chosen because same place than AIDA05 but for the dowstream detector that is still biased with the CAEN module
Attachment 7: AIDA12.1.8L --> FWHM 88 channels, chosen because same place than AIDA05 but of the bottom of upstream detector that is still biased with the iseg module
Attachment 8: AIDA16.1.8L --> FWHM 133 channels, chosen because same place than AIDA05 of the bottom of dowstream detector that is still biased with the CAEN module. This curve has 2 humps |
| Attachment 1: Screenshot_from_2025-07-23_18-04-44.png
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| Attachment 2: Screenshot_from_2025-07-23_18-00-06.png
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| Attachment 5: Screenshot_from_2025-07-23_17-57-31.png
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| Attachment 6: Screenshot_from_2025-07-23_18-01-57.png
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| Attachment 8: Screenshot_from_2025-07-23_18-22-18.png
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714
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Wed Jul 23 15:56:00 2025 |
CC, MP, NK | Test of AIDA05 with new bias module |
Attachment1: AIDA05.1.8L when AIDA05 connected, biased at 101 V with shielded cables. BB7 is still connected but not biased (same configuration as the previous elog). The channel of the CAEN power supply #0 is connected to ASIC08 and biased at 100V. The channel of the CAEN power supply #1 is disconnected but still biased at 100V. AIDA04 (chained to AIDA05) is biased via a shielded cable to an iseg NHQ 246L power supplied, biased at 101 V with 16 uA.
All the outside drain wires of bplast are now taped to the snout.
The red markers of the cursors of the previous test have been left for ease of comparison.
FWHM: 21699-21644 = 55 channels (to be compared with the previous elogs between 73 channels and 79 channels)
Conclusion: a significant improvement can be observed with a cleaner power supply. |
| Attachment 1: Screenshot_from_2025-07-23_17-08-56.png
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713
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Wed Jul 23 15:04:26 2025 |
CC, MP, NK | Test of AIDA05 with BB7 connected to Mesytec but not biased |
Attachment1: AIDA05.1.8L when AIDA05 connected, biased at 100 V with not-shielded cables, after the DEGAS platform has been closed, the 2 tiles of BB7 have been connected to the mesytec preamps. BB7 is not biased. The mesytec preamps have been fully connected and supplied but 6/8 black cables are not connected on the other side. 4X and 4Y are connected to the 2 FEBEX cards.
The 2 drain wires of bplast that were hanging on the bottom are now taped to the snout, not making any antena effect anymore.
FWHM: 79 channels (to be compared with the previous elogs between 73 channels and 76 channels)
Conclusion: no significant differences can be observed when BB7 is connected. The tail on the left side of the spectrum in twice as small, most likely because on the now-taped drain wires of bplast |
| Attachment 1: Screenshot_from_2025-07-23_16-16-57.png
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712
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Wed Jul 23 13:59:37 2025 |
CC, NK | Shielding of the snout |
Attachment1: AIDA05.1.8L when AIDA05 connected, biased at 100 V with not-shielded cables, CAEN HT, after the base of the snout (screws) has been connected to the ground via cupper sheets
FWHM: 76 channels (to be compared with the 2 previous elogs 73 channels and 75 channels)
Conclusion: no differences can be observed. |
| Attachment 1: Screenshot_from_2025-07-23_15-07-42.png
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711
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Wed Jul 23 13:08:30 2025 |
CC, NK | Comparison of channels in the same FEE64 and ASIC 05.1 |
Biased at 100, AIDA05 connected, HT cables not shielded CAEN HT
Attachment 1: AIDA05.1.8L --> FWHM 75 channels
Attachment 2: AIDA05.1.1L --> FWHM 70 channels; peak of the pulser shifted to the right (red lines on the left: cursor for the 1.8L)
Attachment 3: AIDA05.1.4L --> FWHM 85 channels; peak of the pulser completely shifted to the left (10 000 on the left)
Attachment 4: AIDA05.1.12L --> FWHM 78 channels
Attachment 5: AIDA05.1.15L --> FWHM 79 channels, peak the most shifted to the right of the 5 curves tested |
| Attachment 1: Screenshot_from_2025-07-23_14-11-36.png
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| Attachment 2: Screenshot_from_2025-07-23_14-13-46.png
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| Attachment 3: Screenshot_from_2025-07-23_14-16-03.png
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| Attachment 4: Screenshot_from_2025-07-23_14-18-27.png
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| Attachment 5: Screenshot_from_2025-07-23_14-20-42.png
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710
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Wed Jul 23 09:37:34 2025 |
CC, NK | Comparison pulser FWHM with/without HT and detector cables |
This elog is the first reliable. Before, the histograms have not been zero'd
Each test are done and compared for AIDA05.1.8L, compared with the pulser (caracteristics, see attachment1)
Test 1: with HT cables shielded
Attachment 2: HT = 100V; cable AIDA05 connected --> FWHM = 77 channels (= 51.3 keV) with a top of the curve at 100 cts (AIDA9.1.8L has also been checked and was at 89 channels)
Attachment 3: HT = 0V; cable AIDA05 connected --> FWHM = 1757 channels with a top of the curve at 15 cts after almost 40 min because the noise had a baseline of 6500 channels
Attachment 4: HT = 0V; cable AIDA05 disconnected --> FWHM = 16 channels with a top of the curve at 110 cts
Attachment 5: HT = 100V; cable AIDA05 disconnected --> FWHM = 17 channels with a top of the curve at 110 cts
Test 2: with HT cables not shielded
Attachment 6: HT = 0V; cable AIDA05 connected --> FWHM = 1452 channels (968 keV) with a top of the curve at 23 cts after 1:15 hours because the noise had a baseline of 7000 channels
Attachment 7: HT = 100V; cable AIDA05 connected --> FWHM = 73 channels with a top of the curve at 100 cts
Attachment 8: HT = 0V; cable AIDA05 disconnected --> FWHM = 15 channels with a top of the curve at 120 cts
Attachment 9: HT = 100V; cable AIDA05 disconnected --> FWHM = 16 channels with a top of the curve at 125 cts
Conclusion: with shielded or unshielded cables, the noise situation seems to be the same, proving that mot of the noise don't come from the cables
Other thing that have been noticed is that the peak of the pulser is shifted when the cables are connected compared to when they are not connected: connected: peak at around channel 21675; disconnected: peak at around channel 21925 |
| Attachment 1: Screenshot_from_2025-07-23_10-55-12.png
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| Attachment 6: Screenshot_from_2025-07-23_13-18-19.png
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| Attachment 7: Screenshot_from_2025-07-23_13-29-33.png
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| Attachment 8: Screenshot_from_2025-07-23_13-41-33.png
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| Attachment 9: Screenshot_from_2025-07-23_13-48-35.png
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709
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Tue Jul 22 18:00:45 2025 |
CC, NK, MP | FWHM aida FEE |
AIDA05 completely disconnected, all the others FEEs64 are fully connected
Attachment 1: aida05, FWHM= 95 ch, 63 keV
Attachment 2: aida15, FWHM= 108 ch, 74 keV |
| Attachment 1: Screenshot_from_2025-07-22_18-59-26.png
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| Attachment 2: Screenshot_from_2025-07-22_18-59-45.png
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708
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Tue Jul 22 17:00:26 2025 |
MP, CC | Status |
Test with shielded HV cables for both detectors.
The FWHM for ch1 is now 184 ch.
Yesterday cables for cards 5, 6, 10, 11, 12, 14, 16 were partially connected (only 1 out of 2 flat cables was in), now both are connected. |
| Attachment 1: Screenshot_from_2025-07-22_17-51-52.png
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| Attachment 2: Screenshot_from_2025-07-22_17-59-20.png
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707
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Mon Jul 21 13:01:19 2025 |
MP | Status |
Status before grounding checks |
| Attachment 1: Screenshot_from_2025-07-21_14-00-23.png
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| Attachment 2: Screenshot_from_2025-07-21_14-00-39.png
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706
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Sun Jun 15 10:53:08 2025 |
TD | Sunday 15 June 2025 |
11.45 DSSSD bias & leakage current - attachment 1
FEE64 temps OK - attachment 2
All system wide checks OK *except* WR decoder status aida02 - attachment 3
WR timestamps OK - attachment 4
ADC data item stats - attachment 5
per FEE64 Rate spectra - attachments 6-7
note ASICs with per channel rates of 22Hz (pulser)
note *all* FEE64 slow comparator 0x64
note ignore aida10 - connected to MSL type BB7 - not biased yet
per p+n FEE64 1.8.L spectra - attachment 8-9
pulser peak widths
aida05, aida14, aida16 c. 15-20 ch FWHM ( c. 10-15keV FWHM ) - cable from DSSSD not connected to adaptor PCB
aida15 c. 137 ch FWHM - electronic noise c. 2x worse than configuration used for 2023/4 tests
per p+n FEE64 1.8.W spectra - 20us FSR - attachments 10
per p+n FEE64 1.8.W spectra - 20us FSR - expanded y-scale = 2000 x 122uV/LSB = 0.244V FSR - attachment 11
per n+n FEE64 1.8.W spectra - 20us FSR - attachments 12
15.20 Data suggests 2x (of 6x) Si wafers are not biased - aida11 & aida05-aida12 - J2 cable disconnected
Switch from negative to positive bias polarity
CAEN N1419ET channels 1 and 2 switched from negative to positive polarity
Note internal LK fitted - HV outputs *not* floating
Channel 1 -> DSSSD#0 from aida12 to aida04 (HV daisy chain aida12-aida03-aida15 *not* removed)
Channel 2 -> DSSSD#1 from aida16 to aida08 (HV daisy chain aida16-aida07-aida11 *not* removed)
LK1 removed from adaptor PCBs for aida02. aida04, aida06, aaida08
LK1 fitted aida05, aida13, aida10, aida09, aida15, aida11
LK3 *no* change
DSSSD bias & leakage current - attachment 13
note increase in leakage current for DSSSD#0 but not DSSSD#1
- indicating DSSSD#0 has all Si wafers biased
- all wafers of DSSSD#1 not biased => damaged adaptor PCB and/or cabling, misaligned ribbon cable/Kapton PCB connection within snout
FEE64 temps OK - attachment 14
ADC data item stats - attachment 15
per FEE64 Rate spectra - attachments 16-17
note ASICs with per channel rates of 22Hz (pulser)
note *all* FEE64 slow comparator 0x64
note ignore aida10 - connected to MSL type BB7 - not biased yet
per p+n FEE64 1.8.L spectra - attachment 18-19
pulser peak widths
aida05, aida14, aida16 c. 15-20 ch FWHM ( c. 10-15keV FWHM ) - cable from DSSSD not connected to adaptor PCB
aida15 c. 108 ch FWHM - electronic noise c. 2x worse than configuration used for 2023/4 tests
per p+n FEE64 1.8.W spectra - 20us FSR - attachments 20
per p+n FEE64 1.8.W spectra - 20us FSR - expanded y-scale = 2000 x 122uV/LSB = 0.244V FSR - attachment 21
per n+n FEE64 1.8.W spectra - 20us FSR - attachments 22
16.40 Add LK1 to aida03, aida07
DSSSD bias & leakage current - attachment 23
no change
ADC data item stats - attachment 24
per p+n FEE64 1.8.L spectra - attachment 25-26
pulser peak widths
aida05, aida14, aida16 c. 15-20 ch FWHM ( c. 10-15keV FWHM ) - cable from DSSSD not connected to adaptor PCB
aida15 c. 117 ch FWHM - electronic noise c. 2x worse than configuration used for 2023/4 tests
per p+n FEE64 1.8.W spectra - 20us FSR - attachments 27
no change
16.50 Increase DSSSD#0 bias from +100V to +120V
DSSSD bias & leakage current - attachment 28
per p+n FEE64 1.8.L spectra - attachment 29-30
pulser peak widths
aida05, aida14, aida16 c. 15-20 ch FWHM ( c. 10-15keV FWHM ) - cable from DSSSD not connected to adaptor PCB
aida15 c. 70 ch FWHM - electronic noise c. 1.2-2x worse than configuration used for 2023/4 tests
per FEE64 Rate spectra - attachments 31-32
per FEE64 1.8.W spectra - 20us FSR - attachments 33-36
aida02 & aida04 stabilised but still very noisy
Switch BNC PB-5 Pulser polarity + to - and connect test- test daisy chain
ADC data item stats - attachment 37
per FEE64 Rate spectra - attachments 38-39
aida02 & aida04 rates significantly lower but not 25Hz expected
per n+n FEE64 1.8.L spectra - attachment 40
pulser peak width aida02 c. 700 ch FWHM - very noisy!
per n+n FEE64 1.8.W spectra 20us FSR - attachment 41
*** Summary
DSSSD#0
3x Si wafers biased OK
p+n junction side electronic noise c. 1.2-2x 2023/4 configuration
n+n Ohmic side very noisy - increased detector HV to stabilise => increased capacitative load cf. 2023/4 configuration?
DSSSD#1
2x Si wafers biased OK, 1x probably not biased
p+n junction side electronic noise > 4x 2023/4 configuration
n+n Ohmic side very noisy/unstable - increased detector HV not attempted due to issues with biasing all 3x Si wafers
MSL type BB7
not biased yet
To Do
Complete connection and grounding of Bplas detectors |
| Attachment 1: Screenshot_from_2025-06-15_11-45-34.png
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| Attachment 2: Screenshot_from_2025-06-15_11-45-50.png
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705
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Sat Jun 14 11:20:45 2025 |
TD | Saturday 14 June 2025 |
12.21 BNC PB-5 settings
Amplitude 1.0V
Attenuator x1
Frequency 22Hz
Polarity +
Tau_d 1ms
Tail pulse
Clamp ON
Pulser output connected to p+n test daisy chain - n+n test daisy chain not connected
per DSSSD green/yellow ground daisy chain was removed yesterday
FEE64 adaptor PCB grounds connected by heavy duty braid wrapped in copper foil to AIDA support assembly frame
Snout connected to AIDA support assembly frame by heavy duty braid bolted to frame and connected to snout by adhesive copper foil.
DSSSD - FEE64 adaptor PCB cabling (cannot connect some ribbon cables because cable flipped and connector key now incorrectly oriented)
aida10 aida14 aida13
ox xo oo
aida09 aida01 aida05
oo oo xo
aida06 aida02 aida04 aida08 *Beam into screen*
ox oo oo oo
aida15 aida03 aida12
oo oo ox
aida11 aida07 aida16
ox oo xo
o = connected
x = not connected
e.g. J1 J2 connected = oo, J1 only connected = ox
Adaptor PCB top/component side
E J1
R
N
I J2
Adaptor PCB
LK1 fitted aida02, aida04, aida06, aida08
LK3 fitted aida03, aida07
DSSSD bias & leakage current - attachment 1
FEE64 temps OK - attachment 2
All system wide checks OK *except* WR decoder status aida02 - attachment 3
WR timestamps OK - attachment 4
ADC data item stats - attachment 5
per FEE64 Rate spectra - attachments 6-7
note ASICs with per channel rates of 22Hz (pulser)
note *all* FEE64 slow comparator 0x64 ( *note* subsequently found ASIC #2-4 of a number of FEE64s were set to 0x0 )
per p+n FEE64 1.8.W spectra - 20us, 200us, 2ms and 20ms FSR - attachments 8-11
per p+n FEE64 1.8.W spectra - 20ms FSR - expanded y-scale = 2000 x 122uV/LSB = 0.244V FSR - attachment 12
per n+n FEE64 1.8.W spectra - 20ms, 2ms, 200us and 20us FSR - attachments 13-16
per p+n FEE64 1.8.L spectra - attachment 17
pulser peak widths
aida05, aida14, aida16 c. 15-20 ch FWHM ( c. 10-15keV FWHM ) - cable from DSSSD not connected to adaptor PCB
aida09 c. 120 ch FWHM - electronic noise c. 2x worse than configuration used for 2023/4 tests
all other FEE64s *very* noisy/unstable
14.45 Found some FEE64s with slow comparator 0x64 for ASIC#1 and 0x0 for ASICs #2-4
Slow comparator 0x64 now set for all ASICs of all FEE64s
ASIC settings saved to 2025Jun14-15.00.09
ADC data item stats - attachment 18
per FEE64 Rate spectra - attachments 19-20
note ASICs with per channel rates of 22Hz (pulser)
note *all* FEE64 slow comparator 0x64
note aida10 to be connected to MSL type BB7 - ignore for time being
per FEE64 1.8.W spectra - 20us FSR - attachments 21-22
per p+n FEE64 1.8.L spectra - attachments 23-24
pulser peak widths
aida05, aida14, aida16 c. 20 ch FWHM - cable from DSSSD not connected to adaptor PCB
aida09 c. 120 ch FWHM - electronic noise c. 2x worse than configuration used for 2023/4 tests |
| Attachment 1: Screenshot_from_2025-06-14_12-20-58.png
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704
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Fri Jun 13 12:42:39 2025 |
CC, TD | Friday 13 June 2025 |
13.42 ASIC settings 2025Jun12-13.53.04
*all* FEE64s slow comparator 0x64
all fast disc outputs disabled
p+n FEE64s waveform threshold 7000, n+n FEE64s 9000
CC grounding ribbon cable heavy duty braid to adaptor PCB and AIDA support assembly ground
'top' p+n FEE64s and snout to be completed
16.00 DSSSD bias & leakage current - attachment 1
FEE64 temps OK - attachment 2
All system wide checks OK *except* WR decoder status aida02 and aida06 - attachment 3
WR timestamps OK - attachment 4
ADC data item stats - attachment 5
per FEE64 Rate spectra - attachment 6
per p+n FEE64 1.8.L spectra - attachment 7
aida09 pulser peak width 117 ch FWHM - no change since yesterday
per FEE64 1.8.W spectra - 20us FSR - attachments 8-10
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| Attachment 1: Screenshot_from_2025-06-13_15-48-17.png
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703
|
Thu Jun 12 13:15:25 2025 |
GB, CC, NK, MP, TD | Thursday 12 June 2025 |
EMC tests with NK (Orsay)
Stack configuration (upstream->downstream)
bPlas
AIDA DSSSD #0
AIDA DSSSD #1
bPlas
3x MSL type BB7(DS)-1000 (1x aida10, 2x Mesytec preamplifiers)
AIDA DSSSD #0 bias -100V leakage current -13.23uA
AIDA DSSSD #1 bias -100V leakage current -9.68uA
BNC PB-5 settings
Amplitude 1.0V
Attenuator x1
Frequency 25Hz
Polarity +
tau_d 1ms
Tail pulse
14.39 per p+n FEE64 1.8.W spectra - 20us FSR - attachment 1
per p+n FEE64 1.8.L spectra - attachment 2
Pulser peak widths ch FWHM
DSSSD #0 (DSSSD - FEE64 cables with heavy duty braid - electrically connected to ground of adaptor PCB and internally connected to ground within snout)
9 1 5
120 201 21
15 3 12
114 180 broad
DSSSD #1 (DSSSD - FEE64 cables with mesh - currently not connected i.e. floating to adaptor PCB and internally connected to ground within snout)
10 14 13
- 22 374
11 7 16
broad 417 20
Pulser peak widths c. 20 ch FWHM probably indicate cable from DSSSD *not* connected to FEE64 adaptor PCB
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| Attachment 1: Screenshot_from_2025-06-12_14-39-35.png
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| Attachment 2: Screenshot_from_2025-06-12_14-33-26.png
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702
|
Tue Apr 8 08:52:39 2025 |
TD | AIDA grounding |
AIDA DSSSDs and FEE64-DSSSD cabling are electrically isolated (by design) from snout, mounting rods and support assembly.
FEE64-DSSSD ribbon cables screened by 3M 1245 Cu foil, drain wire to FEE64 adaptor PCB
AIDA FEE64s are electrically isolated (by design) from the AIDA support frame and each other.
BNC PB-5 test signal
daisy chained to FEE64 adaptor PCBs via screened RG174 cable/Lemo 00-250
CAEN N1419ET DSSSD bias
daisy chained to 1x p+n junction FEE64 adaptor PCB/Si wafer via screened RG174 cable/Lemo 00-250
CAEN N1419ET outputs floating, locally grounded by 1x n+n Ohmic FEE64 adaptor PCB link/DSSSD
AIDA FEE64s are connected to the DESPEC 19" rack
power (AIDA FEE64 PSUs),
timestamp (AIDA NIM MACB modules),
system console (via serial-USB cables to USB hubs),
RJ45 network cables (24 port Gbit network switch)
AIDA PSU PowerStax MS1U-6C-222233-01 - see attachments 1-2
PSU outputs V+/V- and common
no direct ground connection
AIDA MACB
HDMI cabling MACB-FEE64 is screened and shield is grounded
system console
?
RJ45 network cables are coupled by ferrite beads to FEE64 PCB and network switch
no direct ground connection |
| Attachment 1: powerstax-ms1u_instructionmanua.pdf
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| Attachment 2: 20250408_095624.jpg
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701
|
Tue Mar 11 11:53:18 2025 |
TD | Monday 10 March |
18.30 AIDA powered up for brief test
DSSSD bias & leakage current OK - attachment 1
FEE64 temperatures OK - attachment 2
ADC data item stats - attachment 3
ASIC settings at power up - slow comparator 0x64
per p+n FEE64 1.8.L spectra - attachment 4
pulser peak width aida9 55 ch FWHM (39keV FWHm), aida15 53 ch FWHM (37keV FWHM)
p+n FEE64 aida15 1.8.W spectra - 20us FSR - attachments 5-6
saved *.L, *.H, *.W spectra for aida15 - attachments 7-11
*.W spectra - 20us, 200us, 2ms & 20ms FSR
19.27 DAQ STOP
DSSSD bias OFF
FEE64 power OFF |
| Attachment 1: Screenshot_from_2025-03-10_18-41-32.png
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| Attachment 2: Screenshot_from_2025-03-10_18-42-02.png
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| Attachment 6: Screenshot_from_2025-03-10_18-48-39.png
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| Attachment 7: 2025Mar10-17.59.58.tar.gz
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| Attachment 8: 2025Mar10-18.05.01.tar.gz
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| Attachment 9: 2025Mar10-18.06.29.tar.gz
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| Attachment 10: 2025Mar10-18.12.03.tar.gz
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| Attachment 11: 2025Mar10-18.17.55.tar.gz
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700
|
Sat Feb 22 12:35:38 2025 |
TD | Offline analysis data files R9_85-R9_199 (84Mo setting) |
Start 00:43 22.2.25 https://elog.gsi.de/despec/G-24-00302/57
AIDA data file R9_85
Converting hexadecimal timestamp to decimal: 1740181266259754800
Assuming that this timestamp is in nanoseconds (1 billionth of a second):
GMT: Friday, February 21, 2025 11:41:06.259 PM
Your time zone: Friday, February 21, 2025 11:41:06.259 PM GMT+00:00
End 12:56 22.2.25 https://elog.gsi.de/despec/G-24-00302/85 (start of next degrader setting)
AIDA data file R9_199
Converting hexadecimal timestamp to decimal: 1740224934731157800
Assuming that this timestamp is in nanoseconds (1 billionth of a second):
GMT: Saturday, February 22, 2025 11:48:54.731 AM
Your time zone: Saturday, February 22, 2025 11:48:54.731 AM GMT+00:00
Analysis data files FEB25/R9_85 and FEB25/R9_199
- no timewarps
- deadtime aida05 c. 37% and 39% due to high SC41 scaler input to MACB - issue subsequently fixed
- deadtime aida04 c. 4%, all other FEE64s <<1%
FEE64 configuration
FEE64 a b c
g h
d e f
a b c d e f g h
DSSSD#1 15 3 12 9 1 5 2 4
n+n Ohmic FEE64s 2, 4
Data analysis assumes
- all LEC ADC data channels with valid ADC offset included (507 of 512 channels)
LEC calibration ADC offset only
- no clustering
- no multiplex timestamp correction
- no p+n junction side - n+n Ohmic side correlation time gates
- FEE64 *not* DSSSD strip ordering
- hardware - slow comparator setting p+n junction FEE64s 100keV, n+n Ohmic FEE64s 150keV
- LEC energy difference +/- 168keV
- HEC energy difference +/- 1.68GeV
- valid LEC events
p+n junction side multiplicity = 1 and n+n Ohmic side multiplicity = 1
151keV < LEC energy < 1000keV
to select candidate beta events
standalone analysis of AIDA data, no downstream veto detector
- valid HEC events
p+n junction side multiplicity > 0 and n+n Ohmic side multiplicity > 0
(x,y) strips corresponding to maximum energy
p+n junction and n+n Ohmic side HEC
- HEC veto
not available - only 1x AIDA DSSSD installed
- per pixel implant-decay correlations
- end of event
difference in WR timestamp between successive ADC data items > 2500 and overall event length < 33us
per FEE64 LEC ADC data items 268ms/channel - attachments 3-5
- all
- 150keV < energy < 1500keV
- energy > 1500keV
absence of high instantaneous rates on spill cf. S181, S100, S505 etc
spill structure visible for energies > 1500keV - probably to be expected as majority of such events should be light ions
per FEE64 HEC ADC data items 268ms/channel - attachments 6-8
- all
- 100MeV < energy < 1000MeV
- energy > 1000MeV
Implant & decay event rates 262us/channel - attachment 9
LEC m_p versus m_n - attachment 10
LEC e_p versus e_n - 20keV/channel - attachment 11
HEC x strip versus y strip - attachment 12
- HEC-LEC implant decay time difference <1s
- HEC-LEC implant decay time difference <100s
shows x-y window used to select 82Nb events
HEC m_p versus m_n - attachment 13
HEC e_p versus e_n - 20MeV/channel - attachment 14
HEC-LEC implant-decay time difference (4ms/channel) versus - attachment 15
- HEC energy
- LEC energy
- x & y strip
x strips 130 & 136 disabled
HEC & LEC p strip - n strip time difference (2us/channel, offset=2000 channels) - attachment 16
HEC E (20MeV/channel) versus implant-decay time difference (4.194ms/channel) - attachment 17
LEC E (20keV/channel) versus implant-decay time difference (4.194ms/channel) - attachment 18
LEC e_p - e_n (5.6keV/channel) versus implant-decay time difference (4.194ms/channel) - attachment 19
HEC x & y strip versus implant-decay time difference (4.194ms/channel) - attachment 20
HEC-LEC implant-decay time difference (8.389ms/channel) for candidate 82Nb events - attachment 21
- blue - forward
- cyan - backward
Note
- no FRS PID
- no HEC dE
- no HEC veto
- no HEC energy gates - assume all events within x-y window *stop* in AIDA DSSSD - 82Nb events known to overlap in x-y with (longer-lived, more numerous) 83Nb events
- no front-back time difference
- no clustering
- *all* LEC channels with valid ADC offsets (507 of 512) included *except* 2x strips 130 & 136
HEC-LEC implant-decay time difference (8.389ms/channel) for candidate 82Nb events - attachment 22
Weighted least squares fit channels 1-12 half life 55(9)ms cf. NNDC 50.0(3)ms.
Added 8.2.26 by TD
Attachment 23 - implant timestamp, decay timestamp, decay timestamp - implant timestamp for selected events (attachment 21) with time differences < 255 x 4.194304ms
Attachment 24 - implant timestamp, decay timestamp, implant timestamp - decay timestamp for selected events (attachment 21) with time differences < 255 x 4.194304ms
Attachment 25 - analysis program
Attachment 27 - spectra titles
Attachment 28 - analysis program variables
For data files R9_85 - R9_199 inclusive
Total ADC data items 30117120061
Total ADC events 6551938947
Questions from Giorgio Bruni Campanella Spezza
1) What were the exact number of implants, decays, correlated implants and decays and correlation efficiency?
Implants ( m_p_hec(1) > 0 .and. m_n_hec(1) > 0 ) 1046107
Decays ( m_p_lec(1) = 1 .and. m_n_lec(1) = 1 ) .and. ( ediff.LT.30 .and. ediff.GT.-30 ) 83342477
Selected implants s2112
( 75 < x < 150 .and. 30 < y < 120 ) .and. ( ediff.LT.300 .and. ediff.GT.-300 ) .and . ( 100 < hec_e < 4096 ) 215705 = 32.0/pixel = 0.000732/pixel/s
Selected decays s2040
( 75 < x < 150 .and. 30 < y < 120 ) .and. ( ediff.LT.30 .and. ediff.GT.-30 ) .and. ( decay-implant < 1s ) .and. ( 27 < lec_e < 180 ) 1056 = 0.156/pixel = 0.00000358/pixel/s
Selected decays s2041
( 75 < x < 150 .and. 30 < y < 120 ) .and. ( ediff.LT.30 .and. ediff.GT.-30 ) .and. ( decay-implant < 100s ) .and. ( 27 < lec_e < 180 ) 38483 = 5.70/pixel = 0.000131/pixel/s
2) What is the number of correlated decays for the backward time correlations?
Correlated forward decays s2226 (channels 0-255, 4.19ms/channel) = 1422
Correlated backward decays s2224 (channels 0-255, 4.19ms/channel) = 778
3) How exactly do you define beta detection efficiency for the decay of a specific isotope? I ask this due to the lack of a PID in the analysis, and hence, without any FRS-AIDA implant
correlation, how can you determine the number of implanted ions of a specific isotope?
Yes - to calculate beta efficiency for 82Nb (say) I need an estimate of what fraction of selected implant events are actually 82Nb
4) Do you have any vetoes for the position of implants in AIDA, or do you accept all implants throughout the DSSSD?
See definitions above - there are gates for x and y strips and implant energy |
| Attachment 1: R9_85.txt
|
*** TDR format 3.3.0 analyser - TD - May 2021
*** ERROR: READ I/O error: 5002
blocks: 32000
ADC data format: 143503687 ( 365856.8 Hz)
Other data format: 118416315 ( 301897.6 Hz)
Sample trace data format: 0 ( 0.0 Hz)
Undefined format: 0 ( 0.0 Hz)
Other data format type: PAUSE: 2560 ( 6.5 Hz)
RESUME: 2560 ( 6.5 Hz)
SYNC100: 33461 ( 85.3 Hz)
WR48-63: 33461 ( 85.3 Hz)
FEE64 disc: 326756 ( 833.1 Hz)
MBS info: 118017517 ( 300880.9 Hz)
Other info: 0 ( 0.0 Hz)
ADC data range bit set: 29285 ( 74.7 Hz)
Timewarps: ADC: 0 ( 0.0 Hz)
PAUSE: 0 ( 0.0 Hz)
RESUME: 0 ( 0.0 Hz)
SYNC100: 0 ( 0.0 Hz)
WR48-63: 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: 392.240 s
FEE elapsed dead time(s) elapsed idle time(s)
0 0.000 0.000
1 0.069 0.000
2 0.000 0.000
3 17.209 0.000
4 146.817 0.000
5 0.000 0.000
6 0.000 0.000
7 0.000 0.000
8 0.000 0.000
9 0.009 0.000
10 0.000 0.000
11 0.000 0.000
12 0.000 0.000
13 0.000 0.000
14 0.000 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 0.000 0.000
23 0.000 0.000
24 0.000 0.000
25 0.000 0.000
26 0.000 0.000
27 0.000 0.000
28 0.000 0.000
29 0.000 0.000
30 0.000 0.000
31 0.000 0.000
32 0.000 0.000
*** Statistics
FEE ADC Data Other Data Sample Undefined Pause Resume SYNC100 WR48-63 Disc MBS Other HEC Data
0 7002448 45530 0 0 0 0 930 930 31901 11769 0 2888
1 22874309 77583 0 0 18 18 3036 3036 71475 0 0 7512
2 6498360 4555402 0 0 0 0 1475 1475 34629 4517823 0 3971
3 82625693 69682 0 0 1306 1306 10819 10819 45432 0 0 3669
4 4358474 109462549 0 0 1235 1235 14045 14045 2695 109429294 0 206
5 0 0 0 0 0 0 0 0 0 0 0 0
6 88 0 0 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0 0 0 0
8 2927664 19415 0 0 0 0 391 391 18633 0 0 4389
9 14346055 3938106 0 0 1 1 2392 2392 18452 3914868 0 1270
10 128 0 0 0 0 0 0 0 0 0 0 0
11 1956985 169485 0 0 0 0 257 257 25208 143763 0 3888
12 212 0 0 0 0 0 0 0 0 0 0 0
13 55 0 0 0 0 0 0 0 0 0 0 0
14 913148 78563 0 0 0 0 116 116 78331 0 0 1492
15 68 0 0 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0 0 0 0
*** Timewarps
FEE ADC Pause Resume SYNC100 WR48-63 Disc MBS Undefined Samples
0 0 0 0 0 0 0 0 0 0
1 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0
*** Program elapsed time: 24.117s ( 1326.854 blocks/s, 82.928 Mb/s)
|
| Attachment 2: R9_199.txt
|
*** TDR format 3.3.0 analyser - TD - May 2021
*** ERROR: READ I/O error: 5002
blocks: 32000
ADC data format: 154723223 ( 435714.6 Hz)
Other data format: 107196777 ( 301875.8 Hz)
Sample trace data format: 0 ( 0.0 Hz)
Undefined format: 0 ( 0.0 Hz)
Other data format type: PAUSE: 2462 ( 6.9 Hz)
RESUME: 2462 ( 6.9 Hz)
SYNC100: 33323 ( 93.8 Hz)
WR48-63: 33323 ( 93.8 Hz)
FEE64 disc: 288355 ( 812.0 Hz)
MBS info: 106836852 ( 300862.3 Hz)
Other info: 0 ( 0.0 Hz)
ADC data range bit set: 32530 ( 91.6 Hz)
Timewarps: ADC: 0 ( 0.0 Hz)
PAUSE: 0 ( 0.0 Hz)
RESUME: 0 ( 0.0 Hz)
SYNC100: 0 ( 0.0 Hz)
WR48-63: 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: 355.102 s
FEE elapsed dead time(s) elapsed idle time(s)
0 0.008 0.000
1 0.147 0.000
2 0.000 0.000
3 21.597 0.000
4 136.749 0.000
5 0.000 0.000
6 0.000 0.000
7 0.000 0.000
8 0.000 0.000
9 0.006 0.000
10 0.000 0.000
11 0.000 0.000
12 0.000 0.000
13 0.000 0.000
14 0.000 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 0.000 0.000
23 0.000 0.000
24 0.000 0.000
25 0.000 0.000
26 0.000 0.000
27 0.000 0.000
28 0.000 0.000
29 0.000 0.000
30 0.000 0.000
31 0.000 0.000
32 0.000 0.000
*** Statistics
FEE ADC Data Other Data Sample Undefined Pause Resume SYNC100 WR48-63 Disc MBS Other HEC Data
0 9317141 49848 0 0 6 6 1239 1239 36708 10650 0 3256
1 27128444 89326 0 0 31 31 3596 3596 82072 0 0 8340
2 7611251 4365052 0 0 0 0 1569 1569 37972 4323942 0 4609
3 84626002 75259 0 0 1316 1316 10898 10898 50831 0 0 3978
4 4974948 98704420 0 0 1107 1107 12783 12783 2668 98673972 0 187
5 0 0 0 0 0 0 0 0 0 0 0 0
6 122 0 0 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0 0 0 0
8 3383262 22113 0 0 0 0 436 436 21241 0 0 4811
9 14397933 3689217 0 0 2 2 2371 2371 21039 3663432 0 1355
10 1 0 0 0 0 0 0 0 0 0 0 0
11 2194427 194484 0 0 0 0 298 298 29032 164856 0 4304
12 140 0 0 0 0 0 0 0 0 0 0 0
13 260 0 0 0 0 0 0 0 0 0 0 0
14 1088899 7058 0 0 0 0 133 133 6792 0 0 1690
15 393 0 0 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0 0 0 0
*** Timewarps
FEE ADC Pause Resume SYNC100 WR48-63 Disc MBS Undefined Samples
0 0 0 0 0 0 0 0 0 0
1 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0
*** Program elapsed time: 26.438s ( 1210.402 blocks/s, 75.650 Mb/s)
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| Attachment 3: Screenshot_from_2025-03-05_10-04-30.png
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| Attachment 23: fort.20
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... 1121 more lines ...
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| Attachment 24: fort.21
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1740196956696935830 1740196956562663830 134272000
1740196966776517830 1740196966215405830 561112000
1740196995106397830 1740196994061137760 1045260070
1740196998145631740 1740196997877469830 268161910
1740197091264133830 1740197090833803830 430330000
1740197132685461830 1740197132557813830 127648000
1740197194934121830 1740197194501201830 432920000
1740197208891911830 1740197208586707830 305204000
1740197360449739830 1740197360182911830 266828000
1740197381975083830 1740197381065171830 909912000
1740197384420893810 1740197384408831830 12061980
1740197388421295830 1740197387803529830 617766000
1740197513104086420 1740197512271567830 832518590
1740197826550935830 1740197826237683830 313252000
1740197975355297830 1740197974400683830 954614000
1740197982494933270 1740197981967215830 527717440
1740198006355481600 1740198005669351830 686129770
1740198122952821830 1740198122323211830 629610000
1740198260827465830 1740198260007629830 819836000
1740198271739569830 1740198271294189830 445380000
1740198320620625830 1740198320256385830 364240000
1740198347980245830 1740198347817727830 162518000
1740198396087805830 1740198395309891830 777914000
1740198399717937380 1740198399660161830 57775550
1740198420148885830 1740198419438899830 709986000
... 477 more lines ...
|
| Attachment 25: implantdecay.f
|
*trigger
128
*oned
0..15 s 65536
20..35 s 65536
40..55 s 65536
60..75 s 64
80..96 s 64
100..115 s 65536
120..135 s 65536
140..155 s 65536
200..215 s 65536
250..254 s 4096
300..331 s 65536
400..405 s 65536
1400..1403 s 65536
2130..2131 s 65536
2030..2031 s 65536
2200..2201 s 65536
2210..2211 s 65536
2220..2229 s 1024
3030..3033 s 4096
*twod
1000..1001 s 4096 4096
1100..1101 s 512 512
2000..2003 s 512 512
2010..2011 s 512 512
2020..2021 s 1024 1024
2040..2049 s 512 512
2100..2101 s 512 512
2110..2113 s 512 512
2120..2127 s 1024 1024
2300..2301 s 1024 1024
2400..2401 s 1024 1024
2500..2501 s 1024 1024
2600..2601 s 1024 1024
3000..3001 s 512 512
3010..3011 s 1024 1024
3020..3021 s 512 512
3040..3041 s 512 512
*vars
*sort
C 201..232 s 65536
C 250..254 s 4096
C 2500..2505 s 1024 1024
C----67---------------------------------------------------------------72------80
SUBROUTINE init
IMPLICIT none
SAVE
C
C External functions
C
EXTERNAL dtime
C
INTEGER and, lshift, rshift, bb18order
C
LOGICAL btest
C
REAL float, secnds
C
C Parameter variables
C
INTEGER max
PARAMETER (max = 4096)
C
C Local variables
C
INTEGER adc_data, asic, ch, chx, channel, channel_ident
INTEGER count, data(0:4095), disc
INTEGER dsssd_a( 6 ), dsssd_b( 6 ), dsssd_c( 6 ), dsssd_d( 6 )
INTEGER dsssd_e( 6 ), dsssd_f( 6 ), dsssd_g( 6 ), dsssd_h( 6 )
INTEGER*8 dt, tsdata(0:4096), itsdata(0:4096)
INTEGER ediff, fee(32)
INTEGER hec_e_sum_x(2), hec_e_sum_y(2)
INTEGER hec_e_x_max(2), hec_e_y_max(2)
INTEGER hec_e_x_max_ch(2), hec_e_y_max_ch(2)
INTEGER lec_e(2), lec_x(2), lec_y(2)
INTEGER hec_x(2), hec_y(2)
INTEGER m_veto, veto( 1:64 )
INTEGER*8 e_time, e_time_old
INTEGER i
INTEGER*2 i2(2), i2_2(4)
INTEGER i4, i4_2(2)
INTEGER*8 i8, first_ts_value
INTEGER*8 items, items_old, events, events_old
INTEGER idata(0:4095), ierr, information, information_index
INTEGER invalid_id, j, j1, j1_old, j2, j2_old, k
INTEGER j3, j3_old, j4, j4_old
INTEGER l, m, mbs_data(0:3), module, m_disc, ptr, lec(8)
INTEGER m_p_lec(8), m_n_lec(8), m_p_hec(8), m_n_hec(8)
INTEGER sc_channel
INTEGER scaler( 32 ), scaler_old( 32 ), range, time_warp, total
INTEGER*8 timestamp, ts
INTEGER ts28, ts48, ts64
INTEGER*8 old_ts( 8, 2 ), ts_old
INTEGER implant_e( 0:383, 0:127, 1:8 )
INTEGER*8 implant_ts( 0:383, 0:127, 1:8 )
INTEGER*8 decay_ts( 0:383, 0:127, 1:8 )
INTEGER*8 dts( 0:511 ), cts( 0:511 ), min_dts( 0:511 )
INTEGER type, w(0:31), zzz, pulser, pulser_old
INTEGER z_lec, z_lec_veto, z_hec
C
LOGICAL hit(0:4095), ihit(0:4095)
LOGICAL first_event, next_event, first_ts
LOGICAL implant1, implant2, decay1, decay2, other1, other2
LOGICAL dt_tag, warp
LOGICAL first_info_code_4, first_info_code_5
REAL c(0:7), delta_t, gain(0:max-1), offset(0:max-1)
REAL t1, t2, t2_old
DOUBLE PRECISION rates( 32 ), t3, t4, t4_old, t5
C----67---------------------------------------------------------------72------80
C
C Namelists
C
NAMELIST /variables/ gain, offset, c, w,
+ dsssd_a, dsssd_b, dsssd_c, dsssd_d,
+ dsssd_e, dsssd_f, dsssd_g, dsssd_h, veto
C----67---------------------------------------------------------------72------80
C
C Common variables
C
INTEGER*2 gdata(0:15)
C
COMMON /fdata/ gdata
C
C Common variables
C
INTEGER*2 gid(0:15)
C
COMMON /fid/ gid
C
C Common variables
C
INTEGER mult
C
COMMON /fmult/ mult
C
EQUIVALENCE ( i8, i4_2(1) )
EQUIVALENCE ( i4, i2(1) )
C
C----67---------------------------------------------------------------72------80
WRITE ( 6, * ) ' *** FEB25 - implantdecay - March 2025'
WRITE ( 6, * ) ' *** Entry init commences'
C Initialise counters
events = 0
events_old = 0
pulser = 0
pulser_old = 0
time_warp = 0
invalid_id = 0
first_ts = .TRUE.
first_info_code_4 = .false.
first_info_code_5 = .false.
t3 = 0.0D+00
t4 = 0.0D+00
t4_old = 0.0D+00
C Initialise event data
DO i = 0, 4095
data( i ) = 0
tsdata(i) = 0
hit( i ) = .FALSE.
ENDDO
DO i = 1, 32
fee(i) = 0
ENDDO
DO i = 0, 511
min_dts( i ) = 999999999
cts( i ) = 0
ENDDO
first_event = .true.
next_event = .false.
ts_old = 0
e_time_old = 0
count = 0
total = 0
DO i = 0, 4095
gain( i ) = 1.0
offset( i ) = 0.0
ENDDO
DO i = 0, 31
w( i ) = 0
ENDDO
DO i = 0, 7
c( i ) = 1.0
ENDDO
DO i = 1, 64
veto(i) = -1
ENDDO
DO i = 1, 32
scaler( i ) = 0
scaler_old( i ) = 0
rates( i ) = 0.0
ENDDO
DO i = 1, 6
DO j = 1, 2
old_ts( i, j ) = 0
ENDDO
ENDDO
DO i = 0, 383
DO j = 0, 127
DO k = 1, 8
implant_ts( i, j, k ) = 0
decay_ts( i, j , k ) = 0
implant_e( i, j, k ) = 0
ENDDO
ENDDO
ENDDO
C Initialise time
t1 = SECNDS(0.0)
C Read program variables via NAMELIST I/O
OPEN( 1, FILE = '/home/td/FEB25/variables.dat',
+ IOSTAT = ierr )
IF ( ierr.NE.0 ) THEN
WRITE( 6, * ) ' *** OPEN I/O error:', ierr
ENDIF
READ( 1, NML = variables, IOSTAT = ierr )
IF ( ierr.NE.0 ) THEN
WRITE( 6, * ) ' *** READ I/O error:', ierr
ENDIF
CLOSE( 1, IOSTAT = ierr )
IF ( ierr.NE.0 ) THEN
WRITE( 6, * ) ' *** CLOSE I/O error:', ierr
ENDIF
OPEN( 20, FILE = '/home/td/FEB25/20',STATUS='NEW',IOSTAT=ierr )
IF ( ierr.NE.0 ) THEN
WRITE( 6, * ) ' *** OPEN I/O error:', ierr
ENDIF
OPEN( 21, FILE = '/home/td/FEB25/21',STATUS='NEW',IOSTAT=ierr )
IF ( ierr.NE.0 ) THEN
WRITE( 6, * ) ' *** OPEN I/O error:', ierr
ENDIF
C Display program variables
DO i = 0, 511, 8
WRITE( 6, 9001 ) i, i+7, ( gain( j ), j = i, i+7 )
ENDDO
DO i = 0, 511, 8
WRITE( 6, 9002 ) i, i+7, ( offset( j ), j = i, i+7 )
ENDDO
DO i = 0, 7, 8
WRITE( 6, 9003 ) i, i+7, ( c(j), j = 1, 8 )
ENDDO
DO i = 0, 31, 8
WRITE( 6, 9004 ) i, i+7, ( w(j), j = i, i+7 )
ENDDO
DO i = 1, 2
WRITE( 6, 9005 ) i, dsssd_a(i), dsssd_b(i),
+ dsssd_c(i), dsssd_d(i),
+ dsssd_e(i), dsssd_f(i),
+ dsssd_g(i), dsssd_h(i)
ENDDO
WRITE ( 6, * ) ' *** Entry init ends'
RETURN
C----67---------------------------------------------------------------72------80
ENTRY sortin
items = items + 1
IF ( MOD( items, 10000000 ).EQ.0 ) THEN
t2 = SECNDS( t1 )
delta_t = t2 - t2_old
... 1425 more lines ...
|
| Attachment 26: titles.dat
|
s0 aida01: LEC ADC data items ( 268ms/ch )
s15 aida16: LEC ADC data items ( 268ms/ch )
s20 aida01: LEC ADC data items ( 268ms/ch ): 150-1500keV
s35 aida16: LEC ADC data items ( 268ms/ch ): 150-1500keV
s40 aida01: LEC ADC data items ( 268ms/ch ): >1500keV
s55 aida16: LEC ADC data items ( 268ms/ch ): >1500keV
s60 aida01: LEC hit pattern: 150-1500keV
s75 aida16: LEC hit pattern: 150-1500keV
s80 aida01: LEC hit pattern: >1500keV
s95 aida16: LEC hit pattern: >1500keV
s100 aida01: HEC ADC data items ( 268ms/ch )
s115 aida16: HEC ADC data items ( 268ms/ch )
s120 aida01: HEC ADC data items ( 268ms/ch ): 100-1000MeV
s135 aida16: HEC ADC data items ( 268ms/ch ): 100-1000MeV
s140 aida01: HEC ADC data items ( 268ms/ch ): >1000MeV
s155 aida16: HEC ADC data items ( 268ms/ch ): >1000MeV
s200 aida01: disc data items ( 65us/ch )
s207 aida08: disc data items ( 65us/ch )
s208 aida09: disc data items ( 65us/ch )
s215 aida16: disc data items ( 65us/ch )
s250 LEC & HEC channels (DSSSD order)
s251 LEC & HEC channels (ASIC order)
s301 DSSSD #1 LEC rate (Hz) versus time
s302 DSSSD #2 LEC rate (Hz) versus time
s303 DSSSD #1 HEC rate (Hz) versus time
s304 DSSSD #2 HEC rate (Hz) versus time
s400 DSSSD #1 LEC (decay) events ( 262.144us/ch )
s401 DSSSD #1 HEC (implant) events ( 262.144us/ch )
s402 DSSSD #1 LEC other (decay) events ( 262.144us/ch )
s403 DSSSD #2 LEC (decay) events ( 262.144us/ch )
s404 DSSSD #2 HEC (implant) events ( 262.144us/ch )
s405 DSSSD #2 HEC other (decay) events ( 262.144us/ch )
s1000 4*(module # - 1) + asic # (0-95 ADC; 100-195 Disc) v. timestamp (65us/ch)
s1001 HEC channel (2048-3071) versus energy
s1402 event length (clock)
s1403 end of event dt (clock)
s2000 m_p versus m_n DSSSD #1 (LEC)
s2001 m_p versus m_n DSSSD #2 (LEC)
s2002 m_p versus m_n DSSSD #1 (LEC) z_hec=1
s2003 m_p versus m_n DSSSD #2 (LEC) z_hec=2
s2010 x versus y DSSSD #1 (LEC)
s2011 x versus y DSSSD #2 (LEC)
s2020 E_p versus E_n DSSSD #1 (LEC)
s2021 E_p versus E_n DSSSD #2 (LEC)
s2030 LEC-LEC time DSSSD #1 (4.096us/ch)
s2031 LEC-LEC time DSSSD #2 (4.096us/ch)
s2040 x versus y DSSSD #1: HEC-LEC time < 1s
s2041 x versus y DSSSD #1: HEC-LEC time < 100s
s2045 x versus y DSSSD #2: HEC-LEC time < 1s
s2046 x versus y DSSSD #2: HEC-LEC time < 100s
s2100 m_p versus m_n DSSSD #1 (HEC)
s2101 m_p versus m_n DSSSD #2 (HEC)
s2110 x versus y DSSSD #1 (HEC)
s2111 x versus y DSSSD #2 (HEC)
s2112 x versus y DSSSD #1 (HEC) z_hec=1
s2113 x versus y DSSSD #2 (HEC) z_hec=3
s2120 E_p versus E_n DSSSD #1 (HEC)
s2121 E_p versus E_n DSSSD #2 (HEC)
s2122 E_p versus E_n DSSSD #1 (HEC) z_hec=1
s2123 E_p versus E_n DSSSD #2 (HEC) z_hec=3
s2124 E_p DSSSD #2 versus E_p DSSSD #1 (HEC) z_hec=3
s2125 dx versus dy (HEC)
s2126 dx versus dy (LEC)
s2127 E_p DSSSD #2 versus E_p DSSSD #1 (LEC)
s2130 HEC-HEC time DSSSD #1 (4.096us/ch)
s2131 HEC-HEC time DSSSD #2 (4.096us/ch)
s2200 per pixel HEC-LEC time DSSSD #1 (4.096us/ch)
s2201 per pixel HEC-LEC time DSSSD #2 (4.096us/ch)
s2220 per pixel HEC-LEC time DSSSD#1 (1s/ch) x,y,z HEC gate
s2221 per pixel HEC-LEC time DSSSD#2 (1s/ch) x,y,z HEC gate
s2210 per pixel HEC-LEC time DSSSD #1 (65.536us/ch)
s2211 per pixel HEC-LEC time DSSSD #2 (65.5360us/ch)
s2300 HEC E versus HEC-LEC dt DSSSD#1 (1s/ch)
s2301 HEC E versus HEC-LEC dt DSSSD#2 (1s/ch)
s2400 LEC E versus HEC-LEC dt DSSSD#1 (1s/ch)
s2401 LEC E versus HEC-LEC dt DSSSD#2 (1s/ch)
s2500 HEC xy versus HEC-LEC dt DSSSD#1 (1s/ch)
s2501 HEC xy versus HEC-LEC dt DSSSD#2 (1s/ch)
s3000 x versus y DSSSD #1 (LEC) Other
s3001 x versus y DSSSD #2 (LEC) Other
s3010 E_p versus E_n DSSSD #1 (LEC) Other
s3011 E_p versus E_n DSSSD #2 (LEC) Other
s3030 DSSSD#1 xy dt (HEC)
s3031 DSSSD#2 xy dt (HEC)
s3032 DSSSD#1 xy dt (LEC)
s3033 DSSSD#2 xy dt (LEC)
|
| Attachment 27: variables.dat
|
$variables
offset( 0) = 34.20
offset( 1) = 27.50
offset( 2) = -18.51
offset( 3) = 13.56
offset( 4) = -6.12
offset( 5) = -14.51
offset( 6) = 11.86
offset( 7) = -0.19
offset( 8) = 2.52
offset( 9) = 24.94
offset( 10) = 7.54
offset( 11) = -20.01
offset( 12) = -0.93
offset( 13) = 26.51
offset( 14) = -12.75
offset( 15) = -4.72
offset( 16) = 5.48
offset( 17) = -8.97
offset( 18) = 4.25
offset( 19) = -3.19
offset( 20) = -40.78
offset( 21) = -0.95
offset( 22) = -14.62
offset( 23) = -28.18
offset( 24) = -12.96
offset( 25) = 14.90
offset( 26) = -32.39
offset( 27) = 0.66
offset( 28) = 6.68
offset( 29) = 99999.99
offset( 30) = 15.03
offset( 31) = -2.98
offset( 32) = 16.22
offset( 33) = 27.02
offset( 34) = 99999.99
offset( 35) = 17.09
offset( 36) = 17.72
offset( 37) = 16.29
offset( 38) = 23.46
offset( 39) = 27.55
offset( 40) = 9.26
offset( 41) = 34.03
offset( 42) = 2.46
offset( 43) = 8.62
offset( 44) = 29.61
offset( 45) = -14.47
offset( 46) = 42.23
offset( 47) = -27.52
offset( 48) = 1.06
offset( 49) = 4.03
offset( 50) = 22.04
offset( 51) = -10.44
offset( 52) = 38.54
offset( 53) = 8.66
offset( 54) = 20.65
offset( 55) = 0.35
offset( 56) = 5.19
offset( 57) = 19.55
offset( 58) = -5.57
offset( 59) = -7.26
offset( 60) = -21.96
offset( 61) = 5.89
offset( 62) = 36.14
offset( 63) = 3.05
offset( 64) = -15.80
offset( 65) = 25.02
offset( 66) = -15.94
offset( 67) = 6.19
offset( 68) = -19.87
offset( 69) = 0.37
offset( 70) = -9.68
offset( 71) = 9.68
offset( 72) = -11.13
offset( 73) = -6.20
offset( 74) = -25.35
offset( 75) = -25.57
offset( 76) = -19.75
offset( 77) = 8.60
offset( 78) = -22.55
offset( 79) = -10.56
offset( 80) = 5.90
offset( 81) = -1.29
offset( 82) = -1.52
offset( 83) = 0.00
offset( 84) = 24.56
offset( 85) = -10.73
offset( 86) = 11.96
offset( 87) = -35.20
offset( 88) = 16.67
offset( 89) = 10.31
offset( 90) = -13.86
offset( 91) = -33.64
offset( 92) = 2.96
offset( 93) = -2.41
offset( 94) = 1.80
offset( 95) = 26.72
offset( 96) = -18.06
offset( 97) = -0.82
offset( 98) = -19.61
offset( 99) = 0.00
offset( 100) = -11.22
offset( 101) = 9.13
offset( 102) = -29.56
offset( 103) = -1.95
offset( 104) = -14.24
offset( 105) = -21.87
offset( 106) = -7.47
offset( 107) = -14.22
offset( 108) = -6.72
offset( 109) = -4.35
offset( 110) = -12.98
offset( 111) = -11.42
offset( 112) = 5.39
offset( 113) = 16.43
offset( 114) = -10.19
offset( 115) = -13.21
offset( 116) = 19.82
offset( 117) = -4.45
offset( 118) = 21.88
offset( 119) = 13.84
offset( 120) = 10.16
offset( 121) = 0.00
offset( 122) = 0.00
offset( 123) = 0.00
offset( 124) = 13.42
offset( 125) = 4.74
offset( 126) = 10.81
offset( 127) = 16.15
offset( 128) = -4.37
offset( 129) = 21.60
offset( 130) = 8.61
offset( 131) = -2.95
offset( 132) = -10.00
offset( 133) = 2.40
offset( 134) = -9.40
offset( 135) = -24.68
offset( 136) = 4.46
offset( 137) = -0.20
offset( 138) = 20.63
offset( 139) = -25.14
offset( 140) = -7.48
offset( 141) = 13.71
offset( 142) = -4.11
offset( 143) = -9.17
offset( 144) = 15.36
offset( 145) = 11.07
offset( 146) = -13.21
offset( 147) = -8.91
offset( 148) = 4.75
offset( 149) = -10.47
offset( 150) = 18.10
offset( 151) = 0.62
offset( 152) = -2.18
offset( 153) = 5.79
offset( 154) = 2.73
offset( 155) = 17.67
offset( 156) = 15.58
offset( 157) = -34.45
offset( 158) = -1.55
offset( 159) = 12.93
offset( 160) = 4.16
offset( 161) = -15.55
offset( 162) = 17.51
offset( 163) = -5.30
offset( 164) = 8.65
offset( 165) = -13.48
offset( 166) = -10.14
offset( 167) = -3.75
offset( 168) = 12.28
offset( 169) = -23.31
offset( 170) = -11.44
offset( 171) = 5.06
offset( 172) = -15.18
offset( 173) = 17.88
offset( 174) = 12.26
offset( 175) = -13.64
offset( 176) = -9.33
offset( 177) = 21.57
offset( 178) = 28.82
offset( 179) = 27.67
offset( 180) = 62.22
offset( 181) = -2.89
offset( 182) = 17.11
offset( 183) = 11.80
offset( 184) = 17.26
offset( 185) = 15.52
offset( 186) = -8.89
offset( 187) = 15.53
offset( 188) = -11.80
offset( 189) = 0.85
offset( 190) = 11.21
offset( 191) = 7.76
offset( 192) = 5.12
offset( 193) = 26.29
offset( 194) = 99999.99
offset( 195) = 7.45
offset( 196) = 99999.99
offset( 197) = 2.31
offset( 198) = -1.94
offset( 199) = 99999.99
offset( 200) = -0.41
offset( 201) = -23.18
offset( 202) = -1.82
offset( 203) = 17.39
offset( 204) = -10.40
offset( 205) = -13.42
offset( 206) = 8.22
offset( 207) = 2.93
offset( 208) = -56.48
offset( 209) = -10.42
offset( 210) = 50.72
offset( 211) = 0.45
offset( 212) = 27.74
offset( 213) = -16.62
offset( 214) = 15.39
offset( 215) = -13.44
offset( 216) = 34.58
offset( 217) = 15.20
offset( 218) = -3.05
offset( 219) = -0.28
offset( 220) = -40.52
offset( 221) = -31.47
offset( 222) = 20.29
offset( 223) = -13.69
offset( 224) = -1.11
offset( 225) = 33.58
offset( 226) = -16.57
offset( 227) = -4.95
offset( 228) = -11.93
offset( 229) = 7.06
offset( 230) = -2.90
offset( 231) = -38.90
offset( 232) = -8.84
offset( 233) = 1.20
offset( 234) = 3.21
offset( 235) = 17.26
offset( 236) = 4.76
offset( 237) = 13.15
offset( 238) = 13.66
offset( 239) = -2.42
offset( 240) = -1.46
offset( 241) = 0.03
offset( 242) = 20.72
offset( 243) = -0.74
offset( 244) = -2.03
offset( 245) = -36.41
offset( 246) = 5.31
offset( 247) = 3.45
offset( 248) = -9.35
offset( 249) = 8.61
offset( 250) = 6.18
offset( 251) = -72.01
offset( 252) = 11.53
offset( 253) = -13.74
offset( 254) = -2.41
offset( 255) = -16.47
offset( 256) = 6.19
offset( 257) = 13.35
offset( 258) = 10.44
offset( 259) = 16.45
offset( 260) = 13.62
offset( 261) = 36.59
offset( 262) = 24.89
offset( 263) = 11.04
offset( 264) = 12.12
offset( 265) = -1.04
offset( 266) = 20.55
offset( 267) = -19.88
offset( 268) = 10.57
offset( 269) = 31.05
offset( 270) = 23.09
offset( 271) = -17.38
offset( 272) = -18.40
offset( 273) = 16.00
offset( 274) = -5.59
offset( 275) = -3.98
offset( 276) = 0.70
offset( 277) = 4.32
offset( 278) = -13.61
offset( 279) = 26.62
offset( 280) = 17.81
offset( 281) = 7.10
offset( 282) = -30.97
offset( 283) = 13.50
offset( 284) = 88.96
offset( 285) = -0.03
offset( 286) = 8.64
offset( 287) = 1.86
offset( 288) = 4.27
offset( 289) = 19.21
offset( 290) = -33.21
offset( 291) = -28.54
offset( 292) = 7.98
offset( 293) = -8.69
offset( 294) = 1.27
offset( 295) = 20.08
offset( 296) = 15.92
offset( 297) = -4.67
offset( 298) = 30.68
... 1788 more lines ...
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699
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Thu Feb 20 17:06:42 2025 |
JB, CC, TD,MP | WR error for aida 13,14,15,16 |
WR timestamp errors resolved after reseating the HDMI cables to the MACB |
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698
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Wed Feb 12 10:46:01 2025 |
TD | Offline analysis data files S181 R4_351-396 |
Analysis data files R4_351-396
Data file R4_351 first WR ts 0x17D7B4C72B0BA9C8
Converting hexadecimal timestamp to decimal: 1718040550378809900
Assuming that this timestamp is in nanoseconds (1 billionth of a second):
GMT: Monday, June 10, 2024 5:29:10.378 PM
Your time zone: Monday, June 10, 2024 6:29:10.378 PM GMT+01:00 DST
Relative: 8 months ago
Data file R4_396 first WR ts 0x17D7BE86408888E8
Converting hexadecimal timestamp to decimal: 1718051266682718500
Assuming that this timestamp is in nanoseconds (1 billionth of a second):
GMT: Monday, June 10, 2024 8:27:46.682 PM
Your time zone: Monday, June 10, 2024 9:27:46.682 PM GMT+01:00 DST
Relative: 8 months ago
Attachments 1-2 - analysis data files R4_351 and R4_396
max. *time averaged* deadtime FEE64 #7 (aida08) 1.7% and 1.7% respectively
all other FEE64 deadtimes < 1%
FEE64 configuration
FEE64 a b c
g h
d e f
a b c d e f g h
DSSSD#1 15 3 12 9 1 5 2 4
DSSSD#2 11 7 16 10 14 13 6 8
n+n Ohmic FEE64s 2, 4, 6, 8
Data analysis assumes
- all LEC ADC data channels with valid ADC offset included (1012 of 1024 channels)
LEC calibration ADC offset only
- no clustering
- no multiplex timestamp correction
- no p+n junction side - n+n Ohmic side correlation time gates
- FEE64 *not* DSSSD strip ordering
- hardware - slow comparator setting p+n junction FEE64s 100keV, n+n Ohmic FEE64s 150keV
- LEC energy difference +/- 11200keV (wide open for first pass analysis)
- HEC energy difference +/- 1.68GeV
- valid LEC events
p+n junction side multiplicity = 1 and n+n Ohmic side multiplicity = 1
LEC energy > 151keV
to select candidate beta and alpha events - will include light ions
standalone analysis of AIDA data, no downstream veto detector
- valid HEC events
p+n junction side multiplicity > 0 and n+n Ohmic side multiplicity > 0
(x,y) strips corresponding to maximum energy
p+n junction and n+n Ohmic side HEC
- HEC veto
p+n junction side multiplicity > 0 or n+n Ohmic side multiplicity > 0
- per pixel implant-decay correlations
- end of event
difference in WR timestamp between successive ADC data items > 2500 and overall event length < 33us
Number of events observed
*** scaler # 1 count: 35941696 DSSSD#1 decay events LEC m_p = 1 and LEC m_n = 1, ADC data > 151.2keV *and* HEC m_p = HEC m_n = 0, ADC data > 151.2MeV
*** scaler # 2 count: 31960753 DSSSD#2 decay events LEC m_p = 1 and LEC m_n = 1, ADC data > 151.2keV *and* HEC m_p = HEC m_n = 0, ADC data > 151.2MeV
*** scaler # 3 count: 1499844 DSSSD#1 implant events HEC m_p > 0 and HEC m_n > 0, ADC data > 151.2MeV
*** scaler # 4 count: 1297356 DSSSD#2 implant events HEC m_p > 0 and HEC m_n > 0, ADC data > 151.2MeV
*** scaler # 5 count: 5446969 DSSSD#1 other events HEC m_p > 0 or HEC m_n > 0 *and* LEC m_p > 8 or LEC m_n > 8
*** scaler # 6 count: 75030747 DSSSD#2 other events HEC m_p > 0 or HEC m_n > 0 *and* LEC m_p > 8 or LEC m_n > 8
DSSSD#1 implant events
x=m_p=0 ?
y=m_n=0 ?
DSSSD#2 implant events
x=m_p=0 ?
y=m_n=0 ?
Attachments 3-6 - per FEE64 LEC data item rates 268ms/channel - common x and y scales
- no conditions
- 150keV < energy < 1500keV
- energy > 1500keV
Some deadtime observed on spill, none observed off spill. No significant variation in per FEE64 LEC data rates.
Attachments 7-8 - per FEE64 LEC hit patterns
- 150keV < energy < 1500keV
- energy > 1500keV
Aside from usual hot channels at cable/DSSSD boundaries good hit pattern observed. For > 1500keV events observe flat field in x-plane, focussed in y-plane.
Attachments 9-11 - per FEE64 HEC data item rates 268ms/channel - common x and y scales
- no conditions
- 100MeV < energy < 1000MeV
- energy > 1000MeV
Note hot HEC channel in aida08 - should be disabled.
Attachment 12 - per DSSSD decay and implant rates 262us/channel - common x and y scales
Attachment 13 - per DSSSD LEC m_p versus m_n
- no conditions
Attachment 14 - per DSSSD LEC p strip versus n strip
- no conditions
Attachments 15-16 - per DSSSD LEC E_p versus E_n - x and y-axes 20keV/channel
- LEC energy difference +/- 2000 channels (+/- 11200keV)
Attachments 17-18 - per DSSSD p strip versus n strip
- HEC-LEC time difference <1s
- HEC-LEC time difference <100s
Attachment 19 - per DSSSD HEC m_p versus m_n
Attachment 20 - per DSSSD HEC p strip versus n strip
- no conditions
- z_hec=1 => implant stops in DSSSD#1
- z_hec=3 => implant hits DSSSD#1 and DSSSD#2 but does not necessarily stop in DSSSD#2
Attachment 21 - per DSSSD HEC E_p versus E_n - x and y axes 20MeV/channel
Attachment 22 - DSSSD#1 HEC E_p versus DSSSD#2 HEC E_p - x and y axes 20MeV/channel
- few events stop in DSSSD#2
- most events lower Z and A - fission fragments?
Attachment 23 - per DSSSD per pixel HEC-LEC time difference 4.096us/channel
- events observed to <<100us
Attachment 24 - per DSSSD per pixel HEC-LEC time difference (1s/channel) versus LEC energy (20keV/channel)
- alpha events long lived
- some evidence of effect of on spill deadtime in implant-decay correlations (cf. S100 and S505)
Attachment 25 - per DSSSD implant and decay event p strip - n strip time difference (2us/channel)
- wider distribution for implant events as expected due to number of ASIC active channels in implant events
- most decay events +/-2us - lower ASIC occupancy for decay events so most events will be from same (or adjacent) clock cycle |
| Attachment 1: R4_396.txt
|
*** TDR format 3.3.0 analyser - TD - May 2021
*** ERROR: READ I/O error: 5002
blocks: 32000
ADC data format: 256709815 ( 1065042.5 Hz)
Other data format: 5210185 ( 21616.1 Hz)
Sample trace data format: 0 ( 0.0 Hz)
Undefined format: 0 ( 0.0 Hz)
Other data format type: PAUSE: 653 ( 2.7 Hz)
RESUME: 653 ( 2.7 Hz)
SYNC100: 32897 ( 136.5 Hz)
WR48-63: 32897 ( 136.5 Hz)
FEE64 disc: 0 ( 0.0 Hz)
MBS info: 5143085 ( 21337.7 Hz)
Other info: 0 ( 0.0 Hz)
ADC data range bit set: 639531 ( 2653.3 Hz)
Timewarps: ADC: 0 ( 0.0 Hz)
PAUSE: 0 ( 0.0 Hz)
RESUME: 0 ( 0.0 Hz)
SYNC100: 0 ( 0.0 Hz)
WR48-63: 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: 241.032 s
FEE elapsed dead time(s) elapsed idle time(s)
0 0.000 0.000
1 0.017 0.000
2 0.000 0.000
3 0.848 0.000
4 0.000 0.000
5 0.227 0.000
6 0.000 0.000
7 4.199 0.000
8 0.000 0.000
9 1.796 0.000
10 0.020 0.000
11 0.000 0.000
12 0.000 0.000
13 0.000 0.000
14 0.000 0.000
15 0.823 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 0.000 0.000
23 0.000 0.000
24 0.000 0.000
25 0.000 0.000
26 0.000 0.000
27 0.000 0.000
28 0.000 0.000
29 0.000 0.000
30 0.000 0.000
31 0.000 0.000
32 0.000 0.000
*** Statistics
FEE ADC Data Other Data Sample Undefined Pause Resume SYNC100 WR48-63 Disc MBS Other HEC Data
0 3315802 8090 0 0 0 0 430 430 0 7230 0 9958
1 8650533 2148 0 0 3 3 1071 1071 0 0 0 24316
2 7128165 1944546 0 0 0 0 1082 1082 0 1942382 0 12931
3 24378546 6508 0 0 152 152 3102 3102 0 0 0 19563
4 2929004 400994 0 0 0 0 424 424 0 400146 0 12707
5 19313956 4950 0 0 45 45 2430 2430 0 0 0 22052
6 5646509 333129 0 0 0 0 723 723 0 331683 0 12637
7 62853684 16350 0 0 195 195 7980 7980 0 0 0 436912
8 8105988 2098 0 0 0 0 1049 1049 0 0 0 14497
9 45373582 1939538 0 0 183 183 6118 6118 0 1926936 0 14193
10 14519870 3442 0 0 13 13 1708 1708 0 0 0 8558
11 2400015 535424 0 0 0 0 358 358 0 534708 0 14419
12 4828613 1128 0 0 0 0 564 564 0 0 0 8079
13 7222020 1834 0 0 0 0 917 917 0 0 0 12852
14 3474619 796 0 0 0 0 398 398 0 0 0 8899
15 36568909 9210 0 0 62 62 4543 4543 0 0 0 6958
16 0 0 0 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0 0 0 0
*** Timewarps
FEE ADC Pause Resume SYNC100 WR48-63 Disc MBS Undefined Samples
0 0 0 0 0 0 0 0 0 0
1 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0
*** Program elapsed time: 26.098s ( 1226.164 blocks/s, 76.635 Mb/s)
|
| Attachment 2: R4_351.txt
|
*** TDR format 3.3.0 analyser - TD - May 2021
*** ERROR: READ I/O error: 5002
blocks: 32000
ADC data format: 256848692 ( 1048248.2 Hz)
Other data format: 5071308 ( 20697.0 Hz)
Sample trace data format: 0 ( 0.0 Hz)
Undefined format: 0 ( 0.0 Hz)
Other data format type: PAUSE: 624 ( 2.5 Hz)
RESUME: 624 ( 2.5 Hz)
SYNC100: 32913 ( 134.3 Hz)
WR48-63: 32913 ( 134.3 Hz)
FEE64 disc: 0 ( 0.0 Hz)
MBS info: 5004234 ( 20423.2 Hz)
Other info: 0 ( 0.0 Hz)
ADC data range bit set: 629529 ( 2569.2 Hz)
Timewarps: ADC: 0 ( 0.0 Hz)
PAUSE: 0 ( 0.0 Hz)
RESUME: 0 ( 0.0 Hz)
SYNC100: 0 ( 0.0 Hz)
WR48-63: 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: 245.027 s
FEE elapsed dead time(s) elapsed idle time(s)
0 0.000 0.000
1 0.032 0.000
2 0.000 0.000
3 0.744 0.000
4 0.000 0.000
5 0.181 0.000
6 0.000 0.000
7 4.062 0.000
8 0.000 0.000
9 1.739 0.000
10 0.001 0.000
11 0.000 0.000
12 0.000 0.000
13 0.000 0.000
14 0.000 0.000
15 1.087 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 0.000 0.000
23 0.000 0.000
24 0.000 0.000
25 0.000 0.000
26 0.000 0.000
27 0.000 0.000
28 0.000 0.000
29 0.000 0.000
30 0.000 0.000
31 0.000 0.000
32 0.000 0.000
*** Statistics
FEE ADC Data Other Data Sample Undefined Pause Resume SYNC100 WR48-63 Disc MBS Other HEC Data
0 3260523 8194 0 0 0 0 422 422 0 7350 0 9200
1 8620748 2224 0 0 6 6 1106 1106 0 0 0 21909
2 7063739 1926312 0 0 0 0 1116 1116 0 1924080 0 12003
3 24732934 6660 0 0 134 134 3196 3196 0 0 0 17638
4 2925688 370692 0 0 0 0 405 405 0 369882 0 11429
5 18974781 4842 0 0 34 34 2387 2387 0 0 0 20060
6 5599469 300187 0 0 0 0 782 782 0 298623 0 11800
7 63229156 16356 0 0 190 190 7988 7988 0 0 0 445010
8 7941245 2048 0 0 0 0 1024 1024 0 0 0 13314
9 45626532 1921841 0 0 173 173 5873 5873 0 1909749 0 13056
10 14656402 3672 0 0 3 3 1833 1833 0 0 0 7698
11 2320422 495242 0 0 0 0 346 346 0 494550 0 12993
12 4691764 1142 0 0 0 0 571 571 0 0 0 7316
13 6904909 1676 0 0 0 0 838 838 0 0 0 11812
14 3448942 796 0 0 0 0 398 398 0 0 0 7967
15 36851438 9424 0 0 84 84 4628 4628 0 0 0 6324
16 0 0 0 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0 0 0 0
*** Timewarps
FEE ADC Pause Resume SYNC100 WR48-63 Disc MBS Undefined Samples
0 0 0 0 0 0 0 0 0 0
1 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0
*** Program elapsed time: 25.203s ( 1269.684 blocks/s, 79.355 Mb/s)
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| Attachment 3: Screenshot_from_2025-02-12_08-46-38.png
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| Attachment 4: Screenshot_from_2025-02-12_08-49-32.png
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| Attachment 25: Screenshot_from_2025-02-12_09-12-14.png
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697
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Fri Jan 31 17:26:47 2025 |
CC, TD, MP | Friday 31 January contd. |
18.18 bPlas and BB7 installs complete
Restart AIDA DAQ, Merger, Tape Server and re-test
per p+n FEE64 1.8.L spectra - attachment 1
aida09 pulser peak width 69 ch FWHM = 42keV FWHM
per FEE64 Rate Spectra - attachment 2
BB18 p+n FEE64s very good/good, n+n FEE64s OK - could be improved
BB7 aida10 p+n asics good, n+n asics 1x good, 1x OK
per FEE64 1.8.W spectra - 20us FSR - attachments 3-5
ADC data item stats - attachment 6
aida01 aida03 30k, all other BB18 p+n FEE64s < 20k, n+n FEE64s 100/270k
BB7 aida10 19k
WR timestamps OK - attachment 7
Merger, TapeSever etc - attachments 8-9
disk directpry /TapeData/FEB25
working OK
DSSSD bias & leakage current OK - attachment 10
System wide checks OK - attachment 11-15
note global clock status 6 errors reported earlier today have now gone
FEE64 temperatures OK - attachment 16
18.38 Transition to safe state
DAQ STOP
disable data transfer 1
detector bias OFF
FEE64 power OFF
Can restart as follows
1) FEE64 power ON
2) DAQ RESET
3) DAQ SETUP
4) Enable histogramming
5) Enable waveforms
6) Detector bias ON
7) Restore ASIC settings
8) ASIC Control
9) FEE64 temperatures
10) System wide checks
sync ASIC clocks
11) FADC control - calibrate ADCS for *all* FEE64s
12) System wide checks contd.
13) DAQ GO
14) Check ADC data item stats
15) Check WR timestamps
If all OK can re-connect to Merger/TapeServer as follows
1) DAQ STOP
2) enable data transfer 1
3) DAQ GO
Can disconnect from Merger/TapeServer as follows
1) DAQ STOP
2) disable data transfer 1
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| Attachment 1: Screenshot_from_2025-01-31_18-18-17.png
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| Attachment 2: Screenshot_from_2025-01-31_18-19-19.png
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696
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Fri Jan 31 13:48:29 2025 |
JB | AIDA analysis from HI-DESPEC meeting 20.11.2024 |
AIDA analysis and presentation by J. Bormans for AIDA made in the HISPEC-DESPEC collaboration meeting.
https://docs.google.com/presentation/d/1hlZ30r294UqbVKGy3jg-wompFpc7TSfD/edit?usp=sharing&ouid=102131181856760114019&rtpof=true&sd=true |
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695
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Fri Jan 31 09:37:47 2025 |
CC, TD, MP | Friday 31 January |
Implantation stack mounted - BB18(DS)-1000 + bPlas + bPlas + 3x BB7(DS)-1000
N.B. aida02, aida09 & aida15 have grounded copper screen (3M 1245 - aluminimum braid to copper screen of ribbon cables) for Kapton PCBs connecting the Samtec ribbon cables to the BB18 DSSSD.
n+n FEE64s aida02, aida04, aida06 and aida08 LK1 fitted
p+n FEE64s aida03 and aida07 LK3 fitted
BB7 aida10 (asics #1-2 p+n, #3-4 n+n)
BB18 p+n FEE64s 9-15, 1-3, 5-12 - n+n FEE64s 2-4 (L-R looking downstream)
10.30 FEE64 power ON
DSSSD bias ON (BB18 only) - attachment 1
leakage current OK
ASIC settings 2024Dec13-17.02.45 restored
p+n FEE64 slow comparator 0xa, n+n FEE64 slow comparator 0xf
Attachments 2-7 WR timestamp aida05 & aida12, system wide check
aida12 & aida05 global clock status 6 - to be checked - OK for initial tests without merger
WR decoder status aida02
per FEE64 Rate spectra - attachment 8
aida10 high rate - BB7 not biased
rates OK for p+n FEE64s, rates high for n+n FEE64s - to be checked
BNC PB-5 pulser ON to p+n FEE64s - no obvious adaptor PCB misalignments
ADC data item stats - attachment 9
rates generally OK
aida10 high - BB7 not biased
aida02 & aida04 n+n FEE64s - rates high - to be checked when bPlas install complete
all p+n FEE64s connected to BB18 <10K except aida05 25k - very good!
BNC PB-5 settings - attachment 10
WR timestamps OK - attachment 11
FEE64 temperatures OK - attachment 12
12.15 bPlas driver PCB installed, bPlas cabling and grounds *not* connected yet
ADC data item stats - attachment 13
all rates higher cf. attachment 9
per FEE64 Rate spectra - attachment 14
per p+n FEE64 1.8.L spectra - attachment 15
aida09 pulser peak width 69 ch FWHM = 49keV FWHM
aida14 pulser peak width 50 ch FWHM = 35keV FWHM
per p+n FEE64 1.8.W spectra - 20us FSR - attachments 16-17
per n+n FEE64 1.8W spectra - 20us FSR - attachment 18
DSSSD bias & leakage current OK - attachment 19
ambient temperature +21.6 deg C, d.p. +0.4 deg C, RH 24.4%
FEE64 temperatures OK - attachment 20
DSSSD bias volatge & leakage current OK - attachment 21
CAEN N1419ET ch#0 BB18, ch#1 BB7
Install of bPlas drivers, cabling, grounds complete
ADC data item stats - attachment 22
per FEE64 Rate spectra - attachment 23
all BB18 p+n FEE64s *except* aida05 show very low rates of noise
per p+n FEE64 1.8.L spectra - attachment 24
aida09 pulser peak width 62 ch FWHM = 42keV FWHM
BB18 p+n FEE64s better electronic noise cf. p+n FEE64s not connected to a DSSSD
per FEE64 1.8.W spectra - 20us FSR - attachments 25-26 |
| Attachment 1: Screenshot_from_2025-01-31_10-39-16.png
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| Attachment 2: Screenshot_from_2025-01-31_10-58-48.png
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Wed Jan 15 11:58:08 2025 |
TD | Offline analysis data files S505 R3_9 - R3_128 (207Hg setting) |
Aanlysis data files R3_9 - R3_128 (207Hg setting)
Data file R3_9 first WR ts 0x16FB110A37376D88
GMT: Wednesday, June 22, 2022 10:13:43.562 PM
Your time zone: Wednesday, June 22, 2022 11:13:43.562 PM GMT+01:00 DST
Data file R3_69 first WR ts 0x16FB2286FAD71896
GMT: Thursday, June 23, 2022 3:34:11.118 AM
Your time zone: Thursday, June 23, 2022 4:34:11.118 AM GMT+01:00 DST
Data file R3_128 first WR ts 0x16FB35DF179BD866
GMT: Thursday, June 23, 2022 9:28:40.278 AM
Your time zone: Thursday, June 23, 2022 10:28:40.278 AM GMT+01:00 DST
Attachments 1-3 - analysis data files R3_9, R_69, and R3_128
max. *time averaged* deadtime FEE64 #1 (aida02) 15.7%, 8.6% and 15.6% respectively
all other FEE64 deadtimes < 2%
*** scaler( 1): 120442206 DSSSD#1 decay events LEC m_p = 1 and LEC m_n = 1, 151.2keV < ADC data < 1008keV *and* HEC m_p = HEC m_n = 0, ADC data > 151.2MeV
*** scaler( 2): 51126024 DSSSD#2 decay events LEC m_p = 1 and LEC m_n = 1, 151.2keV < ADC data < 1008keV *and* HEC m_p = HEC m_n = 0, ADC data > 151.2MeV
*** scaler( 3): 5630250 DSSSD#1 implant events HEC m_p > 0 and HEC m_n > 0, ADC data > 151.2MeV
*** scaler( 4): 4983984 DSSSD#2 implant events HEC m_p > 0 and HEC m_n > 0, ADC data > 151.2MeV
*** scaler( 5): 42439339 DSSSD#1 other events HEC m_p > 0 or HEC m_n > 0 *and* LEC m_p > 8 or LEC m_n > 8
*** scaler( 6): 22316289 DSSSD#2 other events HEC m_p > 0 or HEC m_n > 0 *and* LEC m_p > 8 or LEC m_n > 8
*** scaler( 7): 0
*** scaler( 8): 0
*** scaler( 9): 0
*** scaler(10): 2464294601 FEE64 #1 LEC data items
*** scaler(11): 7641292106
*** scaler(12): 3547670559
*** scaler(13): 6144404472
*** scaler(14): 637262222
*** scaler(15): 2302716728
*** scaler(16): 4511293677
*** scaler(17): 3857002960 FEE64 #8 LEC data items
*** scaler(18): 0
*** scaler(19): 0
*** scaler(20): 7697923 FEE64 #1 HEC data items
*** scaler(21): 7169894
*** scaler(22): 10028407
*** scaler(23): 3045622
*** scaler(24): 4246633
*** scaler(25): 5564911
*** scaler(26): 7196158
*** scaler(27): 1960591 FEE64 #8 HEC data items
*** scaler(28): 0
*** scaler(29): 0
*** scaler(30): 0
*** scaler(31): 0
*** scaler(32): 0
DSSSD#1 implant events
x=m_p=0 1334587
y=m_n=0 4860983
DSSSD#2 implant events
x=m_p=0 1159736
y=m_n=0 2757735
Attachment 4 - per DSSSD LEC E_p versus E_n - x and y-axes 20keV/channel
- LEC energy difference +/- 2000 channels (+/- 11200keV)
- Do not observe the off-axis energy correlations observed in the postrun background/calibration runs
- Do observe expected inter strip charge sharing and charge sharing at DSSSD active area boundary
All subsequent spectra LEC energy difference +/-20 channels (+/- 112keV)
Attachments 5-7 - per FEE64 LEC data item rates (Hz) 268ms/channel - common x and y scales
- no conditions
- 150keV < energy < 1500keV
- energy > 1500keV
Note structure in > 1500keV data not restricted to on spill
Attachments 8-10 - per FEE64 HEC data item rates (Hz) 268ms/channel - common x and y scales
- no conditions
- 100MeV < energy < 1000MeV
- energy > 1000MeV
Attachment 11 per DSSSD decay and implant rates (Hz) 268ms/channel =- common x and y scales
- significant on spill deadtime for DSSSD#1
Attachment 12 - per DSSSD LEC m_p versus m_n
- no conditions
- z_hec=1 (DSSSD#1) and z_hec=3 (DSSSD#2)
Attachment 13 - per DSSSD LEC p strip versus n strip
Attachment 14 - per DSSSD LEC E_p versus E_n - x and y axes 20keV/channel
Attachment 15 - per DSSSD per pixel time difference between successive LEC events (4.096us/channel)
- minimum time difference c. 4us
Attachment 16 - per DSSSD HEC m_p versus m_n
- many more m=0 observed cf. RIKEN data e.g. https://elog.ph.ed.ac.uk/AIDA/583
- more low energy HEC events?
Attachment 17 - per DSSSD HEC p strip versus n strip
- no conditions
- z_hec=1 (DSSSD#1) and z_hec=3 (DSSSD#2)
- z_hec=1 => implant stops in DSSSD#1
- z_hec=3 => implant hits DSSSD#1 and DSSSD#2 but does not necessarily stop in DSSSD#2
Attachment 18 - per DSSSD HEC E_p versus E_n - x and y axes 20MeV/channel
Attachment 19 - DSSSD#1 HEC E_p versus DSSSD#2 E_p - x and y axes 20MeV/channel
Attachment 20 - DSSSD#1 LEC E_p versus DSSSD#2 E_p - x and y axes 20keV/channel
- y=0 12816818
- x=0 7374435
- x>0 and y>0 2295693
Attachment 21 - per DSSSD per pixel time difference between successive HEC events (4.096us/channel)
- minimum time difference c. 36us which make sense - c. readout time of ASIC with all 16 channels active
- origin of 9 channel period spectrum structure?
Attachments 22-23 - per DSSSD per pixel time difference between HEC and LEC events (4.096us/channel)
Attachments 24 - per DSSSD per pixel time difference between HEC and LEC events (1s/channel)
- for ions stopped in DSSSD#1 or DSSSD'2 - no PID selection
- minimum time difference c. 88us
- effect of high on spill deadtime apparent per S100 analysis
Attachment 25 - per DSSSD per pixel time difference between HEC and LEC events (1s/channel) versus
- HEC energy
- LEC energy
- p and n strip
Attachment 26 - per DSSSD implant and decay event p strip - n strip time difference (2us/channel)
- wider distribution for implant events expected due to number of ASIC active channels in implant events
- most decay events +/-2us - lower ASIC occupancy for decay events so most events will be from same (or adjacent) clock cycle
Attachment 27 - per DSSSD decay event p strip - n strip time difference (2us/channel) versus decay (E_p - E_n) (20keV channel) |
| Attachment 1: R3_9.txt
|
*** TDR format 3.3.0 analyser - TD - May 2021
*** ERROR: READ I/O error: 5002
blocks: 20656
ADC data format: 167972075 ( 847983.1 Hz)
Other data format: 1097285 ( 5539.5 Hz)
Sample trace data format: 0 ( 0.0 Hz)
Undefined format: 0 ( 0.0 Hz)
Other data format type: PAUSE: 794 ( 4.0 Hz)
RESUME: 793 ( 4.0 Hz)
SYNC100: 21394 ( 108.0 Hz)
WR48-63: 21394 ( 108.0 Hz)
FEE64 disc: 0 ( 0.0 Hz)
MBS info: 1052910 ( 5315.5 Hz)
Other info: 0 ( 0.0 Hz)
ADC data range bit set: 290405 ( 1466.1 Hz)
Timewarps: ADC: 0 ( 0.0 Hz)
PAUSE: 0 ( 0.0 Hz)
RESUME: 0 ( 0.0 Hz)
SYNC100: 0 ( 0.0 Hz)
WR48-63: 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: 198.084 s
FEE elapsed dead time(s) elapsed idle time(s)
0 0.300 0.000
1 31.132 0.000
2 0.869 0.000
3 3.536 0.000
4 0.001 0.000
5 0.108 0.000
6 0.157 0.000
7 0.073 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 0.000 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 0.000 0.000
23 0.000 0.000
24 0.000 0.000
25 0.000 0.000
26 0.000 0.000
27 0.000 0.000
28 0.000 0.000
29 0.000 0.000
30 0.000 0.000
31 0.000 0.000
32 0.000 0.000
*** Statistics
FEE ADC Data Other Data Sample Undefined Pause Resume SYNC100 WR48-63 Disc MBS Other HEC Data
0 13716339 17472 0 0 25 25 1820 1820 0 13782 0 46978
1 39159612 10957 0 0 457 456 5022 5022 0 0 0 45173
2 20693073 268290 0 0 53 53 2641 2641 0 262902 0 61677
3 33985341 266701 0 0 182 182 4320 4320 0 257697 0 18991
4 3620137 906 0 0 1 1 452 452 0 0 0 26130
5 12686167 3294 0 0 28 28 1619 1619 0 0 0 34215
6 22242523 257563 0 0 28 28 2791 2791 0 251925 0 44896
7 21868883 272102 0 0 20 20 2729 2729 0 266604 0 12345
8 0 0 0 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0 0 0 0
*** Timewarps
FEE ADC Pause Resume SYNC100 WR48-63 Disc MBS Undefined Samples
0 0 0 0 0 0 0 0 0 0
1 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0
*** Program elapsed time: 15.047s ( 1372.777 blocks/s, 85.799 Mb/s)
|
| Attachment 2: R3_128.txt
|
*** TDR format 3.3.0 analyser - TD - May 2021
*** ERROR: READ I/O error: 5002
blocks: 32000
ADC data format: 260500382 ( 683029.0 Hz)
Other data format: 1419618 ( 3722.2 Hz)
Sample trace data format: 0 ( 0.0 Hz)
Undefined format: 0 ( 0.0 Hz)
Other data format type: PAUSE: 995 ( 2.6 Hz)
RESUME: 995 ( 2.6 Hz)
SYNC100: 33421 ( 87.6 Hz)
WR48-63: 33421 ( 87.6 Hz)
FEE64 disc: 0 ( 0.0 Hz)
MBS info: 1350786 ( 3541.7 Hz)
Other info: 0 ( 0.0 Hz)
ADC data range bit set: 304165 ( 797.5 Hz)
Timewarps: ADC: 0 ( 0.0 Hz)
PAUSE: 0 ( 0.0 Hz)
RESUME: 0 ( 0.0 Hz)
SYNC100: 0 ( 0.0 Hz)
WR48-63: 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: 381.390 s
FEE elapsed dead time(s) elapsed idle time(s)
0 7.726 0.000
1 32.620 0.000
2 0.268 0.000
3 2.352 0.000
4 0.000 0.000
5 0.018 0.000
6 0.191 0.000
7 0.007 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 0.000 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 0.000 0.000
23 0.000 0.000
24 0.000 0.000
25 0.000 0.000
26 0.000 0.000
27 0.000 0.000
28 0.000 0.000
29 0.000 0.000
30 0.000 0.000
31 0.000 0.000
32 0.000 0.000
*** Statistics
FEE ADC Data Other Data Sample Undefined Pause Resume SYNC100 WR48-63 Disc MBS Other HEC Data
0 27020397 33470 0 0 171 171 3538 3538 0 26052 0 72108
1 70509491 19838 0 0 649 649 9270 9270 0 0 0 43322
2 25595248 343140 0 0 48 48 3306 3306 0 336432 0 47964
3 43087191 344986 0 0 74 74 5493 5493 0 333852 0 26057
4 4643105 1204 0 0 0 0 602 602 0 0 0 28001
5 18101121 4580 0 0 9 9 2281 2281 0 0 0 30316
6 41488735 327203 0 0 39 39 5131 5131 0 316863 0 41967
7 30055094 345197 0 0 5 5 3800 3800 0 337587 0 14430
8 0 0 0 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0 0 0 0
*** Timewarps
FEE ADC Pause Resume SYNC100 WR48-63 Disc MBS Undefined Samples
0 0 0 0 0 0 0 0 0 0
1 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0
*** Program elapsed time: 26.207s ( 1221.046 blocks/s, 76.315 Mb/s)
|
| Attachment 3: R3_69.txt
|
*** TDR format 3.3.0 analyser - TD - May 2021
*** ERROR: READ I/O error: 5002
blocks: 32000
ADC data format: 260136556 ( 817109.0 Hz)
Other data format: 1783444 ( 5601.9 Hz)
Sample trace data format: 0 ( 0.0 Hz)
Undefined format: 0 ( 0.0 Hz)
Other data format type: PAUSE: 1193 ( 3.7 Hz)
RESUME: 1193 ( 3.7 Hz)
SYNC100: 33186 ( 104.2 Hz)
WR48-63: 33186 ( 104.2 Hz)
FEE64 disc: 0 ( 0.0 Hz)
MBS info: 1714686 ( 5386.0 Hz)
Other info: 0 ( 0.0 Hz)
ADC data range bit set: 465695 ( 1462.8 Hz)
Timewarps: ADC: 0 ( 0.0 Hz)
PAUSE: 0 ( 0.0 Hz)
RESUME: 0 ( 0.0 Hz)
SYNC100: 0 ( 0.0 Hz)
WR48-63: 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: 318.362 s
FEE elapsed dead time(s) elapsed idle time(s)
0 0.277 0.000
1 49.537 0.000
2 0.739 0.000
3 6.304 0.000
4 0.000 0.000
5 0.184 0.000
6 0.280 0.000
7 0.034 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 0.000 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 0.000 0.000
23 0.000 0.000
24 0.000 0.000
25 0.000 0.000
26 0.000 0.000
27 0.000 0.000
28 0.000 0.000
29 0.000 0.000
30 0.000 0.000
31 0.000 0.000
32 0.000 0.000
*** Statistics
FEE ADC Data Other Data Sample Undefined Pause Resume SYNC100 WR48-63 Disc MBS Other HEC Data
0 21719834 27795 0 0 49 49 2783 2783 0 22131 0 76464
1 62193949 17584 0 0 707 707 8085 8085 0 0 0 68411
2 30630417 438786 0 0 77 77 3925 3925 0 430782 0 101110
3 52568475 429487 0 0 262 262 6724 6724 0 415515 0 29662
4 5873809 1474 0 0 0 0 737 737 0 0 0 42098
5 20399531 5188 0 0 27 27 2567 2567 0 0 0 56158
6 36994221 420854 0 0 55 55 4590 4590 0 411564 0 72312
7 29756320 442276 0 0 16 16 3775 3775 0 434694 0 19480
8 0 0 0 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0 0 0 0
*** Timewarps
FEE ADC Pause Resume SYNC100 WR48-63 Disc MBS Undefined Samples
0 0 0 0 0 0 0 0 0 0
1 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0
*** Program elapsed time: 23.504s ( 1361.476 blocks/s, 85.092 Mb/s)
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693
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Mon Jan 13 17:38:18 2025 |
TD | Offline analysis of S505 data files |
First timestamp of R2_105 0x16FAEC5E54AABF6C
GMT: Wednesday, June 22, 2022 11:01:42.903 AM
Your time zone: Wednesday, June 22, 2022 12:01:42.903 PM GMT+01:00 DST
First timestamp of R3_150 0x16FB3CE72ED53CB6
GMT: Thursday, June 23, 2022 11:37:31.609 AM
Your time zone: Thursday, June 23, 2022 12:37:31.609 PM GMT+01:00 DST
First timestamp of R5_35 0x16FB89F33F9B44E2
GMT: Friday, June 24, 2022 11:09:25.825 AM
Your time zone: Friday, June 24, 2022 12:09:25.825 PM GMT+01:00 DST
First timestamp of R5_299 0x16FBD8CC5DCBE912
GMT: Saturday, June 25, 2022 11:14:20.247 AM
Your time zone: Saturday, June 25, 2022 12:14:20.247 PM GMT+01:00 DST
First timestamp of R5_546 0x16FC220EA8ADB132
GMT: Sunday, June 26, 2022 9:36:49.320 AM
Your time zone: Sunday, June 26, 2022 10:36:49.320 AM GMT+01:00 DST
Attachments 1-5 - analysis of data files R2_105, R3_150, R5_35, R5_299, and R5_536 (c. one data file per day of S505)
FEE64 #1 (aida02) *time averaged* deadtime c. 12-18%, deadtime of all other FEE64s much lower
Attachments 6-10 - per DSSSD LEC p+n junction versus n+n Ohmic energy - X & y-axes 20keV/channel
No evidence of off-axis energy correlation observed in the postrun background/calibration runs - see https://elog.ph.ed.ac.uk/DESPEC/670 |
| Attachment 1: R2_105.txt
|
*** TDR format 3.3.0 analyser - TD - May 2021
*** ERROR: READ I/O error: 5002
blocks: 32000
ADC data format: 260590543 ( 842959.4 Hz)
Other data format: 1329457 ( 4300.5 Hz)
Sample trace data format: 0 ( 0.0 Hz)
Undefined format: 0 ( 0.0 Hz)
Other data format type: PAUSE: 1451 ( 4.7 Hz)
RESUME: 1452 ( 4.7 Hz)
SYNC100: 33151 ( 107.2 Hz)
WR48-63: 33151 ( 107.2 Hz)
FEE64 disc: 0 ( 0.0 Hz)
MBS info: 1260252 ( 4076.7 Hz)
Other info: 0 ( 0.0 Hz)
ADC data range bit set: 505847 ( 1636.3 Hz)
Timewarps: ADC: 0 ( 0.0 Hz)
PAUSE: 0 ( 0.0 Hz)
RESUME: 0 ( 0.0 Hz)
SYNC100: 0 ( 0.0 Hz)
WR48-63: 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: 309.138 s
FEE elapsed dead time(s) elapsed idle time(s)
0 5.956 0.000
1 46.000 0.000
2 0.461 0.000
3 4.075 0.000
4 0.270 0.000
5 17.246 0.000
6 0.939 0.000
7 0.452 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 0.000 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 0.000 0.000
23 0.000 0.000
24 0.000 0.000
25 0.000 0.000
26 0.000 0.000
27 0.000 0.000
28 0.000 0.000
29 0.000 0.000
30 0.000 0.000
31 0.000 0.000
32 0.000 0.000
*** Statistics
FEE ADC Data Other Data Sample Undefined Pause Resume SYNC100 WR48-63 Disc MBS Other HEC Data
0 27494985 28858 0 0 175 175 3688 3688 0 21132 0 102223
1 58260423 16474 0 0 649 649 7588 7588 0 0 0 63621
2 22639873 322607 0 0 55 55 2892 2892 0 316713 0 62482
3 44542964 319461 0 0 153 154 5539 5539 0 308076 0 35450
4 10779382 2700 0 0 51 51 1299 1299 0 0 0 87763
5 28594260 7632 0 0 237 237 3579 3579 0 0 0 64742
6 38115917 307658 0 0 84 84 4822 4822 0 297846 0 61385
7 30162739 324067 0 0 47 47 3744 3744 0 316485 0 28181
8 0 0 0 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0 0 0 0
*** Timewarps
FEE ADC Pause Resume SYNC100 WR48-63 Disc MBS Undefined Samples
0 0 0 0 0 0 0 0 0 0
1 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0
*** Program elapsed time: 25.383s ( 1260.696 blocks/s, 78.793 Mb/s)
|
| Attachment 2: R3_150.txt
|
*** TDR format 3.3.0 analyser - TD - May 2021
*** ERROR: READ I/O error: 5002
blocks: 32000
ADC data format: 260385271 ( 829605.5 Hz)
Other data format: 1534729 ( 4889.8 Hz)
Sample trace data format: 0 ( 0.0 Hz)
Undefined format: 0 ( 0.0 Hz)
Other data format type: PAUSE: 1425 ( 4.5 Hz)
RESUME: 1425 ( 4.5 Hz)
SYNC100: 33170 ( 105.7 Hz)
WR48-63: 33170 ( 105.7 Hz)
FEE64 disc: 0 ( 0.0 Hz)
MBS info: 1465539 ( 4669.3 Hz)
Other info: 0 ( 0.0 Hz)
ADC data range bit set: 455452 ( 1451.1 Hz)
Timewarps: ADC: 0 ( 0.0 Hz)
PAUSE: 0 ( 0.0 Hz)
RESUME: 0 ( 0.0 Hz)
SYNC100: 0 ( 0.0 Hz)
WR48-63: 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: 313.866 s
FEE elapsed dead time(s) elapsed idle time(s)
0 11.666 0.000
1 57.289 0.000
2 0.649 0.000
3 5.611 0.000
4 0.000 0.000
5 0.063 0.000
6 0.228 0.000
7 0.039 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 0.000 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 0.000 0.000
23 0.000 0.000
24 0.000 0.000
25 0.000 0.000
26 0.000 0.000
27 0.000 0.000
28 0.000 0.000
29 0.000 0.000
30 0.000 0.000
31 0.000 0.000
32 0.000 0.000
*** Statistics
FEE ADC Data Other Data Sample Undefined Pause Resume SYNC100 WR48-63 Disc MBS Other HEC Data
0 31441805 29767 0 0 272 272 4062 4062 0 21099 0 112151
1 66582904 18892 0 0 814 814 8632 8632 0 0 0 66555
2 29895404 376545 0 0 84 84 3879 3879 0 368619 0 73144
3 44568333 369126 0 0 168 168 5484 5484 0 357822 0 38819
4 5095090 1256 0 0 0 0 628 628 0 0 0 37415
5 19329369 4936 0 0 23 23 2445 2445 0 0 0 43894
6 36823085 356594 0 0 50 50 4631 4631 0 347232 0 63334
7 26649281 377613 0 0 14 14 3409 3409 0 370767 0 20140
8 0 0 0 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0 0 0 0
*** Timewarps
FEE ADC Pause Resume SYNC100 WR48-63 Disc MBS Undefined Samples
0 0 0 0 0 0 0 0 0 0
1 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0
*** Program elapsed time: 23.836s ( 1342.511 blocks/s, 83.907 Mb/s)
|
| Attachment 3: R5_35.txt
|
*** TDR format 3.3.0 analyser - TD - May 2021
*** ERROR: READ I/O error: 5002
blocks: 32000
ADC data format: 260812842 ( 842072.4 Hz)
Other data format: 1107160 ( 3574.6 Hz)
Sample trace data format: 0 ( 0.0 Hz)
Undefined format: 0 ( 0.0 Hz)
Other data format type: PAUSE: 1210 ( 3.9 Hz)
RESUME: 1210 ( 3.9 Hz)
SYNC100: 33154 ( 107.0 Hz)
WR48-63: 33154 ( 107.0 Hz)
FEE64 disc: 0 ( 0.0 Hz)
MBS info: 1038432 ( 3352.7 Hz)
Other info: 0 ( 0.0 Hz)
ADC data range bit set: 329194 ( 1062.9 Hz)
Timewarps: ADC: 0 ( 0.0 Hz)
PAUSE: 0 ( 0.0 Hz)
RESUME: 0 ( 0.0 Hz)
SYNC100: 0 ( 0.0 Hz)
WR48-63: 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: 309.727 s
FEE elapsed dead time(s) elapsed idle time(s)
0 8.188 0.000
1 36.773 0.000
2 0.176 0.000
3 5.170 0.000
4 0.000 0.000
5 0.025 0.000
6 0.202 0.000
7 0.307 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 0.000 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 0.000 0.000
23 0.000 0.000
24 0.000 0.000
25 0.000 0.000
26 0.000 0.000
27 0.000 0.000
28 0.000 0.000
29 0.000 0.000
30 0.000 0.000
31 0.000 0.000
32 0.000 0.000
*** Statistics
FEE ADC Data Other Data Sample Undefined Pause Resume SYNC100 WR48-63 Disc MBS Other HEC Data
0 31379366 29596 0 0 190 190 4114 4114 0 20988 0 81881
1 59749297 16628 0 0 605 605 7709 7709 0 0 0 51815
2 19396332 265009 0 0 42 42 2411 2411 0 260103 0 52064
3 41019315 263381 0 0 149 149 5195 5195 0 252693 0 27341
4 4941643 1144 0 0 0 0 572 572 0 0 0 26539
5 17311877 4276 0 0 10 10 2128 2128 0 0 0 31104
6 41432200 255213 0 0 55 55 5294 5294 0 244515 0 44402
7 45582812 271913 0 0 159 159 5731 5731 0 260133 0 14048
8 0 0 0 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0 0 0 0
*** Timewarps
FEE ADC Pause Resume SYNC100 WR48-63 Disc MBS Undefined Samples
0 0 0 0 0 0 0 0 0 0
1 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0
*** Program elapsed time: 25.660s ( 1247.070 blocks/s, 77.942 Mb/s)
|
| Attachment 4: R5_299.txt
|
*** TDR format 3.3.0 analyser - TD - May 2021
*** ERROR: READ I/O error: 5002
blocks: 32000
ADC data format: 260747119 ( 773887.2 Hz)
Other data format: 1172883 ( 3481.1 Hz)
Sample trace data format: 0 ( 0.0 Hz)
Undefined format: 0 ( 0.0 Hz)
Other data format type: PAUSE: 1133 ( 3.4 Hz)
RESUME: 1133 ( 3.4 Hz)
SYNC100: 33256 ( 98.7 Hz)
WR48-63: 33256 ( 98.7 Hz)
FEE64 disc: 0 ( 0.0 Hz)
MBS info: 1104105 ( 3276.9 Hz)
Other info: 0 ( 0.0 Hz)
ADC data range bit set: 362597 ( 1076.2 Hz)
Timewarps: ADC: 0 ( 0.0 Hz)
PAUSE: 0 ( 0.0 Hz)
RESUME: 0 ( 0.0 Hz)
SYNC100: 0 ( 0.0 Hz)
WR48-63: 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: 336.932 s
FEE elapsed dead time(s) elapsed idle time(s)
0 6.724 0.000
1 44.641 0.000
2 0.217 0.000
3 3.561 0.000
4 0.000 0.000
5 0.005 0.000
6 0.223 0.000
7 0.026 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 0.000 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 0.000 0.000
23 0.000 0.000
24 0.000 0.000
25 0.000 0.000
26 0.000 0.000
27 0.000 0.000
28 0.000 0.000
29 0.000 0.000
30 0.000 0.000
31 0.000 0.000
32 0.000 0.000
*** Statistics
FEE ADC Data Other Data Sample Undefined Pause Resume SYNC100 WR48-63 Disc MBS Other HEC Data
0 30674116 31250 0 0 181 181 3927 3927 0 23034 0 91358
1 66153113 18368 0 0 695 695 8489 8489 0 0 0 55771
2 19486494 277818 0 0 42 42 2475 2475 0 272784 0 57181
3 43424107 279556 0 0 135 135 5543 5543 0 268200 0 30417
4 4766466 1174 0 0 0 0 587 587 0 0 0 29048
5 17680210 4568 0 0 5 5 2279 2279 0 0 0 34196
6 42628036 277520 0 0 57 57 5446 5446 0 266514 0 49215
7 35934577 282629 0 0 18 18 4510 4510 0 273573 0 15411
8 0 0 0 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0 0 0 0
*** Timewarps
FEE ADC Pause Resume SYNC100 WR48-63 Disc MBS Undefined Samples
0 0 0 0 0 0 0 0 0 0
1 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0
*** Program elapsed time: 25.258s ( 1266.935 blocks/s, 79.183 Mb/s)
|
| Attachment 5: R5_546.txt
|
*** TDR format 3.3.0 analyser - TD - May 2021
*** ERROR: READ I/O error: 5002
blocks: 32000
ADC data format: 260730517 ( 745151.9 Hz)
Other data format: 1189483 ( 3399.5 Hz)
Sample trace data format: 0 ( 0.0 Hz)
Undefined format: 0 ( 0.0 Hz)
Other data format type: PAUSE: 1144 ( 3.3 Hz)
RESUME: 1144 ( 3.3 Hz)
SYNC100: 33304 ( 95.2 Hz)
WR48-63: 33304 ( 95.2 Hz)
FEE64 disc: 0 ( 0.0 Hz)
MBS info: 1120587 ( 3202.6 Hz)
Other info: 0 ( 0.0 Hz)
ADC data range bit set: 363968 ( 1040.2 Hz)
Timewarps: ADC: 0 ( 0.0 Hz)
PAUSE: 0 ( 0.0 Hz)
RESUME: 0 ( 0.0 Hz)
SYNC100: 0 ( 0.0 Hz)
WR48-63: 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: 349.902 s
FEE elapsed dead time(s) elapsed idle time(s)
0 6.803 0.000
1 41.799 0.000
2 0.301 0.000
3 3.174 0.000
4 0.000 0.000
5 0.022 0.000
6 0.164 0.000
7 0.019 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 0.000 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 0.000 0.000
23 0.000 0.000
24 0.000 0.000
25 0.000 0.000
26 0.000 0.000
27 0.000 0.000
28 0.000 0.000
29 0.000 0.000
30 0.000 0.000
31 0.000 0.000
32 0.000 0.000
*** Statistics
FEE ADC Data Other Data Sample Undefined Pause Resume SYNC100 WR48-63 Disc MBS Other HEC Data
0 29065664 31620 0 0 182 182 3682 3682 0 23892 0 90087
1 70265931 19858 0 0 719 719 9210 9210 0 0 0 57153
2 19423777 282104 0 0 54 54 2512 2512 0 276972 0 57467
3 44758741 285792 0 0 125 125 5782 5782 0 273978 0 30202
4 4551567 1158 0 0 0 0 579 579 0 0 0 29037
5 17745398 4496 0 0 12 12 2236 2236 0 0 0 34556
6 43164773 278410 0 0 42 42 5399 5399 0 267528 0 49766
7 31754666 286045 0 0 10 10 3904 3904 0 278217 0 15700
8 0 0 0 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0 0 0 0
*** Timewarps
FEE ADC Pause Resume SYNC100 WR48-63 Disc MBS Undefined Samples
0 0 0 0 0 0 0 0 0 0
1 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0
*** Program elapsed time: 24.879s ( 1286.230 blocks/s, 80.389 Mb/s)
|
| Attachment 6: R2_105.png
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| Attachment 7: R3_150.png
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| Attachment 8: R5_35.png
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| Attachment 9: R5_299.png
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| Attachment 10: R5_536.png
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|
692
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Mon Jan 13 11:32:30 2025 |
TD | Offline analysis S505 data file R3_150 |
Offline analysis of S505 data files R3_150
first WR ts
First timestamp of R3_150 0x16FB3CE72ED53CB6
Epoch converter says ...
GMT: Thursday, June 23, 2022 11:37:31.609 AM
Your time zone: Thursday, June 23, 2022 12:37:31.609 PM GMT+01:00 DST
last WR ts
First timestamp of R3_151 0x16FB3D3042B9E8E6
Epoch converter says ...
GMT: Thursday, June 23, 2022 11:42:45.475 AM
Your time zone: Thursday, June 23, 2022 12:42:45.475 PM GMT+01:00 DST
Analysis of data file R3_150 - attachment 1
max time averaged deadtime FEE64 #1 (aida02) 18.3%
FEE64 configuration
FEE64 a
b d
c
a b c d
DSSSD#1 3 4 1 2
DSSSD#2 7 8 5 6
n+n Ohmic FEE64s 2, 4, 6, 8
Data analysis assumes
- all LEC ADC data channels with valid ADC offset included (474 of 512 channels)
LEC calibration ADC offset only
- no clustering
- no multiplex timestamp correction
- no p+n junction side - n+n Ohmic side correlation time gates
- FEE64 *not* DSSSD strip ordering
- hardware - slow comparator setting p+n junction FEE64s 100keV, n+n Ohmic FEE64s 100keV
- LEC energy difference +/-168keV
- HEC energy difference +/- 1.68GeV
- valid LEC events
DSSSD #1
p+n junction side multiplicity = 1 and n+n Ohmic side multiplicity = 1
DSSSD #2
p+n junction side multiplicity = 1 and n+n Ohmic side multiplicity = 1
151keV < LEC energy < 1008keV
to select candidate beta events and veto higher energy events e.g. light ions
standalone analysis of AIDA data, no downstream veto detector
- valid HEC events
p+n junction side multiplicity > 0 and n+n Ohmic side multiplicity > 0
(x,y) strips corresponding to maximum energy
p+n junction and n+n Ohmic side HEC
- HEC veto
p+n junction side multiplicity > 0 or n+n Ohmic side multiplicity > 0
- per pixel implant-decay correlations
- end of event
difference in WR timestamp between successive ADC data items > 2500 *or* difference in first and last WR timestamp of event < 33us
Attachment 2 per FEE64 LEC data rate (Hz) 268ms/channel
Attachment 3 per FEE64 LEC data rate (Hz) 268ms/channel: 150keV < energy < 1500keV
Attachment 22 per FEE64 LEC data rate (Hz) 268ms/channel: energy > 1500keV
- observe high instantaneous rate on spill
- rate dominated by low energy (<1500keV) events
- rate of higher energy events dominated by on spill events i.e. light ions as expected
- significant deadtime on spill for n+n Omic FEE64 aida02, low deadtime off spill
- deadtime low/zero for all other FEE64s on/off spill
Attachment 4 per FEE64 HEC data rate (Hz) 268ms/channel
Attachment 5 per FEE64 HEC data rate (Hz) 268ms/channel: 100MeV < energy < 1000MeV
Attachment 6 per FEE64 HEC data rate (Hz) 268ms/channel: energy > 1000MeV
- all HEC events on spill as expected
- significant deadtime on spill for n+n Ohmic FEE64 aida02, low deadtime off spill
- deadtime low/zero for all other FEE64s on/off spill
Attachment 7 per DSSSD decay and implant rate (Hz) 268ms/channel
Attachment 8 log scale
yellow - FEE64 aida01 LEC data rate (Hz) 268ms/channel
red - FEE64 aida01 HEC data rate (Hz) 268ms/channel
blue - DSSSD #1 decay rate (Hz) 268ms/channel
green - DSSSD #1 implant rate (Hz) 268ms/channel
Attachment 9 log scale
yellow - FEE64 aida02 LEC data rate (Hz) 268ms/channel
red - FEE64 aida02 HEC data rate (Hz) 268ms/channel
blue - DSSSD #1 decay rate (Hz) 268ms/channel
green - DSSSD #1 implant rate (Hz) 268ms/channel
Attachment 10 log scale
yellow - FEE64 aida05 LEC data rate (Hz) 268ms/channel
red - FEE64 aida05 HEC data rate (Hz) 268ms/channel
blue - DSSSD #2 decay rate (Hz) 268ms/channel
green - DSSSD #2 implant rate (Hz) 268ms/channel
Attachment 11 per DSSSD LEC m_p versus m_n
Attachment 12 per DSSSD LEC x versus y
Attachment 13 per DSSSD LEC p+n junction versus n+n Ohmic energy - x-axis & y-axis 20keV/channel
Attachment 14 per DSSSD HEC m_p versus m_n
Attachment 15 per DSSSD HEC x versus y
Attachment 16 per DSSSD HEC p+n junction versus n+n Ohmic energy - x-axis & y-axis 20MeV/channel
Attachment 17 HEC DSSSD#2 p+n junction versus DSSSD#1 p+n junction energy - x-axis & y-axis 20MeV/channel
to identify which ions stop in DSSSD#2 (z_loc=2)
Attachment 18 decay & implant dx versus dy
Attachment 19 LEC DSSSD#2 p+n junction versus DSSSD#1 p+n junction energy - x-axis & y-axis 20keV/channel
Attachment 20 per DSSSD decay & implant dt (2us/channel)
Attachment 21 per DSSSD decay dt (2us/channel) versus p+n junctionj - n+n Ohmic energy difference (20keV/channel)
Summary
- high instantaneous data rates on spill
- significant deadtime FEE64 #2 on spill
magnitude, structure, position of DSSSD#1 decay rate variations differs from FEE64 #2 deadtime - events merging?
- all other FEE64s OK on/off spill |
| Attachment 1: R3_150.txt
|
*** TDR format 3.3.0 analyser - TD - May 2021
*** ERROR: READ I/O error: 5002
blocks: 32000
ADC data format: 260385271 ( 829605.5 Hz)
Other data format: 1534729 ( 4889.8 Hz)
Sample trace data format: 0 ( 0.0 Hz)
Undefined format: 0 ( 0.0 Hz)
Other data format type: PAUSE: 1425 ( 4.5 Hz)
RESUME: 1425 ( 4.5 Hz)
SYNC100: 33170 ( 105.7 Hz)
WR48-63: 33170 ( 105.7 Hz)
FEE64 disc: 0 ( 0.0 Hz)
MBS info: 1465539 ( 4669.3 Hz)
Other info: 0 ( 0.0 Hz)
ADC data range bit set: 455452 ( 1451.1 Hz)
Timewarps: ADC: 0 ( 0.0 Hz)
PAUSE: 0 ( 0.0 Hz)
RESUME: 0 ( 0.0 Hz)
SYNC100: 0 ( 0.0 Hz)
WR48-63: 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: 313.866 s
FEE elapsed dead time(s) elapsed idle time(s)
0 11.666 0.000
1 57.289 0.000
2 0.649 0.000
3 5.611 0.000
4 0.000 0.000
5 0.063 0.000
6 0.228 0.000
7 0.039 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 0.000 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 0.000 0.000
23 0.000 0.000
24 0.000 0.000
25 0.000 0.000
26 0.000 0.000
27 0.000 0.000
28 0.000 0.000
29 0.000 0.000
30 0.000 0.000
31 0.000 0.000
32 0.000 0.000
*** Statistics
FEE ADC Data Other Data Sample Undefined Pause Resume SYNC100 WR48-63 Disc MBS Other HEC Data
0 31441805 29767 0 0 272 272 4062 4062 0 21099 0 112151
1 66582904 18892 0 0 814 814 8632 8632 0 0 0 66555
2 29895404 376545 0 0 84 84 3879 3879 0 368619 0 73144
3 44568333 369126 0 0 168 168 5484 5484 0 357822 0 38819
4 5095090 1256 0 0 0 0 628 628 0 0 0 37415
5 19329369 4936 0 0 23 23 2445 2445 0 0 0 43894
6 36823085 356594 0 0 50 50 4631 4631 0 347232 0 63334
7 26649281 377613 0 0 14 14 3409 3409 0 370767 0 20140
8 0 0 0 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0 0 0 0
*** Timewarps
FEE ADC Pause Resume SYNC100 WR48-63 Disc MBS Undefined Samples
0 0 0 0 0 0 0 0 0 0
1 0 0 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0 0 0
9 0 0 0 0 0 0 0 0 0
10 0 0 0 0 0 0 0 0 0
11 0 0 0 0 0 0 0 0 0
12 0 0 0 0 0 0 0 0 0
13 0 0 0 0 0 0 0 0 0
14 0 0 0 0 0 0 0 0 0
15 0 0 0 0 0 0 0 0 0
16 0 0 0 0 0 0 0 0 0
17 0 0 0 0 0 0 0 0 0
18 0 0 0 0 0 0 0 0 0
19 0 0 0 0 0 0 0 0 0
20 0 0 0 0 0 0 0 0 0
21 0 0 0 0 0 0 0 0 0
22 0 0 0 0 0 0 0 0 0
23 0 0 0 0 0 0 0 0 0
24 0 0 0 0 0 0 0 0 0
25 0 0 0 0 0 0 0 0 0
26 0 0 0 0 0 0 0 0 0
27 0 0 0 0 0 0 0 0 0
28 0 0 0 0 0 0 0 0 0
29 0 0 0 0 0 0 0 0 0
30 0 0 0 0 0 0 0 0 0
31 0 0 0 0 0 0 0 0 0
32 0 0 0 0 0 0 0 0 0
*** Program elapsed time: 23.836s ( 1342.511 blocks/s, 83.907 Mb/s)
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| Attachment 2: Screenshot_from_2025-01-12_18-48-06.png
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| Attachment 3: Screenshot_from_2025-01-12_18-49-40.png
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| Attachment 4: Screenshot_from_2025-01-12_18-54-53.png
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| Attachment 5: Screenshot_from_2025-01-12_18-55-44.png
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| Attachment 6: Screenshot_from_2025-01-12_18-56-44.png
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| Attachment 7: Screenshot_from_2025-01-12_18-59-33.png
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| Attachment 8: Screenshot_from_2025-01-12_19-03-44.png
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| Attachment 9: Screenshot_from_2025-01-12_21-25-46.png
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| Attachment 10: Screenshot_from_2025-01-12_19-08-07.png
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| Attachment 11: Screenshot_from_2025-01-12_19-10-12.png
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| Attachment 12: Screenshot_from_2025-01-12_19-10-51.png
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| Attachment 13: Screenshot_from_2025-01-12_19-11-32.png
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| Attachment 14: Screenshot_from_2025-01-12_19-12-14.png
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| Attachment 15: Screenshot_from_2025-01-12_19-12-54.png
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| Attachment 16: Screenshot_from_2025-01-12_19-13-22.png
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| Attachment 17: Screenshot_from_2025-01-12_19-14-02.png
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| Attachment 18: Screenshot_from_2025-01-12_19-14-59.png
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| Attachment 19: Screenshot_from_2025-01-12_19-15-37.png
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| Attachment 20: Screenshot_from_2025-01-12_19-45-39.png
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| Attachment 21: Screenshot_from_2025-01-12_19-46-34.png
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| Attachment 22: Screenshot_from_2025-01-13_20-04-56.png
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691
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Sat Jan 11 14:14:21 2025 |
TD | aida06 crashed and rebooted 10.1.25 |
aida06 crashed and rebooted sometime ( 14:48 - 23:25 ) yesterday. System console log appended.
10:01:25/14:58:29|get_WAVEBlk (A) which = 1 ---- status = 0088, State machines = 0908
10:01:25/14:58:29|------------[ cut here ]------------
10:01:25/23:25:49|kernel BUG at mm/slab.c:2974!
10:01:25/23:25:49|Oops: Exception in kernel mode, sig: 5 [#1]
10:01:25/23:25:50|PREEMPT Xilinx Virtex440
10:01:25/23:25:50|Modules linked in: aidamem xdriver xh_spidev_register
10:01:25/23:25:50|NIP: c009211c LR: c00920b0 CTR: 00000006
10:01:25/23:25:50|REGS: c632dc60 TRAP: 0700 Not tainted (2.6.31)
10:01:25/23:25:50|MSR: 00021000 <ME,CE> CR: 22022048 XER: 00000000
10:01:25/23:25:50|TASK = c62064c0[375] 'AidaExecV10' THREAD: c632c000
10:01:25/23:25:50|GPR00: 00000001 c632dd10 c62064c0 c680daf0 c694003c 0000000b c6940020 0000000a
10:01:25/23:25:50|GPR08: 0000001b c680dae0 00000d80 c680dae0 22008022 10054d4c c03a0000 00000020
10:01:25/23:25:50|GPR16: c0390000 c03a069c c03a0000 c038c384 c038cc18 00000020 00000000 00200200
10:01:25/23:25:50|GPR24: 00100100 c632c000 00000000 c680dae8 c680dae0 c680ae00 00000005 c680e400
10:01:25/23:25:50|NIP [c009211c] cache_alloc_refill+0x130/0x608
10:01:25/23:25:50|LR [c00920b0] cache_alloc_refill+0xc4/0x608
10:01:25/23:25:50|Call Trace:
10:01:25/23:25:50|[c632dd10] [c00920b0] cache_alloc_refill+0xc4/0x608 (unreliable)
10:01:25/23:25:50|[c632dd70] [c00927d8] kmem_cache_alloc+0xc4/0xcc
10:01:25/23:25:50|[c632dd90] [c0042420] __sigqueue_alloc+0x50/0xb8
10:01:25/23:25:50|[c632ddb0] [c0042938] __send_signal+0x78/0x260
10:01:25/23:25:50|[c632dde0] [c0042f78] group_send_sig_info+0x70/0x9c
10:01:25/23:25:51|[c632de10] [c00438a8] kill_pid_info+0x48/0x8c
10:01:25/23:25:51|[c632de30] [c0038e8c] it_real_fn+0x1c/0x30
10:01:25/23:25:51|[c632de40] [c0050c40] hrtimer_run_queues+0x184/0x240
10:01:25/23:25:51|[c632dea0] [c0040ba8] run_local_timers+0x10/0x2c
10:01:25/23:25:51|[c632deb0] [c0040bf4] update_process_times+0x30/0x70
10:01:25/23:25:51|[c632ded0] [c005a000] tick_periodic+0x34/0xe8
10:01:25/23:25:51|[c632dee0] [c005a0d4] tick_handle_periodic+0x20/0x120
10:01:25/23:25:51|[c632df20] [c000af70] timer_interrupt+0xa4/0x10c
10:01:25/23:25:51|[c632df40] [c000e9c4] ret_from_except+0x0/0x18
10:01:25/23:25:51|Instruction dump:
10:01:25/23:25:51|2f1e0000 409900f4 387c0010 3b7c0008 80dc0000 7f9c3000 419e014c 81060010
10:01:25/23:25:51|801d001c 7c004010 38000000 7c000114 <0f000000> 81260010 801d001c 7f804840
10:01:25/23:25:51|Kernel panic - not syncing: Fatal exception in interrupt
10:01:25/23:25:51|Call Trace:
10:01:25/23:25:51|[c632dab0] [c0005de8] show_stack+0x44/0x16c (unreliable)
10:01:25/23:25:51|[c632daf0] [c00345bc] panic+0x94/0x168
10:01:25/23:25:51|[c632db40] [c000bd44] die+0x178/0x18c
10:01:25/23:25:51|[c632db60] [c000c000] _exception+0x164/0x1b4
10:01:25/23:25:51|[c632dc50] [c000e978] ret_from_except_full+0x0/0x4c
10:01:25/23:25:51|[c632dd10] [c00920b0] cache_alloc_refill+0xc4/0x608
10:01:25/23:25:52|[c632dd70] [c00927d8] kmem_cache_alloc+0xc4/0xcc
10:01:25/23:25:52|[c632dd90] [c0042420] __sigqueue_alloc+0x50/0xb8
10:01:25/23:25:52|[c632ddb0] [c0042938] __send_signal+0x78/0x260
10:01:25/23:25:52|[c632dde0] [c0042f78] group_send_sig_info+0x70/0x9c
10:01:25/23:25:52|[c632de10] [c00438a8] kill_pid_info+0x48/0x8c
10:01:25/23:25:52|[c632de30] [c0038e8c] it_real_fn+0x1c/0x30
10:01:25/23:25:52|[c632de40] [c0050c40] hrtimer_run_queues+0x184/0x240
10:01:25/23:25:52|[c632dea0] [c0040ba8] run_local_timers+0x10/0x2c
10:01:25/23:25:52|[c632deb0] [c0040bf4] update_process_times+0x30/0x70
10:01:25/23:25:52|[c632ded0] [c005a000] tick_periodic+0x34/0xe8
10:01:25/23:25:52|[c632dee0] [c005a0d4] tick_handle_periodic+0x20/0x120
10:01:25/23:25:52|[c632df20] [c000af70] timer_interrupt+0xa4/0x10c
10:01:25/23:25:52|[c632df40] [c000e9c4] ret_from_except+0x0/0x18
10:01:25/23:25:52|Rebooting in 180 seconds..
ISOL Version 1.00 Date 9th January 2017
Flash base address=FC000000
Set Flash to ASync Mode
XST_SUCCESS:28:52|
Finished copying zImage to RAM
10:01:25/23:28:53|
Found 0 errors checking kernel image
10:01:25/23:28:54|VHDL version number 0X03350706
Based on AIDA Bootloader version number 1.2.0 -- 16th August 2012
Starting LMK 3200 setup
10:01:25/23:28:54|
Setting LMK03200 to standard clock settings -- External Clock 23Nov15
.... SPI Base Address=0x81400000
clk_control_reg=0x4
10:01:25/23:28:54|Next step is SPIconfig
Control 32(0x81400000)=0x180
SlaveSel(0x81400000)=0x3
Ctrl(0x81400000)=0xE6
Ctrl(0x81400000)=0x86
10:01:25/23:28:54|SPIconfig done now to set up the LMK3200 registers
10:01:25/23:28:54|LMK #0 : regInit[0]=0x80000000
10:01:25/23:28:54|LMK #0 : regInit[1]=0x10070600
10:01:25/23:28:54|LMK #0 : regInit[2]=0x60601
10:01:25/23:28:54|LMK #0 : regInit[3]=0x60602
10:01:25/23:28:55|LMK #0 : regInit[4]=0x60603
10:01:25/23:28:55|LMK #0 : regInit[5]=0x70624
10:01:25/23:28:55|LMK #0 : regInit[6]=0x70605
10:01:25/23:28:55|LMK #0 : regInit[7]=0x70606
10:01:25/23:28:55|LMK #0 : regInit[8]=0x70627
10:01:25/23:28:55|LMK #0 : regInit[9]=0x10000908
10:01:25/23:28:55|LMK #0 : regInit[10]=0xA0022A09
10:01:25/23:28:55|LMK #0 : regInit[11]=0x82800B
10:01:25/23:28:55|LMK #0 : regInit[12]=0x28C800D
10:01:25/23:28:55|LMK #0 : regInit[13]=0x830020E
10:01:25/23:28:55|LMK #0 : regInit[14]=0xC800180F
Calibrate completed at 942 counts
Setting Clock Control =0x0000000B, to set GOE and sync bit
Ctrl @ SPIstop (0x81400000)=0x186
Timeout waiting for Lock detect Stage 2 (Zero Delay), PWR_DWN=0x00000004
10:01:25/23:28:55|
Finished Clock setup LMK03200
completed LMK 3200 setup
Loaded all four ASICs with default settings
Setting the ADCs into calibration mode
10:01:25/23:28:55|
Control 32(0x81400400)=0x180
SlaveSel(0x81400400)=0xFF
Ctrl(0x81400400)=0xE6
Ctrl(0x81400400)=0x86
Init : Config of AD9252 SPI ok
10:01:25/23:28:55|
Ctrl @ SPIstop (0x81400400)=0x186ADCs initialised
Cal DCMs not locked
ADC calibrate failed
Jumping to kernel simpleboot...
10:01:25/23:28:56|
zImage starting: loaded at 0x00a00000 (sp: 0x00bc4eb0)
Allocating 0x3b78cc bytes for kernel ...
gunzipping (0x00000000 <- 0x00a0f000:0x00bc380e)...done 0x39604c bytes
10:01:25/23:28:59|
Linux/PowerPC load: console=ttyS0 root=/dev/nfs ip=on rw mem=112M
Finalizing device tree... flat tree at 0xbd1300
Probing IIC bus for MAC... MAC address = 0xd8 0x80 0x39 0x41 0xee 0x71
10:01:25/23:29:05|Using Xilinx Virtex440 machine description
10:01:25/23:29:06|Linux version 2.6.31 (nf@nnlxb.dl.ac.uk) (gcc version 4.2.2) #34 PREEMPT Tue Nov 15 15:57:04 GMT 2011
10:01:25/23:29:06|Zone PFN ranges:
10:01:25/23:29:06| DMA 0x00000000 -> 0x00007000
10:01:25/23:29:06| Normal 0x00007000 -> 0x00007000
10:01:25/23:29:06|Movable zone start PFN for each node
10:01:25/23:29:06|early_node_map[1] active PFN ranges
10:01:25/23:29:06| 0: 0x00000000 -> 0x00007000
10:01:25/23:29:06|MMU: Allocated 1088 bytes of context maps for 255 contexts
10:01:25/23:29:06|Built 1 zonelists in Zone order, mobility grouping on. Total pages: 28448
10:01:25/23:29:06|Kernel command line: console=ttyS0 root=/dev/nfs ip=on rw mem=112M
10:01:25/23:29:06|PID hash table entries: 512 (order: 9, 2048 bytes)
10:01:25/23:29:07|Dentry cache hash table entries: 16384 (order: 4, 65536 bytes)
10:01:25/23:29:07|Inode-cache hash table entries: 8192 (order: 3, 32768 bytes)
10:01:25/23:29:07|Memory: 109680k/114688k available (3500k kernel code, 4852k reserved, 144k data, 130k bss, 168k init)
10:01:25/23:29:07|Kernel virtual memory layout:
10:01:25/23:29:07| * 0xffffe000..0xfffff000 : fixmap
10:01:25/23:29:07| * 0xfde00000..0xfe000000 : consistent mem
10:01:25/23:29:07| * 0xfde00000..0xfde00000 : early ioremap
10:01:25/23:29:07| * 0xd1000000..0xfde00000 : vmalloc & ioremap
10:01:25/23:29:07|NR_IRQS:512
10:01:25/23:29:07|clocksource: timebase mult[a00000] shift[22] registered
10:01:25/23:29:07|Console: colour dummy device 80x25
10:01:25/23:29:07|Mount-cache hash table entries: 512
10:01:25/23:29:07|NET: Registered protocol family 16
10:01:25/23:29:07|PCI: Probing PCI hardware
10:01:25/23:29:07|bio: create slab <bio-0> at 0
10:01:25/23:29:07|NET: Registered protocol family 2
10:01:25/23:29:07|IP route cache hash table entries: 1024 (order: 0, 4096 bytes)
10:01:25/23:29:07|TCP established hash table entries: 4096 (order: 3, 32768 bytes)
10:01:25/23:29:07|TCP bind hash table entries: 4096 (order: 2, 16384 bytes)
10:01:25/23:29:07|TCP: Hash tables configured (established 4096 bind 4096)
10:01:25/23:29:08|TCP reno registered
10:01:25/23:29:08|NET: Registered protocol family 1
10:01:25/23:29:08|ROMFS MTD (C) 2007 Red Hat, Inc.
10:01:25/23:29:08|msgmni has been set to 214
10:01:25/23:29:08|io scheduler noop registered
10:01:25/23:29:08|io scheduler anticipatory registered
10:01:25/23:29:08|io scheduler deadline registered
10:01:25/23:29:08|io scheduler cfq registered (default)
10:01:25/23:29:08|Serial: 8250/16550 driver, 4 ports, IRQ sharing disabled
10:01:25/23:29:08|83e00000.serial: ttyS0 at MMIO 0x83e01003 (irq = 16) is a 16550
10:01:25/23:29:08|console [ttyS0] enabled
10:01:25/23:29:08|brd: module loaded
10:01:25/23:29:08|loop: module loaded
10:01:25/23:29:08|Device Tree Probing 'ethernet'
10:01:25/23:29:08|xilinx_lltemac 81c00000.ethernet: MAC address is now d8:80:39:41:ee:71
10:01:25/23:29:08|xilinx_lltemac 81c00000.ethernet: XLlTemac: using DMA mode.
10:01:25/23:29:08|XLlTemac: DCR address: 0x80
10:01:25/23:29:08|XLlTemac: buffer descriptor size: 32768 (0x8000)
10:01:25/23:29:08|XLlTemac: Allocating DMA descriptors with kmalloc
10:01:25/23:29:08|XLlTemac: (buffer_descriptor_init) phy: 0x6938000, virt: 0xc6938000, size: 0x8000
10:01:25/23:29:08|XTemac: PHY detected at address 7.
10:01:25/23:29:08|xilinx_lltemac 81c00000.ethernet: eth0: Xilinx TEMAC at 0x81C00000 mapped to 0xD1024000, irq=17
10:01:25/23:29:09|fc000000.flash: Found 1 x16 devices at 0x0 in 16-bit bank
10:01:25/23:29:09| Intel/Sharp Extended Query Table at 0x010A
10:01:25/23:29:09| Intel/Sharp Extended Query Table at 0x010A
10:01:25/23:29:09| Intel/Sharp Extended Query Table at 0x010A
10:01:25/23:29:09| Intel/Sharp Extended Query Table at 0x010A
10:01:25/23:29:09| Intel/Sharp Extended Query Table at 0x010A
10:01:25/23:29:09| Intel/Sharp Extended Query Table at 0x010A
10:01:25/23:29:09|Using buffer write method
10:01:25/23:29:09|cfi_cmdset_0001: Erase suspend on write enabled
10:01:25/23:29:09|cmdlinepart partition parsing not available
10:01:25/23:29:09|RedBoot partition parsing not available
10:01:25/23:29:09|Creating 5 MTD partitions on "fc000000.flash":
10:01:25/23:29:09|0x000000000000-0x000000500000 : "golden_firmware"
10:01:25/23:29:09|0x000000500000-0x000000800000 : "golden_kernel"
10:01:25/23:29:09|0x000000800000-0x000000d00000 : "user_firmware"
10:01:25/23:29:09|0x000000d00000-0x000000fe0000 : "user_kernel"
10:01:25/23:29:09|0x000000fe0000-0x000001000000 : "env_variables"
10:01:25/23:29:09|xilinx-xps-spi 81400400.hd-xps-spi: at 0x81400400 mapped to 0xD1028400, irq=20
10:01:25/23:29:10|SPI: XIlinx spi: bus number now 32766
10:01:25/23:29:10|xilinx-xps-spi 81400000.xps-spi: at 0x81400000 mapped to 0xD102C000, irq=21
10:01:25/23:29:10|SPI: XIlinx spi: bus number now 32765
10:01:25/23:29:10|mice: PS/2 mouse device common for all mice
10:01:25/23:29:10|Device Tree Probing 'i2c'
10:01:25/23:29:10| #0 at 0x81600000 mapped to 0xD1030000, irq=22
10:01:25/23:29:10|at24 0-0050: 1024 byte 24c08 EEPROM (writable)
10:01:25/23:29:10|TCP cubic registered
10:01:25/23:29:10|NET: Registered protocol family 17
10:01:25/23:29:10|RPC: Registered udp transport module.
10:01:25/23:29:10|RPC: Registered tcp transport module.
10:01:25/23:29:10|eth0: XLlTemac: Options: 0x3fa
10:01:25/23:29:11|eth0: XLlTemac: allocating interrupt 19 for dma mode tx.
10:01:25/23:29:11|eth0: XLlTemac: allocating interrupt 18 for dma mode rx.
10:01:25/23:29:11|eth0: XLlTemac: speed set to 1000Mb/s
10:01:25/23:29:13|eth0: XLlTemac: Send Threshold = 24, Receive Threshold = 4
10:01:25/23:29:13|eth0: XLlTemac: Send Wait bound = 254, Receive Wait bound = 254
10:01:25/23:29:13|Sending DHCP requests ., OK
10:01:25/23:29:14|IP-Config: Got DHCP answer from 192.168.11.99, my address is 192.168.11.6
10:01:25/23:29:14|IP-Config: Complete:
10:01:25/23:29:14| device=eth0, addr=192.168.11.6, mask=255.255.255.0, gw=255.255.255.255,
10:01:25/23:29:14| host=aida06, domain=dl.ac.uk, nis-domain=nuclear.physics,
10:01:25/23:29:14| bootserver=192.168.11.99, rootserver=192.168.11.99, rootpath=/home/Embedded/XilinxLinux/ppc_4xx/rfs/aida06
10:01:25/23:29:14|Looking up port of RPC 100003/2 on 192.168.11.99
10:01:25/23:29:14|Looking up port of RPC 100005/1 on 192.168.11.99
10:01:25/23:29:14|VFS: Mounted root (nfs filesystem) on device 0:12.
10:01:25/23:29:14|Freeing unused kernel memory: 168k init
INIT: version 2.86 booting
10:01:25/23:29:15|Starting sysinit...
10:01:25/23:29:15| Welcome to DENX & STFC Daresbury Embedded Linux Environment
10:01:25/23:29:16| Press 'I' to enter interactive startup.
10:01:25/23:29:16|Setting clock (utc): Fri Jan 10 22:29:16 GMT 2025 [ OK ]
10:01:25/23:29:16|Building the cache [ OK ]
10:01:25/23:29:16|Setting hostname aida06: [ OK ]
10:01:25/23:29:18|Mounting local filesystems: [ OK ]
10:01:25/23:29:19|Enabling /etc/fstab swaps: [ OK ]
10:01:25/23:29:21|Finishing sysinit...
INIT: Entering runlevel: 3
10:01:25/23:29:24|Entering non-interactive startup
10:01:25/23:29:24|FATAL: Module ipv6 not found.
10:01:25/23:29:26|Bringing up loopback interface: [ OK ]
10:01:25/23:29:29|FATAL: Module ipv6 not found.
10:01:25/23:29:29|Starting system logger: [ OK ]
10:01:25/23:29:30|Starting kernel logger: [ OK ]
10:01:25/23:29:30|Starting rpcbind: [ OK ]
10:01:25/23:29:32|Mounting NFS filesystems: [ OK ]
10:01:25/23:29:32|Mounting other filesystems: [ OK ]
10:01:25/23:29:33|Starting xinetd: [ OK ]
10:01:25/23:29:33|Starting midas: Starting MIDAS Data Acquisition for aida06
10:01:25/23:29:34|xaida: device parameters: base=0x81000000 size=0x200000
10:01:25/23:29:39|Trying to free nonexistent resource <0000000081000000-00000000811fffff>
10:01:25/23:29:40|xaida: mem region start 0x81000000 for 0x200000 mapped at 0xd2100000
10:01:25/23:29:40|xaida: driver assigned major number 254
10:01:25/23:29:40|Trying to free nonexistent resource <0000000007000000-0000000007ffffff>
10:01:25/23:29:45|AIDAMEM: aidamem: mem region start 0x7000000 for 0x1000000 mapped at 0xd2380000
10:01:25/23:29:45|AIDAMEM: aidamem: driver assigned major number 253
10:01:25/23:29:45|System identified is CPU ppc; Platform is unix; OS is Linux and Version is 2.6.31
10:01:25/23:29:52|Environment selected is CPU ppc; Platform unix; OS Linux and Operating System linux-ppc_4xx
10:01:25/23:29:52|MIDASBASE = /MIDAS and MIDAS_LIBRARY = /MIDAS/TclHttpd/linux-ppc_4xx
10:01:25/23:29:52|PATH = /MIDAS/bin_linux-ppc_4xx:/MIDAS/TclHttpd/linux-ppc_4xx:/MIDAS/linux-ppc_4xx/bin:/MIDAS/linux-ppc_4xx/bin:/sbin:/usr/sbin:/bin:/usr/bin
10:01:25/23:29:52|Computer Name = aida06; Temp Directory = /tmp/tcl361
10:01:25/23:29:57|
10:01:25/23:30:02|AIDA Data Acquisition Program Release 10.0.Jul 6 2022_15:10:57 starting
10:01:25/23:30:02|
10:01:25/23:30:02|Built without pthreads
10:01:25/23:30:02|
10:01:25/23:30:02|Creating NetVars
10:01:25/23:30:02|Output buffer length = 65504; format option = 4; transfer option = 3
10:01:25/23:30:02|EB transfer option = 3
10:01:25/23:30:02|NetVars created anxaida: open:
10:01:25/23:30:02|d initialised
10:01:25/23:30:02|SAIDAMEM: aidamem_open:
10:01:25/23:30:02|tatistics thread starting
10:01:25/23:30:02|Data Acquisition task has PID 375
10:01:25/23:30:02|Statistics thread created
10:01:25/23:30:02|Stat/Rate creation thread starting
10:01:25/23:30:02|Stat/Rate creation thread created
10:01:25/23:30:02|Hit/Rate creation thread starting
10:01:25/23:30:02|Hit/Rate creation thread created
10:01:25/23:30:02|AIDA Heartbeat thread starting
10:01:25/23:30:02|Heartbeat thread created
10:01:25/23:30:02|Installing signal handlers
10:01:25/23:30:02|Done
10:01:25/23:30:02|ModuleNum = 0
10:01:25/23:30:02|Aida Initialise complete. AidaExecV10.0: Build Jul 6 2022_15:10:57. HDL version : 03350706
10:01:25/23:30:02|package limit is not available: can't find package limit
10:01:25/23:30:02|Running with default file descriptor limit
10:01:25/23:30:02|Spectra table initialised
10:01:25/23:30:02|AIDA Data Acquisition now all ready to start
10:01:25/23:30:02|SIGBUS, SIGSEGV and SIGPIPE traps setup
10:01:25/23:30:02|package setuid is not available: can't find package setuid
10:01:25/23:30:04|Running as user 0 group 0
10:01:25/23:30:04|[ OK ]
10:01:25/23:30:12|
10:01:25/23:30:13|DENX ELDK version 4.2 build 2008-04-01
10:01:25/23:30:13|Linux 2.6.31 on a ppc
10:01:25/23:30:13|
10:01:25/23:30:13|aida06 login: /debug user "debug" password "ztl9xf9b3o0l"
10:01:25/23:30:18|httpd started on port 8015
10:01:25/23:30:18|
10:01:25/23:30:18|Cannot use /MIDAS/config/TclHttpd/aida06@8015/startup.tcl
10:01:25/23:30:18|Custom startup from /MIDAS/config/TclHttpd/aida06/startup.tcl
10:01:25/23:30:18|XAIDA Access package 1.0
10:01:25/23:30:20|/XAIDAAccessServer
10:01:25/23:30:21|XAD9252 Access package 1.0
10:01:25/23:30:21|/XAD9252AccessServer
10:01:25/23:30:21|/DataBaseAccessServer
10:01:25/23:30:21|/NetVarService
10:01:25/23:30:21|/SigTaskService
10:01:25/23:30:21|Loaded MemSasAccess
10:01:25/23:30:21|/SpectrumService
10:01:25/23:30:21|loading tcl/AIDARunControl.tcl for namespace ::
10:01:25/23:30:21|/DataAcquisitionControlServer
10:01:25/23:30:21|DefineMessage unknown
10:01:25/23:30:21|Run Control Server Implementation for AIDA
10:01:25/23:30:21|RunControlServer loaded
10:01:25/23:30:21|loading Html/RunControl/implementation.tcl
10:01:25/23:30:22|/MIDAS/TclHttpd/Html/RunControl/common.tcl returned z=1 and couldn't read file "/MIDAS/TclHttpd/Html/RunControl/common.tcl": no such file or directory
10:01:25/23:30:22|ReadRegister failed: Name=NetVar.EXEC.ID; Code= 0x10004; Info= Register name does not exist
10:01:25/23:30:22|Created UI registers
10:01:25/23:30:23|RunControl loaded
10:01:25/23:30:23|loading Html/AIDA/RunControl/implementation.tcl for namespace ::
10:01:25/23:30:23|mkdir returned 1
10:01:25/23:30:23|filepath = /MIDAS/FEE_ASIC
10:01:25/23:30:23|filename = /MIDAS/FEE_ASIC/aida06/ASICs.txt
10:01:25/23:30:23|AIDA RunControl loaded
10:01:25/23:30:24|Completed custom startup from /MIDAS/TclHttpd/Html/AIDA/RunControl/stats.defn.tcl
10:01:25/23:30:24|xaida: open:
11:01:25/14:36:47|do_GetState returned z=0 and 8
11:01:25/14:59:08|do_GetState returned z=0 and 8
11:01:25/14:59:20|do_GetState returned z=0 and 8
11:01:25/14:59:32|do_GetState returned z=0 and 8
11:01:25/14:59:44|do_GetState returned z=0 and 8
11:01:25/14:59:56|do_GetState returned z=0 and 8
11:01:25/15:00:08|do_GetState returned z=0 and 8
11:01:25/15:00:20|do_GetState returned z=0 and 8
11:01:25/15:00:33|do_GetState returned z=0 and 8
11:01:25/15:00:45|do_GetState returned z=0 and 8
11:01:25/15:00:57|do_GetState returned z=0 and 8
11:01:25/15:01:09|do_GetState returned z=0 and 8
11:01:25/15:01:21|do_GetState returned z=0 and 8
11:01:25/15:01:33|do_GetState returned z=0 and 8
11:01:25/15:01:45|do_GetState returned z=0 and 8
11:01:25/15:01:58|do_GetState returned z=0 and 8
11:01:25/15:02:10|do_GetState returned z=0 and 8
11:01:25/15:02:22|do_GetState returned z=0 and 8
11:01:25/15:02:34|do_GetState returned z=0 and 8
11:01:25/15:02:46|do_GetState returned z=0 and 8
11:01:25/15:02:59|do_GetState returned z=0 and 8
11:01:25/15:03:11|do_GetState returned z=0 and 8
11:01:25/15:03:23|do_GetState returned z=0 and 8
11:01:25/15:03:35|do_GetState returned z=0 and 8
11:01:25/15:03:47|do_GetState returned z=0 and 8
11:01:25/15:03:59|do_GetState returned z=0 and 8
11:01:25/15:04:11|do_GetState returned z=0 and 8
11:01:25/15:04:24|do_GetState returned z=0 and 8
11:01:25/15:04:36|do_GetState returned z=0 and 8
11:01:25/15:04:48|do_GetState returned z=0 and 8
11:01:25/15:05:00|do_GetState returned z=0 and 8
11:01:25/15:05:12|do_GetState returned z=0 and 8
11:01:25/15:05:24|do_GetState returned z=0 and 8
11:01:25/15:05:36|do_GetState returned z=0 and 8
11:01:25/15:05:49|do_GetState returned z=0 and 8
11:01:25/15:06:01|do_GetState returned z=0 and 8
11:01:25/15:06:13|do_GetState returned z=0 and 8
11:01:25/15:06:25|do_GetState returned z=0 and 8
11:01:25/15:06:37|do_GetState returned z=0 and 8
11:01:25/15:06:50|do_GetState returned z=0 and 8
11:01:25/15:07:02|do_GetState returned z=0 and 8
11:01:25/15:07:14|do_GetState returned z=0 and 8
11:01:25/15:07:26|do_GetState returned z=0 and 8
11:01:25/15:07:38|do_GetState returned z=0 and 8
11:01:25/15:07:51|do_GetState returned z=0 and 8
11:01:25/15:08:03|do_GetState returned z=0 and 8
11:01:25/15:08:15|do_GetState returned z=0 and 8
11:01:25/15:08:27|do_GetState returned z=0 and 8
11:01:25/15:08:40|do_GetState returned z=0 and 8
11:01:25/15:08:52|do_GetState returned z=0 and 8
11:01:25/15:09:04|do_GetState returned z=0 and 8
11:01:25/15:09:17|do_GetState returned z=0 and 8
11:01:25/15:09:29|do_GetState returned z=0 and 8
11:01:25/15:09:41|do_GetState returned z=0 and 8
11:01:25/15:09:53|do_GetState returned z=0 and 8
11:01:25/15:10:06|do_GetState returned z=0 and 8
11:01:25/15:10:18|do_GetState returned z=0 and 8
11:01:25/15:10:30|do_GetState returned z=0 and 8
11:01:25/15:10:43|do_GetState returned z=0 and 8
11:01:25/15:10:55|do_GetState returned z=0 and 8 |
|
|
690
|
Sat Jan 11 14:05:03 2025 |
TD | Saturday 11 January 2024 |
14.37 Detector bias & leakage current OK - attachment 1
FEE64 temperatures OK - attachment 2
WR timestamps - attachment 3
aida06 out of sync
global clock status - attachment 4
aida06 fails
ADC calibration - attachment 5
all fail - probably due to ASIC synchronise *after* ADC calibration
WR decoder & FPGA TS status - attachments 6-7
aida06 status 0xd
DAQ run control - attachment 8
aida06 undefined => aida06 has rebooted
Merger & Tape Server - attachments 9-10
merger, tape server and data transfer have stopped
See https://elog.ph.ed.ac.uk/DESPEC/691
aidao06 system console - aida06 rebooted sometime yesterday
*** Recovery
For FEE64 aida06 *only*
DAQ reset
DAQ setup
For all FEE64s
DAQ stop
Restart merger, merger setup, merger go
Following two merger restart cycles all FEE64s stopped OK
Recovery complete
All system wide checks OK
Disable data transfer, DAQ go
per FEE64 rate spectra = attachment 11
aida04 high rates
per FEE64 1.8.W spectra - 20us FSR - attachments 12-13
DAQ stop, enable data transfer, DAQ go
Merger and server consoles - attachment 14
merger and tape server (no storage mode) running OK but no data transfer to MBS server
WR timestamps OK - attachment 15
ADC and DISC data item stats - attachment 16-17
aida04 & aida16 high rates - all others appear to be OK
ASIC check load for all aida16 ASICs changes rate from c. 420k to 0
ASIC check load for all aida04 ASICs changes rate from c. 200k to c. 120k
18.00 No data transfer to MBS - nothing useful being donme at the moment - will place system in safe state
DAQ stop
Detector bias OFF
FEE64 power OFF |
| Attachment 1: Screenshot_from_2025-01-11_14-37-29.png
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| Attachment 2: Screenshot_from_2025-01-11_14-55-21.png
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| Attachment 3: Screenshot_from_2025-01-11_14-56-44.png
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| Attachment 4: Screenshot_from_2025-01-11_14-57-14.png
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| Attachment 5: Screenshot_from_2025-01-11_14-57-37.png
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| Attachment 6: Screenshot_from_2025-01-11_14-58-05.png
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| Attachment 7: Screenshot_from_2025-01-11_14-58-25.png
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| Attachment 8: Screenshot_from_2025-01-11_14-59-24.png
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| Attachment 9: Screenshot_from_2025-01-11_15-00-00.png
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| Attachment 10: Screenshot_from_2025-01-11_15-00-31.png
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| Attachment 11: Screenshot_from_2025-01-11_15-29-32.png
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| Attachment 12: Screenshot_from_2025-01-11_15-30-35.png
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| Attachment 13: Screenshot_from_2025-01-11_15-31-29.png
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| Attachment 14: Screenshot_from_2025-01-11_15-35-14.png
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| Attachment 15: Screenshot_from_2025-01-11_15-38-24.png
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| Attachment 16: Screenshot_from_2025-01-11_15-27-28.png
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| Attachment 17: Screenshot_from_2025-01-11_15-26-39.png
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689
|
Fri Jan 10 10:03:43 2025 |
TD | LEC fast comparator threshold too low |
> > >
> > > LEC fast comparator has been set to 0x2 (200keV) which is *very* low and means the fast comparator will be triggering on noise.
> > >
> > > The *minimum* LEC fast comparator setting should be in the range 0x5 - 0xa (500-1000keV).
> > >
> > > I have set the TapeServer to 'no storage' mode to avoid filling the aida-gsi disk with rubbish.
> >
> > Thanks. From the DESPEC elog.gsi.de/despec/Implantation+Stack/18
> >
> > "We have made a trigger from the BGO logic and OR64 of the fast discriminator from AIDA. This was sent as a trigger to the bPlast Exploder.
> >
> > This did not work as the FEE64s of AIDA are running into high dead-time and a result are dropping data. This is a problem for the ucesb unpacker as it will quite working if one of the subsystem stops sending
data. (@Nic is this correct?)
> >
> > This is indeed what I see as whenever we try to run FAIRROOT the tree builder exits immediately."
>
> We have increased the all thresholds excluding aida10 to 0xff. To not trigger on the other FEEs, however better, the DAQ still occasionally runs into dead time and as such fails with making trees.
>
> We have thus elected to turn off AIDA and move out the platform. The conclusion is that we are not able to do this fast timing test with a 200 keV threshold.
Per our discussions in December 2024 this is exactly what would be expected. |
|
|
688
|
Thu Jan 9 17:56:14 2025 |
TD | LEC fast comparator threshold too low |
> >
> > LEC fast comparator has been set to 0x2 (200keV) which is *very* low and means the fast comparator will be triggering on noise.
> >
> > The *minimum* LEC fast comparator setting should be in the range 0x5 - 0xa (500-1000keV).
> >
> > I have set the TapeServer to 'no storage' mode to avoid filling the aida-gsi disk with rubbish.
>
> Thanks. From the DESPEC elog.gsi.de/despec/Implantation+Stack/18
>
> "We have made a trigger from the BGO logic and OR64 of the fast discriminator from AIDA. This was sent as a trigger to the bPlast Exploder.
>
> This did not work as the FEE64s of AIDA are running into high dead-time and a result are dropping data. This is a problem for the ucesb unpacker as it will quite working if one of the subsystem stops sending data. (@Nic is this correct?)
>
> This is indeed what I see as whenever we try to run FAIRROOT the tree builder exits immediately."
We have increased the all thresholds excluding aida10 to 0xff. To not trigger on the other FEEs, however better, the DAQ still occasionally runs into dead time and as such fails with making trees.
We have thus elected to turn off AIDA and move out the platform. The conclusion is that we are not able to do this fast timing test with a 200 keV threshold. |
|
|
687
|
Thu Jan 9 17:36:50 2025 |
TD | LEC fast comparator threshold too low |
>
> LEC fast comparator has been set to 0x2 (200keV) which is *very* low and means the fast comparator will be triggering on noise.
>
> The *minimum* LEC fast comparator setting should be in the range 0x5 - 0xa (500-1000keV).
>
> I have set the TapeServer to 'no storage' mode to avoid filling the aida-gsi disk with rubbish.
Thanks. From the DESPEC elog.gsi.de/despec/Implantation+Stack/18
"We have made a trigger from the BGO logic and OR64 of the fast discriminator from AIDA. This was sent as a trigger to the bPlast Exploder.
This did not work as the FEE64s of AIDA are running into high dead-time and a result are dropping data. This is a problem for the ucesb unpacker as it will quite working if one of the subsystem stops sending data. (@Nic is this correct?)
This is indeed what I see as whenever we try to run FAIRROOT the tree builder exits immediately." |
|
|
686
|
Thu Jan 9 16:25:51 2025 |
TD | LEC fast comparator threshold too low |
LEC fast comparator has been set to 0x2 (200keV) which is *very* low and means the fast comparator will be triggering on noise.
The *minimum* LEC fast comparator setting should be in the range 0x5 - 0xa (500-1000keV).
I have set the TapeServer to 'no storage' mode to avoid filling the aida-gsi disk with rubbish. |
| Attachment 1: Screenshot_from_2025-01-09_17-28-45.png
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685
|
Thu Jan 9 15:43:17 2025 |
JB, CC, MP | Timing test platform moved in |
16:30 We moved the platform in. The system was still biased and the DAQ was still running.
The system seems to be okay, temperatures OK. Bias voltage OK 685/1 and 685/2. Two FEEs - aida07 and aida12 are receiving a lot of trigger data items from the fast discriminator. This is already a bit worrying. 685/3 |
| Attachment 1: Screenshot_from_2025-01-09_16-41-48.png
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| Attachment 2: Screenshot_from_2025-01-09_16-42-06.png
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| Attachment 3: Screenshot_from_2025-01-09_16-42-46.png
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684
|
Thu Jan 9 12:46:43 2025 |
JB, MP, CC | AIDA timing test |
| Quote: |
|
| Quote: |
|
https://elog.gsi.de/despec/Implantation+Stack/9?suppress=1 - Day 1 ELOG
Day2:
10:14 we set up the detector with the pulser in BB7 and started biasing the detector and setting up the DAQ. Water flow and temperature check, OK. 677/1 677/2 677/3
FEE temps OK. Screenshots included for LOCAL controls for aida07, Discriminator for aida07, ASIC control for aida01 ASIC # 1,2,3,4 and the pulser setting - 1 V @ 10 Hz rep. 677/4 677/5 677/6 677/7 677/8 677/9
ASIC thresholds for the fast comparator LEC/MEC set to 0x20 for all the ASICs in aida10 - connected to BB7. Act on all ASICs did not work with this so each threshold was set to 0x20 on each ASIC by hand.
The pulser is now connected to BB7 test + and via a T-connector to the scope, triggering on the pulser signal. We saw now signals --> lower the threshold of the fast comparator to 1 MeV - 0x64 on all ASICs in aida10. 677/10
No signal was observed, threshold was then set to 0x190 (400 keV) 677/11
13:00 We resumed after lunch. It seems that our thresholds were way too high for starters each channel was actually 100 keV in HEX. We then set the thresholds in aida10 to 0x32, 0x20, 0x20, 0x11 for ASIC 1,2,3,4, respectively. This was to achieve a 10 Hz hit rate in all of the channels! This was done successfully see 677/12 for the hit rate spectrum and also 677/13-16 for the thresholds.
|
The pulser was set to 0.5 V to test if we can still see the time spectrum between AIDA and bPlast with reduced thresholds -- mimicking a beta event.
These thresholds were changes from 0x32, 0x20, 0x20, 0x11 for ASIC 1,2,3,4 ---> 0x10, 0x10, 0x0d, 0x10.
This was set to have the HitRate in aida10 to be just above the noise.
|
Initial results: copy from DESPEC elog.
We have managed to obtain the time difference between the bPlast White rabbit and the AIDA Fast time. We had to gate out the zero fast-time events and then also condition that we only take the data from aida10. We see this in 684/1. Then if we look at the time difference between the fast time and the bPlast WRT we see a sharp peak at zero, this makes sense as the AIDA fast time discriminator is being triggered by a pulser which is then being used as a trigger for bPlasts DAQ so these events should be virtually arriving without delay. The delay we do see is infact around 750 ns.
The data collected overnight was also analysed as shown in 684/3 this is the data accumulated with the 22Na source close to the snout and a global threshold in the fast discriminator of 0x0f. The centre peak was roughly fitted with a gaussian:
NO. NAME VALUE ERROR SIZE DERIVATIVE
1 Constant 1.21277e+03 2.74526e+01 5.66915e-01 -5.61074e-07
2 Mean -1.78513e+02 8.50699e+00 1.62947e-01 1.58554e-06
3 Sigma 3.48571e+02 4.03993e+00 6.26343e-05 -1.86863e-03 |
| Attachment 1: AIDAfasttime_bPlastWRdt_AIDA10.png
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| Attachment 2: AIDACalAdcFasttime.png
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| Attachment 3: AIDAfasttime_bPlastWRdt_AIDA10_nopulser.png
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| Attachment 4: Centrepeak_gauss_fit.png
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683
|
Wed Jan 8 16:47:05 2025 |
JB, MP, CC | AIDA timing test |
| Quote: |
|
https://elog.gsi.de/despec/Implantation+Stack/9?suppress=1 - Day 1 ELOG
Day2:
10:14 we set up the detector with the pulser in BB7 and started biasing the detector and setting up the DAQ. Water flow and temperature check, OK. 677/1 677/2 677/3
FEE temps OK. Screenshots included for LOCAL controls for aida07, Discriminator for aida07, ASIC control for aida01 ASIC # 1,2,3,4 and the pulser setting - 1 V @ 10 Hz rep. 677/4 677/5 677/6 677/7 677/8 677/9
ASIC thresholds for the fast comparator LEC/MEC set to 0x20 for all the ASICs in aida10 - connected to BB7. Act on all ASICs did not work with this so each threshold was set to 0x20 on each ASIC by hand.
The pulser is now connected to BB7 test + and via a T-connector to the scope, triggering on the pulser signal. We saw now signals --> lower the threshold of the fast comparator to 1 MeV - 0x64 on all ASICs in aida10. 677/10
No signal was observed, threshold was then set to 0x190 (400 keV) 677/11
13:00 We resumed after lunch. It seems that our thresholds were way too high for starters each channel was actually 100 keV in HEX. We then set the thresholds in aida10 to 0x32, 0x20, 0x20, 0x11 for ASIC 1,2,3,4, respectively. This was to achieve a 10 Hz hit rate in all of the channels! This was done successfully see 677/12 for the hit rate spectrum and also 677/13-16 for the thresholds.
|
The pulser was set to 0.5 V to test if we can still see the time spectrum between AIDA and bPlast with reduced thresholds -- mimicking a beta event.
These thresholds were changes from 0x32, 0x20, 0x20, 0x11 for ASIC 1,2,3,4 ---> 0x10, 0x10, 0x0d, 0x10.
This was set to have the HitRate in aida10 to be just above the noise. |
| Attachment 1: Screenshot_from_2025-01-08_17-51-51.png
|
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682
|
Wed Jan 8 10:46:50 2025 |
TD | Report - aida06 -boot fail due to network issue |
8:01:25/11:42:48|0x000000d00000-0x000000fe0000 : "user_kernel"
08:01:25/11:42:48|0x000000fe0000-0x000001000000 : "env_variables"
08:01:25/11:42:48|xilinx-xps-spi 81400400.hd-xps-spi: at 0x81400400 mapped to 0xD1028400, irq=20
08:01:25/11:42:48|SPI: XIlinx spi: bus number now 32766
08:01:25/11:42:48|xilinx-xps-spi 81400000.xps-spi: at 0x81400000 mapped to 0xD102C000, irq=21
08:01:25/11:42:48|SPI: XIlinx spi: bus number now 32765
08:01:25/11:42:48|mice: PS/2 mouse device common for all mice
08:01:25/11:42:48|Device Tree Probing 'i2c'
08:01:25/11:42:48| #0 at 0x81600000 mapped to 0xD1030000, irq=22
08:01:25/11:42:48|at24 0-0050: 1024 byte 24c08 EEPROM (writable)
08:01:25/11:42:48|TCP cubic registered
08:01:25/11:42:48|NET: Registered protocol family 17
08:01:25/11:42:48|RPC: Registered udp transport module.
08:01:25/11:42:49|RPC: Registered tcp transport module.
08:01:25/11:42:49|eth0: XLlTemac: Options: 0x3fa
08:01:25/11:42:49|eth0: XLlTemac: allocating interrupt 19 for dma mode tx.
08:01:25/11:42:49|eth0: XLlTemac: allocating interrupt 18 for dma mode rx.
08:01:25/11:42:49|eth0: XLlTemac: speed set to 1000Mb/s
08:01:25/11:42:51|eth0: XLlTemac: Send Threshold = 24, Receive Threshold = 4
08:01:25/11:42:51|eth0: XLlTemac: Send Wait bound = 254, Receive Wait bound = 254
08:01:25/11:42:51|Sending DHCP requests .
08:01:25/11:42:53|eth0: XLlTemac: PHY Link carrier lost.
08:01:25/11:42:53|..... timed out!
08:01:25/11:44:15|IP-Config: Reopening network devices...
08:01:25/11:44:15|eth0: XLlTemac: Options: 0x3fa
08:01:25/11:44:16|eth0: XLlTemac: allocating interrupt 19 for dma mode tx.
08:01:25/11:44:16|eth0: XLlTemac: allocating interrupt 18 for dma mode rx.
08:01:25/11:44:16|eth0: XLlTemac: speed set to 1000Mb/s
08:01:25/11:44:18|eth0: XLlTemac: Send Threshold = 24, Receive Threshold = 4
08:01:25/11:44:18|eth0: XLlTemac: Send Wait bound = 254, Receive Wait bound = 254
08:01:25/11:44:18|Sending DHCP requests ...... timed out!
08:01:25/11:45:35|IP-Config: Auto-configuration of network failed.
08:01:25/11:45:35|Root-NFS: No NFS server available, giving up.
08:01:25/11:45:35|VFS: Unable to mount root fs via NFS, trying floppy.
08:01:25/11:45:35|VFS: Cannot open root device "nfs" or unknown-block(2,0)
08:01:25/11:45:35|Please append a correct "root=" boot option; here are the available partitions:
08:01:25/11:45:35|Kernel panic - not syncing: VFS: Unable to mount root fs on unknown-block(2,0)
08:01:25/11:45:35|Call Trace:
08:01:25/11:45:35|[c6827ed0] [c0005de8] show_stack+0x44/0x16c (unreliable)
08:01:25/11:45:35|[c6827f10] [c00345bc] panic+0x94/0x168
08:01:25/11:45:35|[c6827f60] [c0341d34] mount_block_root+0x12c/0x244
08:01:25/11:45:36|[c6827fb0] [c03420d8] prepare_namespace+0x17c/0x208
08:01:25/11:45:36|[c6827fd0] [c0341220] kernel_init+0x104/0x130
08:01:25/11:45:36|[c6827ff0] [c000e140] kernel_thread+0x4c/0x68
08:01:25/11:45:36|Rebooting in 180 seconds.. |
|
|
681
|
Wed Jan 8 10:08:29 2025 |
JB, GB, SD, MP, CC, JG | AIDA noise test with platform in position |
Yesterday we spent time essentially performing a dry run to get AIDA DAQ and bPlast into the time sorter, there were some issues with the AIDA mbs PC x86l-119 which was related to some boot issue, it was booting to a newer version of debian while the Relay for AIDA to MBS is on an older version (scratch) (the machine is quite old). We spent a bit of time getting the thresholds correct for each of the ASICs. In the end we just elected to have a blanket level of 0x0f for all of the ASICs when we removed the pulser.
Last night we left the setup with the following thresholds on all of the FEEs to collect data. 681/1. The pulser was also turned off and the 22Na source was moved close to the snout.
This morning c. 9:25 we returned and checked the temperatures, HV and statistics and everything seems to be ok. The only problem was that the timesorter has crashed this morning at 8 am. |
| Attachment 1: Screenshot_from_2025-01-09_09-32-08.png
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| Attachment 2: Screenshot_from_2025-01-09_09-35-11.png
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| Attachment 3: Screenshot_from_2025-01-09_09-32-20.png
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| Attachment 4: Screenshot_from_2025-01-09_09-31-58.png
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680
|
Mon Dec 30 15:43:42 2024 |
TD | [How To] Restart AnyDesk |
See also https://elog.ph.ed.ac.uk/CARME/489
1. Establish port (to access carme-gsi) ssh -L 8080:proxy.gsi.de:8080 carme@atppc025
Establish port (to access aida-gsi) ssh -L 3128:proxy.gsi.de:3128 despec@lxlogin
Once a port is established it will remain accessible (until next system boot?) even if ssh connection drops/closes
2. Check AnyDesk password for remote access has been set up
3. Close anydesk and check it is *really* closed using
ps -o pid= -C anydesk
kill -9 any process (as root)
4 Restart AnyDesk
systemctl restart anydesk (as npg) |
|
|
679
|
Mon Dec 23 10:54:46 2024 |
TD | Monday 23 December 2024 |
11.54 re-established remote access via AnyDesk - details to follow
confirmed AIDA FEE64 power OFF, detector HV OFF
1. Establish port (to access carme-gsi) ssh -L 8080:proxy.gsi.de:8080 carme@atppc025
Establish port (to access aida-gsi) ssh -L 3128:proxy.gsi.de:3128 despec@lxlogin
Once a port is established it will remain accessible (until next system boot?) even if ssh connection drops/closes
2. Check AnyDesk password for remote access has been set up
3. Close anydesk and check it is *really* closed using
ps -o pid= -C anydesk
kill -9 any process (as root)
4 Restart AnyDesk
systemctl restart anydesk (as npg) |
|
|
678
|
Tue Dec 17 12:45:36 2024 |
JB, MP, CC | AIDA timing test |
| Quote: |
|
https://elog.gsi.de/despec/Implantation+Stack/9?suppress=1 - Day 1 ELOG
Day2:
10:14 we set up the detector with the pulser in BB7 and started biasing the detector and setting up the DAQ. Water flow and temperature check, OK. 677/1 677/2 677/3
FEE temps OK. Screenshots included for LOCAL controls for aida07, Discriminator for aida07, ASIC control for aida01 ASIC # 1,2,3,4 and the pulser setting - 1 V @ 10 Hz rep. 677/4 677/5 677/6 677/7 677/8 677/9
ASIC thresholds for the fast comparator LEC/MEC set to 0x20 for all the ASICs in aida10 - connected to BB7. Act on all ASICs did not work with this so each threshold was set to 0x20 on each ASIC by hand.
The pulser is now connected to BB7 test + and via a T-connector to the scope, triggering on the pulser signal. We saw now signals --> lower the threshold of the fast comparator to 1 MeV - 0x64 on all ASICs in aida10. 677/10
No signal was observed, threshold was then set to 0x190 (400 keV)
13:00 We resumed after lunch. It seems that our thresholds were way too high for starters each channel was actually 100 keV in HEX. We then set the thresholds in aida10 to 0x32, 0x20, 0x20, 0x11 for ASIC 1,2,3,4, respectively. This was to achieve a 10 Hz hit rate in all of the channels! This was done successfully see 677/12 for the hit rate spectrum and also 677/13-16 for the thresholds.
|
678/1 shows the AIDA OR64 trigger from the fast comparator of aida10.
678/2-4 show the bPlast accepted trigger after the bPlast DAQ has been triggered by the AIDA OR64. The images show a signal coming fast in time after the pulser and also a signal at around 80 us that appears to be coming from pile up.
The bPlast DAQ also now runs with the AIDA OR64 trigger after the NIM out signal from the MACB was sent to an octal discriminator to fix the width of the signal and also the pulse width which from TAMEX should be kept at or above 100 ns. The NIM signal from the MACB was mostly 100 ns but also jumping to signals with a 20ns pulse width.
|
| Attachment 1: IMG_2536.jpeg
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| Attachment 2: 20241217_141148.jpg
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| Attachment 3: 20241217_141206.jpg
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677
|
Mon Dec 16 13:07:04 2024 |
JB, MP, CC | AIDA timing test |
https://elog.gsi.de/despec/Implantation+Stack/9?suppress=1 - Day 1 ELOG
Day2:
10:14 we set up the detector with the pulser in BB7 and started biasing the detector and setting up the DAQ. Water flow and temperature check, OK. 677/1 677/2 677/3
FEE temps OK. Screenshots included for LOCAL controls for aida07, Discriminator for aida07, ASIC control for aida01 ASIC # 1,2,3,4 and the pulser setting - 1 V @ 10 Hz rep. 677/4 677/5 677/6 677/7 677/8 677/9
ASIC thresholds for the fast comparator LEC/MEC set to 0x20 for all the ASICs in aida10 - connected to BB7. Act on all ASICs did not work with this so each threshold was set to 0x20 on each ASIC by hand.
The pulser is now connected to BB7 test + and via a T-connector to the scope, triggering on the pulser signal. We saw now signals --> lower the threshold of the fast comparator to 1 MeV - 0x64 on all ASICs in aida10. 677/10
No signal was observed, threshold was then set to 0x190 (400 keV) 677/11
13:00 We resumed after lunch. It seems that our thresholds were way too high for starters each channel was actually 100 keV in HEX. We then set the thresholds in aida10 to 0x32, 0x20, 0x20, 0x11 for ASIC 1,2,3,4, respectively. This was to achieve a 10 Hz hit rate in all of the channels! This was done successfully see 677/12 for the hit rate spectrum and also 677/13-16 for the thresholds.
|
| Attachment 1: Screenshot_from_2024-12-17_10-15-42.png
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| Attachment 2: Screenshot_from_2024-12-17_10-27-00.png
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| Attachment 8: Screenshot_from_2024-12-17_10-23-37.png
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| Attachment 9: Screenshot_from_2024-12-17_10-23-42.png
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Sat Dec 14 11:52:42 2024 |
TD | Saturday 14 December |
11:00 Visual inspection FEE64 adaptor PCBs & cabling
aida02 ground from/to other FEE64s disconnected - re-connected
aida01, aida09, aida12 - ground cabling screws to Lemo 00.250 housings loose - tightemed
12:50 Cooling water pressure & temperature OK - attachments 1 2
12:59 relay #1 power ON
13:01 relay #2 power ON
13:07 aida06 starts - panic during startup, automatic restart following 3 minute timeout
DAQ reset, setup
Check ASIC Control - browser tab timeout
AIDA MIDAS HTTPD server console log - attachment 3
Appears to have restored ASIC settings 2024Dec13-17.02.45 saved yesterday
aida10 ASICs #1 & #2 positive input, ASICs #3 & #4 negative input
slow comparator 0xa (all p+n junction FEE64s and aida10), 0xf (n+n Ohmic FEE64s)
13:28 tar ASIC settings - attachment 4
[npg@aidas-gsi]$ cd /MIDAS/FEE_ASIC
[npg@aidas-gsi FEE_ASIC]$ tar cvf /tmp/FEE_ASIC.tar .
System wide checks
Sync ASIC clocks - attachment 5
Clock, ADC calibration, WR decoder, FPGA timestamp, PLL checks - attachments 6-11
all OK *except* aida02 WR decoder error
WR timestamps OK - attachment 12
FEE64 temps OK - attachment 13
13:45 Detector bias ON - attachment 14
BNC PB-5 pulser settings - attachment 15
Pulser connected to all p+n junction FEE64s *except* aida10
ADC, DISC, PAUSE and MBS correlation scaler stats - attachments 16-19
aida02 rate significantly lower than yesterday - https://elog.gsi.de/despec/Implantation+Stack/8
high rates observed for aida08, aida11 and aida14 - which are not connected to a DSSSD!
per FEE64 Rate spectra - attachment 20
per p+n junction FEE64 1.8.L spectra - attachment 21
aida09 pulser peak width 56 ch FWHM = 39 keV FWHM
consistent electronic noise for all p+n junction FEE64s (cabling+DSSSD)
electronic noise of p+n junction FEE64s (cabling *only*) higher and more variable cf. https://elog.gsi.de/despec/Implantation+Stack/8 attachment 5
per p+n junction FEE64 1.8.W spectra 20us FSR - attachments 22-23
per n+n Ohmic FEE64 1.8.W spectra 20us FSR - attachment 24
WR timestamps OK - attachment 25
14:43 DAQ STOP
Data transfer enabled
Select Tape Server -> Next Run
DAQ GO data file R3
Merger, Tape Server - attachments 26-27
data transfer rate c. 900k data items/s cf c. 300k data items/s yesterday https://elog.gsi.de/despec/Implantation+Stack/8
16:45 DAQ STOP
Data transfer disabled
Detector bias OFF
FEE64 power OFF |
| Attachment 1: 20241214_125048.jpg
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| Attachment 2: 20241214_125104.jpg
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| Attachment 3: asic_check.log
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executing do_PreReset
::MASTERTS namespace already exists
done executing do_PreReset
executing do_PostSetup
done executing do_PostSetup
ASIC.tcl :- CheckASIC fetched file /MIDAS/FEE_ASIC => aida01
checking asic 1
Loaded ASIC 1 at 0x0000401c for FEE aida01
Second load re-activated at 0x0000401c for FEE aida01
Shifting out finished at 0 counts
Read the control register from FEE aida01 ASIC 1
checking asic 2
Loaded ASIC 2 at 0x0000405c for FEE aida01
Second load re-activated at 0x0000405c for FEE aida01
Shifting out finished at 0 counts
Read the control register from FEE aida01 ASIC 2
checking asic 3
Loaded ASIC 3 at 0x0000409c for FEE aida01
Second load re-activated at 0x0000409c for FEE aida01
Shifting out finished at 0 counts
Read the control register from FEE aida01 ASIC 3
checking asic 4
Loaded ASIC 4 at 0x000040dc for FEE aida01
Second load re-activated at 0x000040dc for FEE aida01
Shifting out finished at 0 counts
Read the control register from FEE aida01 ASIC 4
ASIC.tcl :- CheckASIC fetched file /MIDAS/FEE_ASIC => aida02
checking asic 1
Loaded ASIC 1 at 0x0000401c for FEE aida02
Second load re-activated at 0x0000401c for FEE aida02
Shifting out finished at 0 counts
Read the control register from FEE aida02 ASIC 1
checking asic 2
Loaded ASIC 2 at 0x0000405c for FEE aida02
Second load re-activated at 0x0000405c for FEE aida02
Shifting out finished at 0 counts
Read the control register from FEE aida02 ASIC 2
checking asic 3
Loaded ASIC 3 at 0x0000409c for FEE aida02
Second load re-activated at 0x0000409c for FEE aida02
Shifting out finished at 0 counts
Read the control register from FEE aida02 ASIC 3
checking asic 4
Loaded ASIC 4 at 0x000040dc for FEE aida02
Second load re-activated at 0x000040dc for FEE aida02
Shifting out finished at 0 counts
Read the control register from FEE aida02 ASIC 4
ASIC.tcl :- CheckASIC fetched file /MIDAS/FEE_ASIC => aida03
checking asic 1
Loaded ASIC 1 at 0x0000401c for FEE aida03
Second load re-activated at 0x0000401c for FEE aida03
Shifting out finished at 0 counts
Read the control register from FEE aida03 ASIC 1
checking asic 2
Loaded ASIC 2 at 0x0000405c for FEE aida03
Second load re-activated at 0x0000405c for FEE aida03
Shifting out finished at 0 counts
Read the control register from FEE aida03 ASIC 2
checking asic 3
Loaded ASIC 3 at 0x0000409c for FEE aida03
Second load re-activated at 0x0000409c for FEE aida03
Shifting out finished at 0 counts
Read the control register from FEE aida03 ASIC 3
checking asic 4
Loaded ASIC 4 at 0x000040dc for FEE aida03
Second load re-activated at 0x000040dc for FEE aida03
Shifting out finished at 0 counts
Read the control register from FEE aida03 ASIC 4
ASIC.tcl :- CheckASIC fetched file /MIDAS/FEE_ASIC => aida04
checking asic 1
Loaded ASIC 1 at 0x0000401c for FEE aida04
Second load re-activated at 0x0000401c for FEE aida04
Shifting out finished at 0 counts
Read the control register from FEE aida04 ASIC 1
checking asic 2
Loaded ASIC 2 at 0x0000405c for FEE aida04
Second load re-activated at 0x0000405c for FEE aida04
Shifting out finished at 0 counts
Read the control register from FEE aida04 ASIC 2
checking asic 3
Loaded ASIC 3 at 0x0000409c for FEE aida04
Second load re-activated at 0x0000409c for FEE aida04
Shifting out finished at 0 counts
Read the control register from FEE aida04 ASIC 3
checking asic 4
Loaded ASIC 4 at 0x000040dc for FEE aida04
Second load re-activated at 0x000040dc for FEE aida04
Shifting out finished at 0 counts
Read the control register from FEE aida04 ASIC 4
ASIC.tcl :- CheckASIC fetched file /MIDAS/FEE_ASIC => aida05
checking asic 1
Loaded ASIC 1 at 0x0000401c for FEE aida05
Second load re-activated at 0x0000401c for FEE aida05
Shifting out finished at 0 counts
Read the control register from FEE aida05 ASIC 1
checking asic 2
Loaded ASIC 2 at 0x0000405c for FEE aida05
Second load re-activated at 0x0000405c for FEE aida05
Shifting out finished at 0 counts
Read the control register from FEE aida05 ASIC 2
checking asic 3
Loaded ASIC 3 at 0x0000409c for FEE aida05
Second load re-activated at 0x0000409c for FEE aida05
Shifting out finished at 0 counts
Read the control register from FEE aida05 ASIC 3
checking asic 4
Loaded ASIC 4 at 0x000040dc for FEE aida05
Second load re-activated at 0x000040dc for FEE aida05
Shifting out finished at 0 counts
Read the control register from FEE aida05 ASIC 4
ASIC.tcl :- CheckASIC fetched file /MIDAS/FEE_ASIC => aida06
checking asic 1
Loaded ASIC 1 at 0x0000401c for FEE aida06
Second load re-activated at 0x0000401c for FEE aida06
Shifting out finished at 0 counts
Read the control register from FEE aida06 ASIC 1
checking asic 2
Loaded ASIC 2 at 0x0000405c for FEE aida06
Second load re-activated at 0x0000405c for FEE aida06
Shifting out finished at 0 counts
Read the control register from FEE aida06 ASIC 2
checking asic 3
Loaded ASIC 3 at 0x0000409c for FEE aida06
Second load re-activated at 0x0000409c for FEE aida06
Shifting out finished at 0 counts
Read the control register from FEE aida06 ASIC 3
checking asic 4
Loaded ASIC 4 at 0x000040dc for FEE aida06
Second load re-activated at 0x000040dc for FEE aida06
Shifting out finished at 0 counts
Read the control register from FEE aida06 ASIC 4
ASIC.tcl :- CheckASIC fetched file /MIDAS/FEE_ASIC => aida07
checking asic 1
Loaded ASIC 1 at 0x0000401c for FEE aida07
Second load re-activated at 0x0000401c for FEE aida07
Shifting out finished at 0 counts
Read the control register from FEE aida07 ASIC 1
checking asic 2
Loaded ASIC 2 at 0x0000405c for FEE aida07
Second load re-activated at 0x0000405c for FEE aida07
Shifting out finished at 0 counts
Read the control register from FEE aida07 ASIC 2
checking asic 3
Loaded ASIC 3 at 0x0000409c for FEE aida07
Second load re-activated at 0x0000409c for FEE aida07
Shifting out finished at 0 counts
Read the control register from FEE aida07 ASIC 3
checking asic 4
Loaded ASIC 4 at 0x000040dc for FEE aida07
Second load re-activated at 0x000040dc for FEE aida07
Shifting out finished at 0 counts
Read the control register from FEE aida07 ASIC 4
ASIC.tcl :- CheckASIC fetched file /MIDAS/FEE_ASIC => aida08
checking asic 1
Loaded ASIC 1 at 0x0000401c for FEE aida08
Second load re-activated at 0x0000401c for FEE aida08
Shifting out finished at 0 counts
Read the control register from FEE aida08 ASIC 1
checking asic 2
Loaded ASIC 2 at 0x0000405c for FEE aida08
Second load re-activated at 0x0000405c for FEE aida08
Shifting out finished at 0 counts
Read the control register from FEE aida08 ASIC 2
checking asic 3
Loaded ASIC 3 at 0x0000409c for FEE aida08
Second load re-activated at 0x0000409c for FEE aida08
Shifting out finished at 0 counts
Read the control register from FEE aida08 ASIC 3
checking asic 4
Loaded ASIC 4 at 0x000040dc for FEE aida08
Second load re-activated at 0x000040dc for FEE aida08
Shifting out finished at 0 counts
Read the control register from FEE aida08 ASIC 4
ASIC.tcl :- CheckASIC fetched file /MIDAS/FEE_ASIC => aida09
checking asic 1
Loaded ASIC 1 at 0x0000401c for FEE aida09
Second load re-activated at 0x0000401c for FEE aida09
Shifting out finished at 0 counts
Read the control register from FEE aida09 ASIC 1
checking asic 2
Loaded ASIC 2 at 0x0000405c for FEE aida09
Second load re-activated at 0x0000405c for FEE aida09
Shifting out finished at 0 counts
Read the control register from FEE aida09 ASIC 2
checking asic 3
Loaded ASIC 3 at 0x0000409c for FEE aida09
Second load re-activated at 0x0000409c for FEE aida09
Shifting out finished at 0 counts
Read the control register from FEE aida09 ASIC 3
checking asic 4
Loaded ASIC 4 at 0x000040dc for FEE aida09
Second load re-activated at 0x000040dc for FEE aida09
Shifting out finished at 0 counts
Read the control register from FEE aida09 ASIC 4
ASIC.tcl :- CheckASIC fetched file /MIDAS/FEE_ASIC => aida10
checking asic 1
Loaded ASIC 1 at 0x0000401c for FEE aida10
Second load re-activated at 0x0000401c for FEE aida10
Shifting out finished at 0 counts
Read the control register from FEE aida10 ASIC 1
checking asic 2
Loaded ASIC 2 at 0x0000405c for FEE aida10
Second load re-activated at 0x0000405c for FEE aida10
Shifting out finished at 0 counts
Read the control register from FEE aida10 ASIC 2
checking asic 3
Loaded ASIC 3 at 0x0000409c for FEE aida10
Second load re-activated at 0x0000409c for FEE aida10
Shifting out finished at 0 counts
Read the control register from FEE aida10 ASIC 3
checking asic 4
Loaded ASIC 4 at 0x000040dc for FEE aida10
Second load re-activated at 0x000040dc for FEE aida10
Shifting out finished at 0 counts
Read the control register from FEE aida10 ASIC 4
ASIC.tcl :- CheckASIC fetched file /MIDAS/FEE_ASIC => aida11
checking asic 1
Loaded ASIC 1 at 0x0000401c for FEE aida11
Second load re-activated at 0x0000401c for FEE aida11
Shifting out finished at 0 counts
Read the control register from FEE aida11 ASIC 1
checking asic 2
Loaded ASIC 2 at 0x0000405c for FEE aida11
Second load re-activated at 0x0000405c for FEE aida11
Shifting out finished at 0 counts
Read the control register from FEE aida11 ASIC 2
checking asic 3
Loaded ASIC 3 at 0x0000409c for FEE aida11
Second load re-activated at 0x0000409c for FEE aida11
Shifting out finished at 0 counts
Read the control register from FEE aida11 ASIC 3
checking asic 4
Loaded ASIC 4 at 0x000040dc for FEE aida11
Second load re-activated at 0x000040dc for FEE aida11
Shifting out finished at 0 counts
Read the control register from FEE aida11 ASIC 4
ASIC.tcl :- CheckASIC fetched file /MIDAS/FEE_ASIC => aida12
checking asic 1
Loaded ASIC 1 at 0x0000401c for FEE aida12
Second load re-activated at 0x0000401c for FEE aida12
Shifting out finished at 0 counts
Read the control register from FEE aida12 ASIC 1
checking asic 2
Loaded ASIC 2 at 0x0000405c for FEE aida12
Second load re-activated at 0x0000405c for FEE aida12
Shifting out finished at 0 counts
Read the control register from FEE aida12 ASIC 2
checking asic 3
Loaded ASIC 3 at 0x0000409c for FEE aida12
Second load re-activated at 0x0000409c for FEE aida12
Shifting out finished at 0 counts
Read the control register from FEE aida12 ASIC 3
checking asic 4
Loaded ASIC 4 at 0x000040dc for FEE aida12
Second load re-activated at 0x000040dc for FEE aida12
Shifting out finished at 0 counts
Read the control register from FEE aida12 ASIC 4
ASIC.tcl :- CheckASIC fetched file /MIDAS/FEE_ASIC => aida13
checking asic 1
Loaded ASIC 1 at 0x0000401c for FEE aida13
Second load re-activated at 0x0000401c for FEE aida13
Shifting out finished at 0 counts
Read the control register from FEE aida13 ASIC 1
checking asic 2
Loaded ASIC 2 at 0x0000405c for FEE aida13
Second load re-activated at 0x0000405c for FEE aida13
Shifting out finished at 0 counts
Read the control register from FEE aida13 ASIC 2
checking asic 3
Loaded ASIC 3 at 0x0000409c for FEE aida13
Second load re-activated at 0x0000409c for FEE aida13
Shifting out finished at 0 counts
Read the control register from FEE aida13 ASIC 3
checking asic 4
Loaded ASIC 4 at 0x000040dc for FEE aida13
Second load re-activated at 0x000040dc for FEE aida13
Shifting out finished at 0 counts
Read the control register from FEE aida13 ASIC 4
ASIC.tcl :- CheckASIC fetched file /MIDAS/FEE_ASIC => aida14
checking asic 1
Loaded ASIC 1 at 0x0000401c for FEE aida14
Second load re-activated at 0x0000401c for FEE aida14
Shifting out finished at 0 counts
Read the control register from FEE aida14 ASIC 1
checking asic 2
Loaded ASIC 2 at 0x0000405c for FEE aida14
Second load re-activated at 0x0000405c for FEE aida14
Shifting out finished at 0 counts
Read the control register from FEE aida14 ASIC 2
checking asic 3
Loaded ASIC 3 at 0x0000409c for FEE aida14
Second load re-activated at 0x0000409c for FEE aida14
Shifting out finished at 0 counts
Read the control register from FEE aida14 ASIC 3
checking asic 4
Loaded ASIC 4 at 0x000040dc for FEE aida14
Second load re-activated at 0x000040dc for FEE aida14
Shifting out finished at 0 counts
Read the control register from FEE aida14 ASIC 4
ASIC.tcl :- CheckASIC fetched file /MIDAS/FEE_ASIC => aida15
... 379 more lines ...
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| Attachment 4: FEE_ASIC.tar
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| Attachment 5: Screenshot_from_2024-12-14_13-30-48.png
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| Attachment 6: Screenshot_from_2024-12-14_13-30-54.png
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Wed Dec 11 14:46:21 2024 |
TD, JB, CC, MP | Mounting of AIDA, bPlast and BB7 for test |
Snout assembled for detector position and timing test.
The planned test is to use a BGO with a 22-Na source and the implantation stack to characterise the timing and position of back-to-back 511 keV events (proxy for mock beta decay event).
The implantation stack is assembled as follows:
Upstream ----> AIDA test frame (as a spacer) ----> AIDA DSSSD (3208-3/3208-21/3208-22, Upstream AIDA used in S100 & S181, April 2024) ----> bPlast (Downstream bPlast) ----> BB7 (mounted in test frame connected to AIDA adaptor) ----> Downstream
The AIDA DSSSD condition seems to be the same as when it was dismounted after S181 and it, apart from some specks of dust no bond wires appear to be broken to the naked eye.
BGO signals appear on the scope with a 22-Na source but the response is quite messy.
17:36
MSL type BB18(DS)-1000 24cm x 8cm DSSSD upstream position within snout using 8x upstream (23") ribbon cables
MSL type BB(DS)-1000 positioned downstream of downstream bPlast within snout using 1x downstream (29") ribbon cable. For BB7 'isolated' Right Coupler Kapton PCB replaced by unmodified Right Coupler Kapton PCB.
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674
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Mon Dec 9 12:28:01 2024 |
NH, CC, MP | Test of BB7 on AIDA Electronics |
BB7 connected to aida07, sitting in a cardboard box
Update Tcl/Tml files in ASIC, ASIC4 and sys.tml frm PJCS email to allow setting per-ASIC polarity on FEE64
Restart MIDAS@8015
Power on all FEEs
Note nnrpi is not responding to ssh... MP investigates if it ahs been unplugged
No, but a powercycle worked and fixed it
See error: /MIDAS/FEE_ASIC/aida06/ASICs.txt not found, create the folders
We see some data in the L spectra, and changing the settings from one ASIC seems to work properly
Stopped for CC/MP to determine the which ASICs correspond to p+n and n+n
Follow up: Alpha data overnight or source? |
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673
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Thu Dec 5 11:18:46 2024 |
TD | Offline analysis S100 data files R21_0-R21_99 |
Offline analysis of S100 data files R21_0 - R21_99 (162Eu setting)
first WR ts
First timestamp of R21_0 0x17CA09154AE3E636
Epoch converter says ...
GMT: Saturday, April 27, 2024 4:36:35.223 AM
Your time zone: Saturday, April 27, 2024 5:36:35.223 AM GMT+01:00 DST
last WR ts
First timestamp of R21_100 0x17CA16C1904150CE
GMT: Saturday, April 27, 2024 8:47:08.772 AM
Your time zone: Saturday, April 27, 2024 9:47:08.772 AM GMT+01:00 DST
FEE64 configuration
FEE64 a b c
g h
d e f
a b c d e f g h
DSSSD#1 15 3 12 9 1 5 2 4
DSSSD#2 11 7 16 10 14 13 6 8
n+n Ohmic FEE64s 2, 4, 6, 8
Data analysis assumes
- all LEC ADC data channels with valid ADC offset included (1012 of 1024 channels)
LEC calibration ADC offset only
- no clustering
- no multiplex timestamp correction
- no p+n junction side - n+n Ohmic side correlation time gates
- FEE64 *not* DSSSD strip ordering
- hardware - slow comparator setting p+n junction FEE64s 100keV, n+n Ohmic FEE64s 150keV
- LEC energy difference +/-168keV
- HEC energy difference +/- 1.68GeV
- valid LEC events
DSSSD #1
p+n junction side multiplicity = 1 and n+n Ohmic side multiplicity = 1
DSSSD #2
0 < p+n junction side multiplicity < 8
and
0 < n+n Ohmic side multiplicity < 8
151keV < LEC energy < 1008keV
to select candidate beta events and veto higher energy events e.g. light ions
standalone analysis of AIDA data, no downstream veto detector
- valid HEC events
p+n junction side multiplicity > 0 and n+n Ohmic side multiplicity > 0
(x,y) strips corresponding to maximum energy
p+n junction and n+n Ohmic side HEC
- HEC veto
p+n junction side multiplicity > 0 or n+n Ohmic side multiplicity > 0
- per pixel implant-decay correlations
- end of event
difference in WR timestamp between successive ADC data items > 2500
Attachments 1-4
per DSSSD p+n junction - n+n Ohmic strip time difference for HEC and LEC events (2us/channel) linear and log scale
- observe large (> 32us) time differences (on log scale)
- range of time differences increases with multiplicity ( DSSSD#1 cf. DSSSD#2 LEC events)
- distribution of HEC time differences can probably be understood in terms of most/all channels of ASIC being active during HEC event with low LEC thresholds
- AIDA is a triggerless DAQ producing streams of ADC data items *not* events
at high instantaneous rates when events are constructed they may become aggregated in time i.e. > 32us readout time of all channels of one ASIC
- To investigate impose additional end of event criterion
difference in first and last WR timestamp of event < 33us
Attachments 5-6
per DSSSD p+n junction - n+n Ohmic strip time difference for HEC and LEC events (2us/channel) linear and log scale
- blue original end of event criteria, cyan new end of event criteria
- as expected range of time differences is restricted to +/- 32us
- observe somewhat higher fraction of events with low time differences
DSSSD #1 10363098 of 16104322 (64%) events +/-2us
DSSSD #2 860454912 of 1766618199 (49%) events +/-2us
Attachment 7
per DSSSD p+n junction - n+n Ohmic strip time difference for LEC events - x-axis 2us/channel, y-axis 20keV /channel
Attachment 8 per FEE64 LEC data rate (Hz) 268ms/channel
Attachment 9 per FEE64 LEC data rate (Hz) 268ms/channel: 150keV < energy < 1500keV
Attachment 10 per FEE64 LEC data rate (Hz) 268ms/channel: energy > 1500keV
- observe high instantaneous rate on spill
- rate dominated by low energy (<1500keV) events
- rate of higher energy events dominated by on spill events i.e. light ions as expected
- significant deadtime on spill for n+n Ohmic FEE64s, low deadtime off spill
- deadtime low/zero for p+n junction FEE64s on/off spill
Attachment 11 per FEE64 LEC hit pattern: 150keV < energy < 1500keV
Attachment 12 per FEE64 LEC hit pattern: energy > 1500keV
Attachment 13 per FEE64 HEC data rate (Hz) 268ms/channel
Attachment 14 per FEE64 HEC data rate (Hz) 268ms/channel: 100MeV < energy < 1000MeV
Attachment 15 per FEE64 HEC data rate (Hz) 268ms/channel: energy > 1000MeV
- rate dominated by low energy (>1GeV) events
- all HEC events on spill as expected (note FEE64 #7 has a single hot channel which can be disabled in software)
- significant deadtime on spill for n+n Ohmic FEE64s, low deadtime off spill
- deadtime low/zero for p+n junction FEE64s on/off spill
Attachment 16 per DSSSD p+n junction versus n+n Ohmic LEC energy - x-axis & y-axis 20keV/channel
Attachment 17 per DSSSD p+n junction versus n+n Ohmic HEC energy - x-axis & y-axis 20MeV/channel
Attachment 18 per DSSSD p+n junction versus n+n Ohmic HEC strip hit pattern: all HEC events
Attachment 19 per DSSSD p+n junction versus n+n Ohmic HEC strip hit pattern
DSSSD #1 ions stopped in DSSSD #1 i.e. DSSSD #2 HEC multiplicity = 0
DSSSD #1 shows x-y gate used ( 270 < x < 370, 20 < y < 90 ) to identify 166Tb implants
DSSSD #2 ions stopped in DSSSD #2 *and* in transmission (can establish which ions stop in DSSSD#2 from DSSSD#2 HEC energy versus DSSSD#1 HEC energy - see
https://elog.ph.ed.ac.uk/DESPEC/672
Attachment 20
DSSSD#1 HEC energy (20MeV/channel) versus HEC-LEC dt (1s/channel)
DSSSD#1 LEC energy (20keV/channel) versus HEC-LEC dt (1s/channel)
DSSSD#1 HEC strip # versus HEC-LEC dt (1s/channel)
- Observe # events in every third channel is lower
- Probably reflects implant-decay correlation livetime
For example (choosing some numbers for illustrative purposes)
on spill: HEC livetime 75%, LEC livetime 75% (FEE64 deadtime common for HEC and LEC data) => implant decay correlation livetime 56%
off spill: HEC live time 75%, LEC livetime 100% => implant decay correlation livetime 75%
- Observe 'hot' x channels 315, 318, 321, 324 - disabled for further analysis
- Do not observe any 'hot' y channels
Attachments 21 & 22
DSSSD#1 per pixel HEC-LEC time (1s/channel): x,y,z gated to select 166Tb events
Naive (parent-daughter decay only, flat background) fit for data t=0-26s ( t1/2 = 27.1(3)s )
Fit ignores data for t=0, 3, 6, 10, 13, 16, 19, 22s to avoid bias of differences in implant-decay correlation deadtime
Suggestion of structure at c. 30s period? Does this reflect spill stucture? 10x spill cycles (30s), 9s spill off, ... etc
Sum of x,y,z gated HEC events (s2112 - see attachment 19) = 670441
Elapsed time of dataset 4h11m = 15060s
# pixels = 100 x 70 = 7000
=> # x,y,z gated HEC events per pixel = 670441/7000/15060 = 0.0064/s or mean time between x,y,z gated HEC event = 157s (estimate needs to be corrected for HEC deadtime)
Sum of implant decay correlations (s2220 - see attachment 21) t=0-150s = 273508 - flat background estimated as 150 x 500 = 75000 = 198508
=> efficiency c. 30% (presumably low due to implant-decay deadtime, LEC multiplicity, per pixel correlations and no clustering)
Summary
$64,000 question - what is the origin of the high instantaneous rate on spill for DSSSD#1 ? On my to do list.
Attachment 23
LEC multiplicity with/without HEC data in event
per DSSSD LEC p+n junction multiplicity versus n+n Ohmic multiplicity
per DSSSD LEC p+n junction multiplicity versus n+n Ohmic multiplicity z_hec=1 and z_hec=2
With HEC data
DSSSD#1 p+n junction multiplicity ~ 17, n+n Ohmic multiplicity ~28
DSSSD#2 p+n junction multiplicity ~ 40, n+n Ohmic multiplicity ~23
Assume 200Hz HEC events => DSSSD#1 LEC rate = 200 x ( 17 + 28 ) => 9k LEC data items cf. >100k LEC data items (attachments 8 & 13)
i.e. not due to HEC events
Added by TD 10.2.26
Analysis data files from R21_0 to R21_99 (as above)
Total data items = 21339100747
Total ADC events = 1072214006
Attachments 24-26 DSSSD#1 per pixel HEC-LEC time (3s/channel): x,y,z gated to select 166Tb events - common x and y scales - log and lin plots shown
blue - HEC-LEC 'forward correlations'
cyan - LEC-HEC 'backward correlations'
Attachments 27-28 DSSSD#1 per pixel HEC-LEC time (3s/channel): x,y,z gated to select 166Tb events - common x and y scales - log and lin plots shown
s2226 - HEC-LEC 'forward correlations'
s2224 - LEC-HEC 'backward correlations'
difference s2226-s2224
|
| Attachment 1: Screenshot_from_2024-12-05_11-17-50.png
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| Attachment 2: Screenshot_from_2024-12-05_11-18-13.png
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| Attachment 3: Screenshot_from_2024-12-05_11-04-40.png
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| Attachment 4: Screenshot_from_2024-12-05_11-05-03.png
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| Attachment 5: Screenshot_from_2024-12-05_11-07-58.png
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| Attachment 6: Screenshot_from_2024-12-05_11-09-55.png
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| Attachment 7: Screenshot_from_2024-12-04_16-56-02.png
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| Attachment 8: Screenshot_from_2024-12-04_16-39-09.png
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| Attachment 9: Screenshot_from_2024-12-04_16-39-59.png
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| Attachment 10: Screenshot_from_2024-12-04_16-41-20.png
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| Attachment 11: Screenshot_from_2024-12-04_16-41-54.png
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| Attachment 12: Screenshot_from_2024-12-04_16-42-37.png
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| Attachment 13: Screenshot_from_2024-12-04_16-43-36.png
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| Attachment 14: Screenshot_from_2024-12-04_16-44-13.png
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| Attachment 15: Screenshot_from_2024-12-04_16-44-50.png
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| Attachment 16: Screenshot_from_2024-12-04_16-46-26.png
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| Attachment 17: Screenshot_from_2024-12-04_16-50-32.png
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| Attachment 18: Screenshot_from_2024-12-04_16-49-12.png
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| Attachment 19: Screenshot_from_2024-12-04_16-49-57.png
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| Attachment 20: Screenshot_from_2024-12-04_16-52-09.png
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| Attachment 21: Screenshot_from_2024-12-04_16-51-30.png
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| Attachment 22: 166Tb.png
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| Attachment 23: Screenshot_from_2024-12-07_16-57-28.png
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| Attachment 24: Screenshot_from_2026-02-10_08-12-46.png
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| Attachment 25: Screenshot_from_2026-02-10_08-13-13.png
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| Attachment 26: Screenshot_from_2026-02-10_08-13-39.png
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| Attachment 27: Screenshot_from_2026-02-10_08-23-39.png
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| Attachment 28: Screenshot_from_2026-02-10_08-24-08.png
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| Attachment 29: titles.dat
|
s0 aida01: LEC ADC data items ( 268ms/ch )
s15 aida16: LEC ADC data items ( 268ms/ch )
s20 aida01: LEC ADC data items ( 268ms/ch ): 150-1500keV
s35 aida16: LEC ADC data items ( 268ms/ch ): 150-1500keV
s40 aida01: LEC ADC data items ( 268ms/ch ): >1500keV
s55 aida16: LEC ADC data items ( 268ms/ch ): >1500keV
s60 aida01: LEC hit pattern: 150-1500keV
s75 aida16: LEC hit pattern: 150-1500keV
s80 aida01: LEC hit pattern: >1500keV
s95 aida16: LEC hit pattern: >1500keV
s100 aida01: HEC ADC data items ( 268ms/ch )
s115 aida16: HEC ADC data items ( 268ms/ch )
s120 aida01: HEC ADC data items ( 268ms/ch ): 100-1000MeV
s135 aida16: HEC ADC data items ( 268ms/ch ): 100-1000MeV
s140 aida01: HEC ADC data items ( 268ms/ch ): >1000MeV
s155 aida16: HEC ADC data items ( 268ms/ch ): >1000MeV
s200 aida01: disc data items ( 65us/ch )
s207 aida08: disc data items ( 65us/ch )
s208 aida09: disc data items ( 65us/ch )
s215 aida16: disc data items ( 65us/ch )
s250 LEC & HEC channels (DSSSD order)
s251 LEC & HEC channels (ASIC order)
s301 DSSSD #1 LEC rate (Hz) versus time
s302 DSSSD #2 LEC rate (Hz) versus time
s303 DSSSD #1 HEC rate (Hz) versus time
s304 DSSSD #2 HEC rate (Hz) versus time
s400 DSSSD #1 LEC (decay) events ( 262.144us/ch )
s401 DSSSD #1 HEC (implant) events ( 262.144us/ch )
s402 DSSSD #1 LEC other (decay) events ( 262.144us/ch )
s403 DSSSD #2 LEC (decay) events ( 262.144us/ch )
s404 DSSSD #2 HEC (implant) events ( 262.144us/ch )
s405 DSSSD #2 HEC other (decay) events ( 262.144us/ch )
s1000 4*(module # - 1) + asic # (0-95 ADC; 100-195 Disc) v. timestamp (65us/ch)
s1001 HEC channel (2048-3071) versus energy
s1402 event length (clock)
s1403 end of event dt (clock)
s2000 m_p versus m_n DSSSD #1 (LEC)
s2001 m_p versus m_n DSSSD #2 (LEC)
s2002 m_p versus m_n DSSSD #1 (LEC) z_hec=1
s2003 m_p versus m_n DSSSD #2 (LEC) z_hec=2
s2010 x versus y DSSSD #1 (LEC)
s2011 x versus y DSSSD #2 (LEC)
s2020 E_p versus E_n DSSSD #1 (LEC)
s2021 E_p versus E_n DSSSD #2 (LEC)
s2030 LEC-LEC time DSSSD #1 (4.096us/ch)
s2031 LEC-LEC time DSSSD #2 (4.096us/ch)
s2040 x versus y DSSSD #1: HEC-LEC time < 1s
s2041 x versus y DSSSD #1: HEC-LEC time < 100s
s2045 x versus y DSSSD #2: HEC-LEC time < 1s
s2046 x versus y DSSSD #2: HEC-LEC time < 100s
s2100 m_p versus m_n DSSSD #1 (HEC)
s2101 m_p versus m_n DSSSD #2 (HEC)
s2110 x versus y DSSSD #1 (HEC)
s2111 x versus y DSSSD #2 (HEC)
s2112 x versus y DSSSD #1 (HEC) z_hec=1
s2113 x versus y DSSSD #2 (HEC) z_hec=3
s2120 E_p versus E_n DSSSD #1 (HEC)
s2121 E_p versus E_n DSSSD #2 (HEC)
s2122 E_p versus E_n DSSSD #1 (HEC) z_hec=1
s2123 E_p versus E_n DSSSD #2 (HEC) z_hec=3
s2124 E_p DSSSD #2 versus E_p DSSSD #1 (HEC) z_hec=3
s2125 dx versus dy (HEC)
s2126 dx versus dy (LEC)
s2127 E_p DSSSD #2 versus E_p DSSSD #1 (LEC)
s2130 HEC-HEC time DSSSD #1 (4.096us/ch)
s2131 HEC-HEC time DSSSD #2 (4.096us/ch)
s2200 per pixel HEC-LEC time DSSSD #1 (4.096us/ch)
s2201 per pixel HEC-LEC time DSSSD #2 (4.096us/ch)
s2220 per pixel HEC-LEC time DSSSD#1 (1s/ch) x,y,z HEC gate
s2221 per pixel HEC-LEC time DSSSD#2 (1s/ch) x,y,z HEC gate
s2224 per pixel LEC-HEC time DSSSD#1 (3s/ch) x,y,z HEC gate
s2226 per pixel HEC-LEC time DSSSD#1 (3s/ch) x,y,z HEC gate
s2210 per pixel HEC-LEC time DSSSD #1 (65.536us/ch)
s2211 per pixel HEC-LEC time DSSSD #2 (65.5360us/ch)
s2300 HEC E versus HEC-LEC dt DSSSD#1 (1s/ch)
s2301 HEC E versus HEC-LEC dt DSSSD#2 (1s/ch)
s2400 LEC E versus HEC-LEC dt DSSSD#1 (1s/ch)
s2401 LEC E versus HEC-LEC dt DSSSD#2 (1s/ch)
s2500 HEC xy versus HEC-LEC dt DSSSD#1 (1s/ch)
s2501 HEC xy versus HEC-LEC dt DSSSD#2 (1s/ch)
s3000 x versus y DSSSD #1 (LEC) Other
s3001 x versus y DSSSD #2 (LEC) Other
s3010 E_p versus E_n DSSSD #1 (LEC) Other
s3011 E_p versus E_n DSSSD #2 (LEC) Other
s3030 DSSSD#1 xy dt (HEC)
s3031 DSSSD#2 xy dt (HEC)
s3032 DSSSD#1 xy dt (LEC)
s3033 DSSSD#2 xy dt (LEC)
|
| Attachment 30: variables.dat
|
$variables
offset( 0) = 34.20
offset( 1) = 27.50
offset( 2) = -18.51
offset( 3) = 13.56
offset( 4) = -6.12
offset( 5) = -14.51
offset( 6) = 11.86
offset( 7) = -0.19
offset( 8) = 2.52
offset( 9) = 24.94
offset( 10) = 7.54
offset( 11) = -20.01
offset( 12) = -0.93
offset( 13) = 26.51
offset( 14) = -12.75
offset( 15) = -4.72
offset( 16) = 5.48
offset( 17) = -8.97
offset( 18) = 4.25
offset( 19) = -3.19
offset( 20) = -40.78
offset( 21) = -0.95
offset( 22) = -14.62
offset( 23) = -28.18
offset( 24) = -12.96
offset( 25) = 14.90
offset( 26) = -32.39
offset( 27) = 0.66
offset( 28) = 6.68
offset( 29) = 99999.99
offset( 30) = 15.03
offset( 31) = -2.98
offset( 32) = 16.22
offset( 33) = 27.02
offset( 34) = 99999.99
offset( 35) = 17.09
offset( 36) = 17.72
offset( 37) = 16.29
offset( 38) = 23.46
offset( 39) = 27.55
offset( 40) = 9.26
offset( 41) = 34.03
offset( 42) = 2.46
offset( 43) = 8.62
offset( 44) = 29.61
offset( 45) = -14.47
offset( 46) = 42.23
offset( 47) = -27.52
offset( 48) = 1.06
offset( 49) = 4.03
offset( 50) = 22.04
offset( 51) = -10.44
offset( 52) = 38.54
offset( 53) = 8.66
offset( 54) = 20.65
offset( 55) = 0.35
offset( 56) = 5.19
offset( 57) = 19.55
offset( 58) = -5.57
offset( 59) = -7.26
offset( 60) = -21.96
offset( 61) = 5.89
offset( 62) = 36.14
offset( 63) = 3.05
offset( 64) = -15.80
offset( 65) = 25.02
offset( 66) = -15.94
offset( 67) = 6.19
offset( 68) = -19.87
offset( 69) = 0.37
offset( 70) = -9.68
offset( 71) = 9.68
offset( 72) = -11.13
offset( 73) = -6.20
offset( 74) = -25.35
offset( 75) = -25.57
offset( 76) = -19.75
offset( 77) = 8.60
offset( 78) = -22.55
offset( 79) = -10.56
offset( 80) = 5.90
offset( 81) = -1.29
offset( 82) = -1.52
offset( 83) = 0.00
offset( 84) = 24.56
offset( 85) = -10.73
offset( 86) = 11.96
offset( 87) = -35.20
offset( 88) = 16.67
offset( 89) = 10.31
offset( 90) = -13.86
offset( 91) = -33.64
offset( 92) = 2.96
offset( 93) = -2.41
offset( 94) = 1.80
offset( 95) = 26.72
offset( 96) = -18.06
offset( 97) = -0.82
offset( 98) = -19.61
offset( 99) = 0.00
offset( 100) = -11.22
offset( 101) = 9.13
offset( 102) = -29.56
offset( 103) = -1.95
offset( 104) = -14.24
offset( 105) = -21.87
offset( 106) = -7.47
offset( 107) = -14.22
offset( 108) = -6.72
offset( 109) = -4.35
offset( 110) = -12.98
offset( 111) = -11.42
offset( 112) = 5.39
offset( 113) = 16.43
offset( 114) = -10.19
offset( 115) = -13.21
offset( 116) = 19.82
offset( 117) = -4.45
offset( 118) = 21.88
offset( 119) = 13.84
offset( 120) = 10.16
offset( 121) = 0.00
offset( 122) = 0.00
offset( 123) = 0.00
offset( 124) = 13.42
offset( 125) = 4.74
offset( 126) = 10.81
offset( 127) = 16.15
offset( 128) = -4.37
offset( 129) = 21.60
offset( 130) = 8.61
offset( 131) = -2.95
offset( 132) = -10.00
offset( 133) = 2.40
offset( 134) = -9.40
offset( 135) = -24.68
offset( 136) = 4.46
offset( 137) = -0.20
offset( 138) = 20.63
offset( 139) = -25.14
offset( 140) = -7.48
offset( 141) = 13.71
offset( 142) = -4.11
offset( 143) = -9.17
offset( 144) = 15.36
offset( 145) = 11.07
offset( 146) = -13.21
offset( 147) = -8.91
offset( 148) = 4.75
offset( 149) = -10.47
offset( 150) = 18.10
offset( 151) = 0.62
offset( 152) = -2.18
offset( 153) = 5.79
offset( 154) = 2.73
offset( 155) = 17.67
offset( 156) = 15.58
offset( 157) = -34.45
offset( 158) = -1.55
offset( 159) = 12.93
offset( 160) = 4.16
offset( 161) = -15.55
offset( 162) = 17.51
offset( 163) = -5.30
offset( 164) = 8.65
offset( 165) = -13.48
offset( 166) = -10.14
offset( 167) = -3.75
offset( 168) = 12.28
offset( 169) = -23.31
offset( 170) = -11.44
offset( 171) = 5.06
offset( 172) = -15.18
offset( 173) = 17.88
offset( 174) = 12.26
offset( 175) = -13.64
offset( 176) = -9.33
offset( 177) = 21.57
offset( 178) = 28.82
offset( 179) = 27.67
offset( 180) = 62.22
offset( 181) = -2.89
offset( 182) = 17.11
offset( 183) = 11.80
offset( 184) = 17.26
offset( 185) = 15.52
offset( 186) = -8.89
offset( 187) = 15.53
offset( 188) = -11.80
offset( 189) = 0.85
offset( 190) = 11.21
offset( 191) = 7.76
offset( 192) = 5.12
offset( 193) = 26.29
offset( 194) = 99999.99
offset( 195) = 7.45
offset( 196) = 99999.99
offset( 197) = 2.31
offset( 198) = -1.94
offset( 199) = 99999.99
offset( 200) = -0.41
offset( 201) = -23.18
offset( 202) = -1.82
offset( 203) = 17.39
offset( 204) = -10.40
offset( 205) = -13.42
offset( 206) = 8.22
offset( 207) = 2.93
offset( 208) = -56.48
offset( 209) = -10.42
offset( 210) = 50.72
offset( 211) = 0.45
offset( 212) = 27.74
offset( 213) = -16.62
offset( 214) = 15.39
offset( 215) = -13.44
offset( 216) = 34.58
offset( 217) = 15.20
offset( 218) = -3.05
offset( 219) = -0.28
offset( 220) = -40.52
offset( 221) = -31.47
offset( 222) = 20.29
offset( 223) = -13.69
offset( 224) = -1.11
offset( 225) = 33.58
offset( 226) = -16.57
offset( 227) = -4.95
offset( 228) = -11.93
offset( 229) = 7.06
offset( 230) = -2.90
offset( 231) = -38.90
offset( 232) = -8.84
offset( 233) = 1.20
offset( 234) = 3.21
offset( 235) = 17.26
offset( 236) = 4.76
offset( 237) = 13.15
offset( 238) = 13.66
offset( 239) = -2.42
offset( 240) = -1.46
offset( 241) = 0.03
offset( 242) = 20.72
offset( 243) = -0.74
offset( 244) = -2.03
offset( 245) = -36.41
offset( 246) = 5.31
offset( 247) = 3.45
offset( 248) = -9.35
offset( 249) = 8.61
offset( 250) = 6.18
offset( 251) = -72.01
offset( 252) = 11.53
offset( 253) = -13.74
offset( 254) = -2.41
offset( 255) = -16.47
offset( 256) = 6.19
offset( 257) = 13.35
offset( 258) = 10.44
offset( 259) = 16.45
offset( 260) = 13.62
offset( 261) = 36.59
offset( 262) = 24.89
offset( 263) = 11.04
offset( 264) = 12.12
offset( 265) = -1.04
offset( 266) = 20.55
offset( 267) = -19.88
offset( 268) = 10.57
offset( 269) = 31.05
offset( 270) = 23.09
offset( 271) = -17.38
offset( 272) = -18.40
offset( 273) = 16.00
offset( 274) = -5.59
offset( 275) = -3.98
offset( 276) = 0.70
offset( 277) = 4.32
offset( 278) = -13.61
offset( 279) = 26.62
offset( 280) = 17.81
offset( 281) = 7.10
offset( 282) = -30.97
offset( 283) = 13.50
offset( 284) = 88.96
offset( 285) = -0.03
offset( 286) = 8.64
offset( 287) = 1.86
offset( 288) = 4.27
offset( 289) = 19.21
offset( 290) = -33.21
offset( 291) = -28.54
offset( 292) = 7.98
offset( 293) = -8.69
offset( 294) = 1.27
offset( 295) = 20.08
offset( 296) = 15.92
offset( 297) = -4.67
offset( 298) = 30.68
... 1788 more lines ...
|
| Attachment 31: implantdecay.f
|
*trigger
128
*oned
0..15 s 65536
20..35 s 65536
40..55 s 65536
60..75 s 64
80..96 s 64
100..115 s 65536
120..135 s 65536
140..155 s 65536
200..215 s 65536
250..254 s 4096
300..331 s 65536
400..405 s 65536
1400..1403 s 65536
2130..2131 s 65536
2030..2031 s 65536
2200..2201 s 65536
2210..2211 s 65536
2220..2229 s 1024
3030..3033 s 4096
*twod
1000..1001 s 4096 4096
1100..1101 s 512 512
2000..2003 s 512 512
2010..2011 s 512 512
2020..2021 s 1024 1024
2040..2049 s 512 512
2100..2101 s 512 512
2110..2113 s 512 512
2120..2127 s 1024 1024
2300..2301 s 1024 1024
2400..2401 s 1024 1024
2500..2501 s 1024 1024
2600 s 512 512
2700 s 512 512
3000..3001 s 512 512
3010..3011 s 1024 1024
3020..3021 s 512 512
3040..3041 s 512 512
*vars
*sort
C 201..232 s 65536
C 250..254 s 4096
C 2500..2505 s 1024 1024
C----67---------------------------------------------------------------72------80
SUBROUTINE init
IMPLICIT none
SAVE
C
C External functions
C
EXTERNAL dtime
C
INTEGER and, lshift, rshift, bb18order
C
LOGICAL btest
C
REAL float, secnds
C
C Parameter variables
C
INTEGER max
PARAMETER (max = 4096)
C
C Local variables
C
INTEGER adc_data, asic, ch, chx, channel, channel_ident
INTEGER count, data(0:4095), disc
INTEGER dsssd_a( 6 ), dsssd_b( 6 ), dsssd_c( 6 ), dsssd_d( 6 )
INTEGER dsssd_e( 6 ), dsssd_f( 6 ), dsssd_g( 6 ), dsssd_h( 6 )
INTEGER*8 dt, tsdata(0:4096), itsdata(0:4096)
INTEGER ediff, fee(32)
INTEGER hec_e_sum_x(2), hec_e_sum_y(2)
INTEGER hec_e_x_max(2), hec_e_y_max(2)
INTEGER hec_e_x_max_ch(2), hec_e_y_max_ch(2)
INTEGER lec_e(2), lec_x(2), lec_y(2)
INTEGER hec_x(2), hec_y(2)
INTEGER m_veto, veto( 1:64 )
INTEGER*8 e_time, e_time_old
INTEGER*8 items, items_old, events, events_old
INTEGER i
INTEGER*2 i2(2), i2_2(4)
INTEGER i4, i4_2(2)
INTEGER*8 i8, first_ts_value
INTEGER idata(0:4095), ierr, information, information_index
INTEGER invalid_id, j, j1, j1_old, j2, j2_old, k
INTEGER j3, j3_old, j4, j4_old
INTEGER l, m, mbs_data(0:3), module, m_disc, ptr, lec(8)
INTEGER m_p_lec(8), m_n_lec(8), m_p_hec(8), m_n_hec(8)
INTEGER sc_channel
INTEGER scaler( 32 ), scaler_old( 32 ), range, time_warp, total
INTEGER*8 timestamp, ts
INTEGER ts28, ts48, ts64
INTEGER*8 old_ts( 8, 2 ), ts_old
INTEGER implant_e( 0:383, 0:127, 1:8 )
INTEGER*8 implant_ts( 0:383, 0:127, 1:8 )
INTEGER*8 decay_ts( 0:383, 0:127, 1:8 )
INTEGER*8 dts( 0:511 ), cts( 0:511 ), min_dts( 0:511 )
INTEGER type, w(0:31), zzz, pulser, pulser_old
INTEGER z_lec, z_lec_veto, z_hec
C
LOGICAL hit(0:4095), ihit(0:4095)
LOGICAL first_event, next_event, first_ts
LOGICAL implant1, implant2, decay1, decay2, other1, other2
LOGICAL dt_tag, warp
LOGICAL first_info_code_4, first_info_code_5
REAL c(0:7), delta_t, gain(0:max-1), offset(0:max-1)
REAL t1, t2, t2_old
DOUBLE PRECISION rates( 32 ), t3, t4, t4_old, t5
C----67---------------------------------------------------------------72------80
C
C Namelists
C
NAMELIST /variables/ gain, offset, c, w,
+ dsssd_a, dsssd_b, dsssd_c, dsssd_d,
+ dsssd_e, dsssd_f, dsssd_g, dsssd_h, veto
C----67---------------------------------------------------------------72------80
C
C Common variables
C
INTEGER*2 gdata(0:15)
C
COMMON /fdata/ gdata
C
C Common variables
C
INTEGER*2 gid(0:15)
C
COMMON /fid/ gid
C
C Common variables
C
INTEGER mult
C
COMMON /fmult/ mult
C
EQUIVALENCE ( i8, i4_2(1) )
EQUIVALENCE ( i4, i2(1) )
C
C----67---------------------------------------------------------------72------80
WRITE ( 6, * ) ' *** S100 - implantdecay - November 2024'
WRITE ( 6, * ) ' *** Entry init commences'
C Initialise counters
events = 0
events_old = 0
pulser = 0
pulser_old = 0
time_warp = 0
invalid_id = 0
first_ts = .TRUE.
first_info_code_4 = .false.
first_info_code_5 = .false.
t3 = 0.0D+00
t4 = 0.0D+00
t4_old = 0.0D+00
C Initialise event data
DO i = 0, 4095
data( i ) = 0
tsdata(i) = 0
hit( i ) = .FALSE.
ENDDO
DO i = 1, 32
fee(i) = 0
ENDDO
DO i = 0, 511
min_dts( i ) = 999999999
cts( i ) = 0
ENDDO
first_event = .true.
next_event = .false.
ts_old = 0
e_time_old = 0
count = 0
total = 0
DO i = 0, 4095
gain( i ) = 1.0
offset( i ) = 0.0
ENDDO
DO i = 0, 31
w( i ) = 0
ENDDO
DO i = 0, 7
c( i ) = 1.0
ENDDO
DO i = 1, 64
veto(i) = -1
ENDDO
DO i = 1, 32
scaler( i ) = 0
scaler_old( i ) = 0
rates( i ) = 0.0
ENDDO
DO i = 1, 6
DO j = 1, 2
old_ts( i, j ) = 0
ENDDO
ENDDO
DO i = 0, 383
DO j = 0, 127
DO k = 1, 8
implant_ts( i, j, k ) = 0
decay_ts( i, j , k ) = 0
implant_e( i, j, k ) = 0
ENDDO
ENDDO
ENDDO
C Initialise time
t1 = SECNDS(0.0)
C Read program variables via NAMELIST I/O
OPEN( 1, FILE = '/home/td/S100/variables.dat',
+ IOSTAT = ierr )
IF ( ierr.NE.0 ) THEN
WRITE( 6, * ) ' *** OPEN I/O error:', ierr
ENDIF
READ( 1, NML = variables, IOSTAT = ierr )
IF ( ierr.NE.0 ) THEN
WRITE( 6, * ) ' *** READ I/O error:', ierr
ENDIF
CLOSE( 1, IOSTAT = ierr )
IF ( ierr.NE.0 ) THEN
WRITE( 6, * ) ' *** CLOSE I/O error:', ierr
ENDIF
C Display program variables
DO i = 0, 511, 8
WRITE( 6, 9001 ) i, i+7, ( gain( j ), j = i, i+7 )
ENDDO
DO i = 0, 511, 8
WRITE( 6, 9002 ) i, i+7, ( offset( j ), j = i, i+7 )
ENDDO
DO i = 0, 7, 8
WRITE( 6, 9003 ) i, i+7, ( c(j), j = 1, 8 )
ENDDO
DO i = 0, 31, 8
WRITE( 6, 9004 ) i, i+7, ( w(j), j = i, i+7 )
ENDDO
DO i = 1, 2
WRITE( 6, 9005 ) i, dsssd_a(i), dsssd_b(i),
+ dsssd_c(i), dsssd_d(i),
+ dsssd_e(i), dsssd_f(i),
+ dsssd_g(i), dsssd_h(i)
ENDDO
WRITE ( 6, * ) ' *** Entry init ends'
RETURN
C----67---------------------------------------------------------------72------80
ENTRY sortin
items = items + 1
IF ( MOD( items, 10000000 ).EQ.0 ) THEN
t2 = SECNDS( t1 )
delta_t = t2 - t2_old
WRITE( 6, 9010 ) items, FLOAT( items - items_old ) / delta_t,
+ events, FLOAT( events - events_old ) / delta_t,
+ pulser, FLOAT( pulser - pulser_old ) / delta_t
items_old = items
events_old = events
pulser_old = pulser
t2_old = t2
... 1382 more lines ...
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672
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Wed Dec 4 09:57:24 2024 |
TD | HISPEC DESPEC meeting presentation - November 2024 -0 Summary of AIDA performance 2024 |
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| Attachment 1: Summary_of_AIDA_2024_distro.pdf
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671
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Tue Nov 19 11:24:25 2024 |
TD | Anydesk restarted remotely |
Anydesk restarted remotely per https://elog.ph.ed.ac.uk/CARME/489 |
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670
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Tue Nov 5 15:19:35 2024 |
TD | S505 offline analysis R5_780 - R5_814 |
Offline analysis of data files S505/R5_780 - R5_814 (corresponding to MBS data files 73-74)
Can find an analysis of alpha background runs at RIBF, RIKEN for comparison at https://elog.ph.ed.ac.uk/AIDA/816
Beam off - background runs without sources
MBS 73 27.6.22 09:33-11:33 CEST https://elog.gsi.de/despec/S505/204
MBS 74 27.6.22 11:34-13:34 CEST https://elog.gsi.de/despec/S505/206
MBS 75 27.6.22 13:35-16:29 CEST https://elog.gsi.de/despec/S505/209
ADC offsets per https://elog.ph.ed.ac.uk/DESPEC/556
FEE64 configuration
FEE64 a b c d
DSSSD#1 3 4 1 2
DSSSD#2 7 8 5 6
p+n junction FE64s odd numbered
Data analysis assumes
- all LEC ADC data channels with valid ADC offset included (474 of 512 channels)
- no clustering
- no p+n junction side - n+n Ohmic side correlation time gates
- valid LEC events
0 < p+n junction side multiplicity < 8
and
0 < n+n Ohmic side multiplicity < 8
Attachments 1-2 - per DSSSD p+n versus n+n multiplicity
Attachment 3 - per DSSSD x versus y
Attachments 4-5 - per DSSSD p+n versus n+n energy (20keV/channel nominal)
all combinations of per DSSSD p+n junction and n+n Ohmic energies
with projection of data within window onto x and y axes
too many events for natural (U decay series) background
off leading diagonal correlations anomalous
transverse width of leading diagonal correlation wider than expected - ADC offsets OK?
Attachment 6 - per FEE64 WR timestamp (32.768us/channel)
FEE64 sync test using pulser data - looks OK
Attachments 7-14 - per FEE64 ADC spectra (5.6keV/channel nominal)
note common x/y scale - pulser peak height proxy for peak width
per FEE64 1.8.L pulser peak widths (ch FWHM)
1 11.43
2 16.58
3 12.52
4 17.54
5 9.10
6 12.22
7 17.03
8 16.09
3 of 4 p+n junction FEE64 good (<70keV), 1 of 4 n+n Ohmic FEE64 good - all others < 100keV
Pulser peak indicates noise/gain/offset stable throughout background runs
Attachments 15-22 - per FEE64 ADC spectra (5.6kleV/channel nominal)
observe broad peak-like structures (c. 2.8MeV) in first channel of most ASICs?
Attachment 23 per DSSSD p+n versus n+n energy (20keV/channel nominal)
valid LEC events
p+n junction side multiplicity = 1 n+n Ohmic side multiplicity = 1
Attachment 24 p+n FEE64 #0 energy versus each of n+n FEE64s (#1, #3, #5 and #7) energies (20keV/channel nominal)
valid LEC events
p+n junction side multiplicity = 1 n+n Ohmic side multiplicity = 1
Attachments 23 & 24 do not unambiguously identify which FEE64s are attached to which DSSSD
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