Difference between revisions of "Logbook CameraCommissioning ORM Oct18"
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− | ! style="width: 100%;" | Date !! style="width: 5%;" | Actor/Author !! style="width: 10%;" | Action summary !! style="width: | + | ! style="width: 100%;" | Date !! style="width: 5%;" | Actor/Author !! style="width: 10%;" | Action summary !! style="width: 15%;" | Comments !! style="width: 30%;" | Documents |
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− | | 2018-12-18 || Oscar, Lea, Shunsuke || style="background: # | + | | 2019-01-29 || Taka, Mitsunari || style="background: #CCFFCC;" | Moving to ELOG |
− | || | + | || |
− | We continue the planned rate scans | + | |
− | + | We have moved the logbook to ELOG system in 10.200.100.102:9090. | |
− | * L1 rate scan, step 2, Pulse Injection (PI) 20 (~5Phe), HV OFF: | + | |
− | ** Only local L0, adders A, B and C | + | || |
− | *** No crazy things, all seems reasonable, Adder A finishes at DT ~120 | + | |
− | *** Details to be checked | + | |- valign="top" |
− | *** File names: L1_NoHV_PI5Phe_ModeLocal_AdderX_step2_N.txt, X={A,B,C} for the adder, N={1,2,3, ...} for repetition | + | |
− | *** Third repetition for A and first for B and C are full range, others until it stops | + | | 2019-01-28 || Taka, Mitsunari || style="background: #FFCCCC;" | Checking down of Osaka ports |
− | *** Adder B and C have no signal | + | || |
− | ** Trigger Mode 3, adders A, B and C | + | |
− | *** No crazy things, all seems reasonable, Adder A and B finishes at DT ~220 and ~230 respectively | + | We iterated turning off and turning on the Data switches inside the camera. Then we checked whether the ports on Osaka are alive or dead with arp-scan 20 times. |
− | *** Details to be checked | + | At the first first trial, we found p1p1, p1p2 and p3p1 were dead. P3p1 corresponds to Data5 fibre, which we reconnected this morning. We swapped the pair (up and down) of the patch cord between the patch panel and the Maxa switch inside the drive container. Then connection in p3p1 worked. Including the first test for p1p1 and p1p2, each port died p1p1: 5 times, p1p2: 2 times, p2p1: 1 times, p2p2: 1 times, p3p1: 0 times, and p3p2: 0 times. |
− | *** File names: L1_NoHV_PI5Phe_Mode3_AdderX_step2_N.txt, X={A,B,C} for the adder, N={1,2,3, ...} for repetition | + | |
− | *** First repetition is always full range, others until it stops | + | || |
− | *** Adder C no signal as expected, hence only one rate scan done | + | |
− | + | |- valign="top" | |
− | * L1 rate scan, step 2, Shutter Close, HV Nominal: | + | |
− | ** Only local L0, adders A, B and C | + | | 2019-01-28 || Taka, Armand, Riccardo, Mitsunari || style="background: #FFFFCC;" | Measuring the optical fibre |
− | *** No crazy things, all seems reasonable | + | || |
− | *** Details to be checked | + | |
− | *** File names: L1_shutterclose_step2_modelocal_AdderX_N.txt, X={A,B,C} for the adder, N={1,2,3, ...} for repetition | + | We checked the optical throughput of the DATA5 fibre and UCTS fibre. The DATA5 fibre was fine, but the throughput of both of two fibres of the UCTS cable was too low. |
− | *** First repetitions are full range, others until rates are 0 | + | We connected the DATA5 cable to the connector for DATA5 on the camera and the DATA5 spare cable to the connector for the DATA5 spare. |
− | *** Adder | + | |
− | ** Trigger Mode 3, adders A, B and C | + | || |
− | *** No crazy things, all seems reasonable | + | |
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-24 || Daniel M., Elena, Mitsunari || style="background: #CCFFCC;" | Implementing a changeable anode current limit and testing the anode current limiter | ||
+ | || | ||
+ | |||
+ | * Daniel M. implemented a function which changes the anode current limit to a lower value, which was suggested by Riccardo R., in ClusCo. The limit cannot be changed to a higher value. | ||
+ | * We supplied 1000 V for all module and set the limit 0.010 mA. Then the maximum anode current decreased from 0.012 mA to 0.010 mA. The anode current limiter was confirmed to be working. | ||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-24 || Mitsunari || style="background: #FFCCCC;" | Reproducing dead pixel | ||
+ | || | ||
+ | |||
+ | * I supplied HV 400V for all pixels. | ||
+ | * I opened the camera shutter. The mean anode current was 0.12 uA. | ||
+ | * I increased the HV to 1000 V by 100 V steps and supplied also the nominal HV. The mean anode current was 8.31 uA with the nominal HV. The HV was successfully supplied for all pixels by a precision of about 20 V (one-side full width), except for the off module. The anode current of Pixel 2 of Module 135 did not increase. | ||
+ | * I supplied 1000 V only for Pixel 2 of Module 135. The read HV value was OK. The max anode current was 0.24 uA, and that of the pixel was lower than or equal to this value. This pixel appeared to be out of order. | ||
+ | |||
+ | || | ||
+ | |||
+ | * Log files in TCS01:/var/log/clusco/reports | ||
+ | ** monitor-190124-195808.txt | ||
+ | ** monitor-190124-201256.txt | ||
+ | ** monitor-190124-202103.txt | ||
+ | ** monitor-190124-203336.txt | ||
+ | |||
+ | * Screen shots of the camera monitor | ||
+ | [[File:NominalHV-AllModules 2019-01-24 at 20.21.08.png|thumb|200px|Nominal HV for all modules]] | ||
+ | [[File:1000V-Module135-AllPixels 2019-01-24 at 20.26.54.png|thumb||200px|1000 V only for Module 135]] | ||
+ | [[File:1000V-Module135-Pixel2 2019-01-24 at 20.29.17.png|thumb||200px|1000V only for Pixel 2 of Module 135]] | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-24 || Elena, Mitsunari || style="background: #FFFFCC;" | Opening/closing shutter | ||
+ | || | ||
+ | |||
+ | * We confirmed the camera shutter can be opened/closed via the OPCUA client. | ||
+ | * Opening the shutter via CaCo v1.0 failed. | ||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-23 || Mitsunari, Oscar, Shunsuke || style="background: #CCFFCC;" | Check on HV supply | ||
+ | || | ||
+ | |||
+ | Checks on HV supply with the shutter closed. HV was correctly supplied for all pixel except for one off module. | ||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-23 || Elena || style="background: #FFFFCC;" | Ratescans L0 | ||
+ | || | ||
+ | |||
+ | Checks on the modules that showed wrong L0 output. From a first look it doesn't seem to affect L1 sum. | ||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-23 || Shunsuke, Mitsunari || style="background: #CCFFCC;" | ClusCo mornitoring | ||
+ | || | ||
+ | |||
+ | We confirmed Shunsuke's script for monitoring a ClusCo report worked for the latest ClusCo. | ||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-23 || Elena || style="background: #CCFFCC;" | Start-up | ||
+ | || | ||
+ | |||
+ | All modules up. | ||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | |||
+ | |||
+ | | 2019-01-22 || Elena || style="background: #FFFFCC;" | L0 ratescans | ||
+ | || | ||
+ | |||
+ | * We started with a rate scan at L0 without pulse, init0 and starting up temperature ~16. Module 45 does not show the correct behaviour. | ||
+ | * We power cycled the camera a couple of times as at first we got that the module 10.1.5.13 did not come back. After a L0 ratescan all modules and trigger mezzanines were fine. | ||
+ | * We inject a 300Hz pulse and took a couple of rate scans at L0 with gain 40 and 32. The scans are mostly fine, but some pixels of some modules show less signal than expected. | ||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | |||
+ | |||
+ | | 2019-01-22 || Elena || style="background: #FFFFCC;" | Start-up | ||
+ | || | ||
+ | |||
+ | At the first start-up the module 10.1.6.28 did not come up. Power cycled ad all the modules powered up. Taking a L0 rate scan to check the behaviour of the trigger. | ||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | |||
+ | | 2019-01-21 || Elena, Riccardo || style="background: #FFFFCC;" | L0 ratescans | ||
+ | || | ||
+ | |||
+ | * We started with a rate scan at L0 without pulse, init0 and starting up temperature ~13. Modules 25, 64, 80, 108, 123, 144, 155, 166, 174, 180, 196, 206, 210, 225, 232, 250 do not show the correct behaviour. | ||
+ | * We moved to the icrr_dev ClusCo version (in the validation folder). We did a L0 scan without pulse (and init8 reloaded) to confirm the results seen before. | ||
+ | * We cheched the registers 23 and 31 of the L0 ASIC. All the modules had them set to the same values: 23: x970000 and 31: x9f0000. | ||
+ | * We finally took a L0 rate scan with the pulse injected to all the modules. Modules 25, 34, 64, 80, 108, 110, 123, 144, 155, 166, 174, 180, 196, 206, 210, 225, 232, 250 did not show a good behaviour (2 more than the previous rate scan). | ||
+ | |||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | |||
+ | | 2019-01-21 || Elena, Riccardo || style="background: #FFFFCC;" | Start-up | ||
+ | || | ||
+ | |||
+ | At the first start-up the module 10.1.6.28 did not come up. Power cycled, but the module 10.1.5.16 did not came up. At the third start-up all the modules powered up. | ||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | |||
+ | | 2019-01-18 || Oscar, Elena || style="background: #CCFFCC;" | Chiller | ||
+ | || | ||
+ | |||
+ | Carlos Diaz called us to check and alarm of the chiller. We found in the display a blinking orange message saying: "b 1AC". Carlos indicated (and sent us) a "Chiller Setting Procedure" that we followed to reset the chiller. | ||
+ | Once reset we restarted the camera and waited for a while for the temperature to rise and the Chiller to reach the point of operation. All worked well. | ||
+ | ***The Chiller setting Procedure is now hanging on the wall behind the computers but we should collect all these kinds of documents in a useful folder. | ||
+ | |||
+ | Checking the historical monitoring we saw that the humidity has risen during the bad weather days. We told Carlos Diaz who replied he is looking into it and he thinks it is that the chiller was not working. | ||
+ | |||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-18 || Oscar, Elena || style="background: #FFFFCC;" | ECC | ||
+ | || | ||
+ | |||
+ | * We are forcing ECC to go in error while in Safe by changing minimum Temperature for Safe. We leave the ECC in error for defined time and the we recover and try to go to ready | ||
+ | ** 10 seconds -> recover to safe ok -> go to ready ok | ||
+ | ** 1 minute -> recover to safe ok -> go to ready ok | ||
+ | ** 5 minute -> recover to safe ok -> go to ready ok | ||
+ | ** 20 minute -> recover to safe ok -> go to ready ok | ||
+ | ** 60 minutes -> recover to safe ok -> got to ready ok | ||
+ | |||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-18 || Oscar, Elena || style="background: #FFFFCC;" | L0 Trigger | ||
+ | || | ||
+ | |||
+ | * L0 Rate scan after starting the modules at 7 deg (L0_scan_Init8_PIOff_HVOff_7deg_b.dat) | ||
+ | ** Modules 42, 45, 180. 225 and 231 show problems | ||
+ | ** Main register and register 4 for L0 is the expected one for all modules/pixels (19988 and 8651958) | ||
+ | ** After reconfiguring L0 to sent majority to L1 (register 4 to 8650870), a L1 scan is done for module 45 with DT599, which gives 65KHz rate for one pixel | ||
+ | ** L1 scan show rate of 65KHz until DT~15 | ||
+ | * Power off/on and init at 10 deg (L0_scan_Init8_PIOff_HVOff_10deg.dat) | ||
+ | ** Module 166 and 210 show problems | ||
+ | ** After reconfiguring L0 to sent majority to L1: | ||
+ | *** L1 scan is done for module 45 with L0DT599, which gives 0 Hz for all pixels -> L1 scan goes to 0 Hz at L1DT~2 | ||
+ | *** L1 scan is done for module 45 with L0DT517, which gives 65 KHz for one pixel -> L1 scan goes to 0 Hz at L1DT~15 | ||
+ | *** L1 scan is done for module 210 with L0DT599, which gives 65 KHz for three pixel -> L1 scan goes to 0 Hz at L1DT~15 | ||
+ | * Power off/on and init at 13 deg (L0_scan_Init8_PIOff_HVOff_13deg.dat) | ||
+ | ** All modules fine at L0 level | ||
+ | ** L1 scan done for module 45 and 210 with L0DT=599, which provide L0 rate 0, for both rate goes to 0 at L1DT~2, for module 45 it is consistent with previous one | ||
+ | ** L1 scan done for module 210 with L0DT=520, which provide 65KHz for three pixels -> L1 scan goes to 0 Hz at L1DT~20 | ||
+ | |||
+ | This shows that the problem is already at the level of the discriminator, not the LVDS copy. Being discussed with L0 experts. | ||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-18 || Oscar, Elena || style="background: #CCFFCC;" | Start Up | ||
+ | || | ||
+ | |||
+ | Camera was in safe and modules power up at once. | ||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-17 || Oscar, Elena || style="background: #CCFFCC;" | UAExpert | ||
+ | || | ||
+ | |||
+ | Direction of UCTS has been changed from 10.1.4.12:48010 to 10.1.4.1:48010 in the project CACO_ECC_TOB_UCTS_2, the one recommend to be used. | ||
+ | This allow to connect to the OPC-UA for the UCTS running in TCS01 | ||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-17 || Oscar, Elena || style="background: #FFFFCC;" | ECC | ||
+ | || | ||
+ | |||
+ | * We are forcing ECC to go in error while in Safe by changing minimum Temperature for Safe. We leave the ECC in error for defined time: | ||
+ | ** 10 seconds -> recover to safe ok | ||
+ | ** 1 minute -> recover to safe ok | ||
+ | ** 5 minute -> recover to safe ok | ||
+ | ** 20 minute -> recover to safe ok | ||
+ | ** 60 minutes -> recover to safe ok. Then tried to go to Ready and: | ||
+ | *** ECC when to error indicating "IR RS485 Error". Fans were running. | ||
+ | *** We acknowledge the error and the error changed to "Switch, PDB, Cable Error". Fans stopped running. | ||
+ | ** Tomorrow we will check to force the error and go to ready for the shorter intervals of time. | ||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-17 || Oscar, Elena || style="background: #FFFFCC;" | L0 Trigger | ||
+ | || | ||
+ | |||
+ | * We took several L0 scans with no Pulse Injection, no HV: | ||
+ | ** L0_scan_Init6_PIOff_HVOff.dat and L0_scan_Init8_PIOff_HVOff.dat, only running init without powering off-> modules 42, 45, 157, 180 and 225 showed problems | ||
+ | ** L0_scan_Init8_PIOff_HVOff_b.dat: powering on/off (and init) -> module 231 showed problems. Reconfiguring, reseting L0, reseting L0 delays, ... did not solve it | ||
+ | ** L0_scan_Init8_PIOff_HVOff_{c,d,e,f,g}.dat: powering on/off (and init)-> all modules fine. Temperatures between 20 and 25 degrees. | ||
+ | * We stop and let the camera cool down and take one scan powering up at 7 degrees | ||
+ | ** Module 225 showed problems | ||
+ | |||
+ | || | ||
+ | |||
+ | [https://drive.google.com/file/d/1KEbIzwQhhGjncZtz7riYAQnFEG6x0e4V/view?usp=sharing RateScanFiles] | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-17 || Oscar, Elena || style="background: #CCFFCC;" | Start Up | ||
+ | || | ||
+ | |||
+ | When arriving all was fine and everything worked smoothly to get the camera in ready. No error happened. | ||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-16 || Oscar, Elena || style="background: #FFFFCC;" | ECC | ||
+ | || | ||
+ | |||
+ | * Individual Switch On Vertical Bus bar relays | ||
+ | ** Off one by one, ok | ||
+ | ** On one by one, ok | ||
+ | ** Move to Safe and back to ready, ok | ||
+ | ** Off/On one by one. ok | ||
+ | * PSB relays | ||
+ | ** TIB and UCTS, OK | ||
+ | ** General ShutDown (done twice with same result) | ||
+ | *** Only half camera on | ||
+ | *** PSB1 and PSB2 -> 24 V went off | ||
+ | *** But, ECC went in error saying: "PDB Com Error:TRUE PDB description error: IR RS485 Error", Error Number 0 | ||
+ | *** Acknowledge Error, ECC went to Safe for 1 second and then to error again with : "PDB Com Error:TRUE PDB description error: Switch, PDB, Cable Error", Error Number 0 | ||
+ | *** Not able to recover | ||
+ | * PDB relays | ||
+ | ** Ethernet switches, ok | ||
+ | ** Front Fans, ok | ||
+ | |||
+ | || | ||
+ | |||
+ | |||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-16 || Oscar, Patricia, Elena || style="background: #CCFFCC;" | Ethernet Cabling inside camera | ||
+ | || | ||
+ | |||
+ | * Switch 1: | ||
+ | ** Changed Ethernet Cables | ||
+ | *** BP1015 moved from port 3 to port 5 | ||
+ | *** BP1008 moved from port 5 to port 7 | ||
+ | *** BP1009 moved from port 7 to port 9 | ||
+ | *** BP1011 moved from port 9 to port 11 | ||
+ | *** BP1013 moved from port 11 to port 13 | ||
+ | ** Port 13 was free, now port 3 is free, so both normal and spare optical fibre can be used. | ||
+ | ** Port 2 is now connected to switch 3 instead of switch 2 | ||
+ | * Switch 2: | ||
+ | ** Changed Ethernet Cables | ||
+ | *** BP0716 moved from port 3 to port 4 | ||
+ | *** Ethernet cable to Switch 3 In port 2, removed | ||
+ | *** Ethernet cable to Switch 1 in port 4 removed | ||
+ | *** Additional cable to Control Switch (across the camera) connected in port 2 | ||
+ | ** Port 3 is free, so both normal and spare optical fibre can be used. | ||
+ | * Switch 3: | ||
+ | ** Changed Ethernet Cables: | ||
+ | *** BP0401 moved from port 3 to 6 | ||
+ | *** BP0408 moved from port 6 to 8 | ||
+ | *** BP0409 moved from port 8 to 10 | ||
+ | *** BP0411 moved from port 10 to 12 | ||
+ | *** BP0405 moved from port 12 to 14 | ||
+ | *** BP0407 moved from port 14 to 16 | ||
+ | *** BP0403 moved from port 16 to 18 | ||
+ | *** BP0309 moved from port 18 to 20 | ||
+ | *** BP0312 moved from port 20 to 22 | ||
+ | *** BP0305 moved from port 22 to 24 | ||
+ | *** BP0310 moved from port 24 to 26 | ||
+ | *** BP0306 moved from port 26 to 28 | ||
+ | *** BP0308 moved from port 28 to 30 | ||
+ | *** BP0107 moved from port 30 to 32 | ||
+ | *** BP0108 moved from port 32 to 34 | ||
+ | *** BP0203 moved from port 34 to 36 | ||
+ | *** BP0102 moved from port 36 to 38 | ||
+ | *** BP0103 moved from port 38 to 40 | ||
+ | *** BP0205 moved from port 40 to 42 | ||
+ | *** BP0105 moved from port 42 to 44 | ||
+ | *** BP0106 moved from port 44 to 46 | ||
+ | *** BP0202 moved from port 46 to 48 | ||
+ | ** Port 48 was free, now port 3 is free, so both normal and spare optical fibre can be used. | ||
+ | ** Port 4 is now connected to switch 1 instead of switch 2 | ||
+ | |||
+ | | | ||
+ | |||
+ | [[Media:NewCablingInsideCamera.jpg]] | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-01-16 || Oscar, Elena || style="background: #FFFFCC;" | ECC | ||
+ | || | ||
+ | |||
+ | * ECC when arriving in the morning was in error: | ||
+ | ** Error Description: "Control Regulation Chain", minimum temperature for safe was set to 5, at the moment we arrived temperatures were between 6 and 10 in the web monitoring | ||
+ | ** Looking at the history in UA-Expert, there is the sensor 8, that is and has been below 5, all the other are and were not | ||
+ | ** Acknowledge error -> ECC stays on error and Error Number oscillates between 0 and 2 | ||
+ | ** Minimum Temperature set to 0 degrees and Acknowledge error, ECC went to safe. It was due to sensor temperature 8 that it seems not to be displayed in the web monitoring. | ||
+ | * Few seconds after recovering ECC to safe, ECC went again to error | ||
+ | ** Error Description: ""PDB Com Error:TRUE PDB description error: IR RS485 Error", Error Number 0 | ||
+ | ** Set Acknowledge -> ECC to Safe for 1 second and back to Error, and fans went off. | ||
+ | ** Not able to recover it | ||
+ | * Hard reboot | ||
+ | ** ECC at recovering when back to error with Error Description: "Control Regulation Chain" and Error Number oscillates between 0 and 2, Fans off | ||
+ | ** SetMinimum temperature to 0 and acknowledge error brings ECC to safe with Fans turning | ||
+ | ** ECC to ready, ok | ||
+ | |||
+ | |||
+ | |||
+ | || | ||
+ | |||
+ | |||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | |||
+ | |||
+ | | 2019-01-15 || Oscar, Elena || style="background: #FFFFCC;" | Test ECC version | ||
+ | || | ||
+ | |||
+ | * ECC V34 | ||
+ | ** Installed and started, running for 3 hours without problems | ||
+ | ** Checking functionalities: | ||
+ | *** Error recover, due to too high minimum temperature from safe: OK | ||
+ | **** ECC in safe | ||
+ | **** Minimum temp for Safe set above current temperature->ECC goes to error | ||
+ | **** Minimum temp for Safe set below current temperature -> ECC stays in error | ||
+ | **** Acknowledge error -> ECC goes to Safe | ||
+ | *** Error recover, due to too high minimum temperature from ready: | ||
+ | **** Minimum temp for Ready set above current temperature->ECC goes to error | ||
+ | **** Minimum temp for Ready set below current temperature -> ECC stays in error | ||
+ | **** Acknowledge error -> ECC stays in error while it should go to safe, ErrorResolution says COntrol Rrgulation Chain, ErrorNumber 1, ErrorDescription ...empty | ||
+ | **** Rearme 400V -> ECC stays in error | ||
+ | **** Acknowledge error -> ECC goes to safe | ||
+ | *** Repeat error recoverr, due to too high minimum temperature from ready two more times: Ok, recovering to safe and then ready without the need of rearming. | ||
+ | *** Turn off, relay by relay: | ||
+ | **** ok for 0,1,2,3 | ||
+ | **** When turning of relay 4, ECC went to error, saying: "PDB Com Error:TRUE PDB description error: IR RS485 Error" | ||
+ | **** Not able to recover from that error doing rearm 400 V. Fans were turning and they went off when rearming 400V. Neither using the setPDB_contactors method | ||
+ | |||
+ | || | ||
+ | |||
+ | |||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | |||
+ | |||
+ | | 2019-01-15 || Oscar, Elena, Patricia || style="background: #FFFFCC;" | Preparing Access to Camera | ||
+ | || | ||
+ | |||
+ | * Check how to access the rear part of the camera safely to re-cable the ethernet cables so that the spare fibres are functional at the same time that main ones. | ||
+ | * Switch on was easy to re-arrange and ti has already been done. | ||
+ | * Work will continue tomorrow | ||
+ | |||
+ | || | ||
+ | |||
+ | |||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | |||
+ | | 2019-1-9 || Pepa, Elena, Cristobal (remote) || style="background: #FFFFCC;" | validation of calibration software | ||
+ | || | ||
+ | We tested the IPRscan calibration, it seems to work but some more output is needed to fully validate it. We also understood the problem of no module and pixel monitoring while working with caco. | ||
+ | |||
+ | || | ||
+ | |||
+ | |||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | | 2019-1-10 || Pepa, Elena || style="background: #FFCCCC;;" | turning on camera | ||
+ | || | ||
+ | We turned on the camera 4 times because the module 10.1.6.28 did not come up for 3 times. | ||
+ | |||
+ | || | ||
+ | |||
+ | |||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | |||
+ | | 2019-1-9 || Pepa, Elena, Cristobal (remote) || style="background: #FFFFCC;" | validation of calibration software | ||
+ | || | ||
+ | We turned on the camera and the first time the module 27 (IP: 10.1.6.28) did not come up; the second time the module 10.1.5.13 did not come up; while the third time all turned on. | ||
+ | |||
+ | We tested the DTN calibration over all the camera and it works. Although to make it working we had to activate the InitModules(0,0) function. We know that this function is not activated (with a valid reason) in the master version, but we need it to test the calibration software. | ||
+ | |||
+ | The DTN calibration could not find the noise region for some pixels in the modules 102, 182, 188 and had some troubles with other pixels. We then run a ipr_scan from ClusCo for the pixels of the module 188 and found out that some pixels have 0 rate in all the DT range. | ||
+ | |||
+ | |||
+ | || | ||
+ | |||
+ | |||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | |||
+ | | 2018-12-19 || Oscar, Lea, Shunsuke || style="background: #FFFFCC;" | Rate Scans | ||
+ | || | ||
+ | |||
+ | |||
+ | (Files available through the Documents field) | ||
+ | |||
+ | We do several rate scans with pulse injection. We aim to cross-check results from 2018-12-18. To make sure of the configuration, register 100, 101 and 102 of L1 are read after each L1 adder configuration (RegistersCheckPulseInjection.txt and RegistersCheckHVNominal.txt) | ||
+ | |||
+ | * Rate Scans with Pulse Injection with gain 20 (PI14 was meant to mean gain 14, but finally we used 20) | ||
+ | ** They were launched through the dic file: L1Scan_InputsInAdders_20181219.uic | ||
+ | ** No Input in any adder | ||
+ | *** File Name: L1_PI14_step2_OnlyReset_AdderN_20181219_1.dat, N={A,B,C} | ||
+ | ** Local Input only in one adder | ||
+ | *** File Name: L1_PI14_step2_LocalInM_AdderN_20181219_1.dat, M={A,B,C}, N={A,B,C} | ||
+ | ** LocalMode | ||
+ | *** File Name: L1_PI14_step2_LocalMode_AdderN_20181219_1.dat, N={A,B,C} | ||
+ | ** Other Neighbours than local needed for Mod 3, individually added. | ||
+ | *** File Name: L1_PI14_step2_NXInY_AdderY_20181219_1.dat, (X,Y)={(A,2),(A,4)(B,4),(B,5)} | ||
+ | ** Registers were fine for all settings and signal is observed in all adders where it is expected. | ||
+ | |||
+ | * Rate Scans with nominal HV and shutter close | ||
+ | ** They were launched through the dic file: L1Scan_Mode3_ShutterClose_HVNominal_20181219.uic | ||
+ | ** Mode 3: | ||
+ | *** FIle Name: L1_HVNominalShutterClose_step2_Mode3_AdderX_20181219_1.dat, X=(A,B,C) | ||
+ | *** Adder C shows nothing as expected, since no input is linked to it. | ||
+ | |||
+ | Everything seems reasonable this time. Strange feature observed last night (never something fully crazy), may have been due to bad configuration. Sometimes it may have been due to human mistakes, but at least the fact that some rates were observed for adder C in mode 3 does not seem so, since it was executed launching the file L1Scan_ShutterClose_20181214.uic. | ||
+ | |||
+ | || | ||
+ | |||
+ | [https://drive.google.com/file/d/1_qZT7axv7zR-ZXDvcCw_F4-tXbN5XPp2/view?usp=sharing RateScanFiles] | ||
+ | [https://drive.google.com/file/d/15uN8f_NNUk8M0X_oto2DfvCrhKkkmNkK/view?usp=sharing RegistersPI] | ||
+ | [https://drive.google.com/file/d/1gQw8bAq2DlijaBHAk_CCkGlN1QtvkjV2/view?usp=sharing RegistersHV] | ||
+ | [https://drive.google.com/file/d/1rqjjAPJvFrjNqpqCy-vB9fzS94jQztJp/view?usp=sharing MacroPI] | ||
+ | [https://drive.google.com/file/d/1GF0Ouq8KdyM-qIHmizuFq6uBGUuasnrW/view?usp=sharing MacroHV] | ||
+ | [https://drive.google.com/file/d/1dtqe4rmI5NcVX-7AKq60G0XpAYh99fld/view?usp=sharing MacroHV20181218] | ||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | |||
+ | | 2018-12-19 || Oscar, Lea, Shunsuke and Taka (remote) || style="background: #FFFFCC;" | DataTaking for capacitor calibration | ||
+ | || | ||
+ | |||
+ | * Taking 1kHz Testpulse Data with ROI 40, DRS internal clock, using Externall trigger. | ||
+ | Trigger was created from module ID 265. | ||
+ | * I performed short run first (-20 second). This is (.../onsite/data/20181218/Run00001.0004 and Run00001.0005) | ||
+ | * The long run performed with EVB, files are in .../onsite/data/20181219/Run00001.0000 - Run00001.0020. | ||
+ | * According to Taka quick analysis, These was no pulse in ROI. So Another data taing was perforemd with Legacy DAQ just 30 event. | ||
+ | |||
+ | |||
+ | || | ||
+ | |- valign="top" | ||
+ | | 2018-12-19 || Oscar, Lea, Shunsuke || style="background: #FFFFCC;" | ECC version: v32 patch | ||
+ | || | ||
+ | |||
+ | ECC was in error due to PDB error communication when we arrive this morning | ||
+ | |||
+ | -> Decided to go back to the version V32patch | ||
+ | |||
+ | |||
+ | |- valign="top" | ||
+ | |||
+ | |||
+ | | 2018-12-19 || Oscar, Lea, Shunsuke, Cristobal (remote) and Elena (remote) || style="background: #FFFFCC;" | Filling MongoDB | ||
+ | || | ||
+ | |||
+ | * Test with one BP and one pixels variables successful | ||
+ | * ECC variable being filled to the MongoDB | ||
+ | |||
+ | || | ||
+ | |||
+ | |- valign="top" | ||
+ | | 2018-12-19 || Oscar, Lea, Shunsuke || style="background: #FFFFCC;" | Rate Scans | ||
+ | || | ||
+ | We continue the planned rate scans | ||
+ | |||
+ | * L1 rate scan, step 2, Pulse Injection (PI) 20 (~5Phe), HV OFF: | ||
+ | ** Only local L0, adders A, B and C | ||
+ | *** No crazy things, all seems reasonable, Adder A finishes at DT ~120 | ||
+ | *** Details to be checked | ||
+ | *** File names: L1_NoHV_PI5Phe_ModeLocal_AdderX_step2_N.txt, X={A,B,C} for the adder, N={1,2,3, ...} for repetition | ||
+ | *** Third repetition for A and first for B and C are full range, others until it stops | ||
+ | *** Adder B and C have no signal, rate scan done only once. But they should have if the local mode was correctly set. | ||
+ | ** Trigger Mode 3, adders A, B and C | ||
+ | *** No crazy things, all seems reasonable, Adder A and B finishes at DT ~220 and ~230 respectively | ||
+ | *** Details to be checked | ||
+ | *** File names: L1_NoHV_PI5Phe_Mode3_AdderX_step2_N.txt, X={A,B,C} for the adder, N={1,2,3, ...} for repetition | ||
+ | *** First repetition is always full range, others until it stops | ||
+ | *** Adder C no signal as expected, hence only one rate scan done | ||
+ | |||
+ | * L1 rate scan, step 2, Shutter Close, HV Nominal: | ||
+ | ** Only local L0, adders A, B and C | ||
+ | *** No crazy things, all seems reasonable | ||
+ | *** Details to be checked | ||
+ | *** File names: L1_shutterclose_step2_modelocal_AdderX_N.txt, X={A,B,C} for the adder, N={1,2,3, ...} for repetition | ||
+ | *** First repetitions are full range, others until rates are 0 | ||
+ | ** Trigger Mode 3, adders A, B and C | ||
+ | *** No crazy things, all seems reasonable | ||
+ | *** Details to be checked | ||
+ | *** File names: L1_shutteroclose_step2_mode3_AdderX_N.txt, X={A,B,C} for the adder, N={1,2,3, ...} for repetition | ||
+ | *** First repetition is always full range, others until it stops | ||
+ | *** Adder C no signal expected, hence only one rate scan done. Still, 1 Hz rate is observed from time to time for basically any DT value. | ||
+ | |||
+ | * L1 rate scan, step 2, Shutter Open, HV = 800 V (moon quite bright): | ||
+ | ** Only local L0, adders A, B and C | ||
+ | *** No crazy things, all seems reasonable | ||
+ | *** Details to be checked | ||
+ | *** File names: L1_shutterclose_step2_modelocal_AdderX_N.txt, X={A,B,C} for the adder, N={1,2,3, ...} for repetition | ||
+ | *** First repetitions are full range, others until rates are 0 | ||
+ | ** Trigger Mode 3, adders A, B and C | ||
+ | *** No crazy things, all seems reasonable | ||
*** Details to be checked | *** Details to be checked | ||
*** File names: L1_shutteroclose_step2_mode3_AdderX_N.txt, X={A,B,C} for the adder, N={1,2,3, ...} for repetition | *** File names: L1_shutteroclose_step2_mode3_AdderX_N.txt, X={A,B,C} for the adder, N={1,2,3, ...} for repetition | ||
*** First repetition is always full range, others until it stops | *** First repetition is always full range, others until it stops | ||
− | *** Adder C no signal expected | + | *** Adder C no signal expected. Still, 1 Hz rate is observed from time to time for basically any DT value. |
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
We will continue tomorrow. One thing we want to check is rate scan with HV with no input to any Adder, to see if the the 1 Hz is still there. | We will continue tomorrow. One thing we want to check is rate scan with HV with no input to any Adder, to see if the the 1 Hz is still there. | ||
|| | || | ||
+ | |||
+ | [https://drive.google.com/file/d/1c7n5ffrysFe9usXUVAHr-D1qf_DpXCV9/view?usp=sharing Files] | ||
+ | |||
|- valign="top" | |- valign="top" | ||
Line 61: | Line 591: | ||
|| | || | ||
− | * Calibration IP address and mask set according to | + | * Calibration IP address and mask set according to [https://docs.google.com/spreadsheets/d/16FzSagSH0YlhC03u8K3C20uvV3Rxcpo3e8fHASWkAQs/edit#gid=0 LST1NetworkOrganization] |
− | https://docs.google.com/spreadsheets/d/16FzSagSH0YlhC03u8K3C20uvV3Rxcpo3e8fHASWkAQs/edit#gid=0 | ||
** IP : 10.1.4.69 | ** IP : 10.1.4.69 | ||
** Mask: 255.255.255.128 | ** Mask: 255.255.255.128 | ||
Line 71: | Line 600: | ||
|- valign="top" | |- valign="top" | ||
− | | 2018-12-18 || Léa, Oscar, Sunsuke, || style="background: # | + | | 2018-12-18 || Léa, Oscar, Sunsuke, || style="background: #FFFFCC;" | Datataking |
|| | || | ||
In 20181218 | In 20181218 | ||
Line 129: | Line 658: | ||
- Bug fixed, running with the new version now | - Bug fixed, running with the new version now | ||
+ | || | ||
+ | |||
|- valign="top" | |- valign="top" | ||
| 2018-12-17 || Léa Jouvin, Oscar Blanch, Sunsuke Sakurai) || style="background: #FFFFCC;" | Rate Scans | | 2018-12-17 || Léa Jouvin, Oscar Blanch, Sunsuke Sakurai) || style="background: #FFFFCC;" | Rate Scans | ||
Line 153: | Line 684: | ||
| 2018-12-17 || Léa Jouvin, Oscar Blanch, Dirk (remote), Julien (remote) and Luis Angel (remote) || style="background: #FFFFCC;" | TIB - EVB data | | 2018-12-17 || Léa Jouvin, Oscar Blanch, Dirk (remote), Julien (remote) and Luis Angel (remote) || style="background: #FFFFCC;" | TIB - EVB data | ||
|| | || | ||
+ | ( You can find the [https://portal.cta-observatory.org/WG/lst/DAQ/SitePages/RunCatalog.aspx Catalogue] for the runs taken) | ||
* We set Analogue random trigger, Analogue Trigger (AT) = 1500 (we got rates between 300 Hz and 3000 Hz) | * We set Analogue random trigger, Analogue Trigger (AT) = 1500 (we got rates between 300 Hz and 3000 Hz) | ||
Line 980: | Line 1,512: | ||
|| | || | ||
Home directory of osaka (/home) went to be full today. | Home directory of osaka (/home) went to be full today. | ||
− | + | ||
− | + | Osaka ~ > df -h | |
− | + | Filesystem Size Used Avail Use% Mounted on | |
− | + | /dev/mapper/scientific-root 50G 22G 29G 43% / | |
− | + | devtmpfs 252G 0 252G 0% /dev | |
− | + | tmpfs 252G 0 252G 0% /dev/shm | |
− | + | tmpfs 252G 50M 252G 1% /run | |
− | + | tmpfs 252G 0 252G 0% /sys/fs/cgroup | |
− | + | /dev/sdb 15T 8.5T 5.3T 62% /mnt/cs1 | |
− | + | /dev/sda1 497M 272M 226M 55% /boot | |
− | + | /dev/mapper/scientific-home 504G 504G 20K 100% /home | |
− | + | tmpfs 51G 12K 51G 1% /run/user/42 | |
− | + | tmpfs 51G 4.0K 51G 1% /run/user/1000 | |
− | + | tmpfs 51G 0 51G 0% /run/user/1001 | |
− | + | tmpfs 51G 0 51G 0% /run/user/1002 | |
− | |||
Almost all of files(~80%) are the data taken by LegacyDAQ for the tests and in /home/dragon/IACMiniCamSetup/DragonDaqM | Almost all of files(~80%) are the data taken by LegacyDAQ for the tests and in /home/dragon/IACMiniCamSetup/DragonDaqM | ||
− | + | ||
Osaka DragonDaqM > du -sh . | Osaka DragonDaqM > du -sh . | ||
417G | 417G | ||
− | + | ||
So I moved the data taken by LegacyDAQ to /mnt/cs1/store/DragonDaqData temporary. (We could transfer those data on the Lustre sytem (/fefs/ on tcs) later.) | So I moved the data taken by LegacyDAQ to /mnt/cs1/store/DragonDaqData temporary. (We could transfer those data on the Lustre sytem (/fefs/ on tcs) later.) | ||
|| | || | ||
Line 1,022: | Line 1,553: | ||
Some network at osaka server sometimes stopped running. | Some network at osaka server sometimes stopped running. | ||
− | |||
p2p2: flags=4099<UP,BROADCAST,MULTICAST> mtu 1500 | p2p2: flags=4099<UP,BROADCAST,MULTICAST> mtu 1500 | ||
− | + | inet 10.1.6.192 netmask 255.255.255.128 broadcast 10.1.6.255 | |
− | + | inet6 fe80::a236:9fff:fef0:ccd6 prefixlen 64 scopeid 0x20<link> | |
− | + | ether a0:36:9f:f0:cc:d6 txqueuelen 1000 (Ethernet) | |
− | + | RX packets 68478703 bytes 95858361688 (89.2 GiB) | |
− | + | RX errors 1 dropped 9 overruns 0 frame 1 | |
− | + | TX packets 30112278 bytes 1622848602 (1.5 GiB) | |
− | + | TX errors 0 dropped 0 overruns 0 carrier 0 collisions 0 | |
− | |||
At that time, we should do for restart running; | At that time, we should do for restart running; | ||
Line 1,047: | Line 1,576: | ||
Taka explained why relay current was still 0 as below; | Taka explained why relay current was still 0 as below; | ||
− | + | ||
When ECC goes to Error state, relay modules are also in a strange state. You need to reset relay modules as well. | When ECC goes to Error state, relay modules are also in a strange state. You need to reset relay modules as well. | ||
− | + | However, even if you go to "safe" state in ECC, relays are still powered (not bus bars, but relay modules). That means, "safe" does not reset relays. | |
− | |||
Lea explained why ECC went to error as below; | Lea explained why ECC went to error as below; | ||
− | + | ||
Maybe what is possible also is that you lost the slow control connection during few seconds and then get it back without realising. Then If the modules are ON and that we lost the slow control connection, ECC goes to error and the relay current will remain at 0 as Taka explained. | Maybe what is possible also is that you lost the slow control connection during few seconds and then get it back without realising. Then If the modules are ON and that we lost the slow control connection, ECC goes to error and the relay current will remain at 0 as Taka explained. | ||
− | + | ||
We did hardware reset three times(15:00, 15:50, 16:45), but the situation was same. | We did hardware reset three times(15:00, 15:50, 16:45), but the situation was same. | ||
Line 1,062: | Line 1,590: | ||
− | |||
1228269 [PublishTask-com.prosysopc.ua.client.UaClient@166f6c4f] ERROR com.prosysopc.ua.client.UaClient - Exception in ServerStatusListener | 1228269 [PublishTask-com.prosysopc.ua.client.UaClient@166f6c4f] ERROR com.prosysopc.ua.client.UaClient - Exception in ServerStatusListener | ||
java.lang.ClassCastException: cat.ifae.cta.opcua.dataaccess.uaobjects.OPCUAVariable$DataInformation cannot be cast to java.lang.Integer | java.lang.ClassCastException: cat.ifae.cta.opcua.dataaccess.uaobjects.OPCUAVariable$DataInformation cannot be cast to java.lang.Integer | ||
− | + | at cat.ifae.cta.cameracontrol.server.base.clients.ecc.OPCUAECCControl$ECCVariableStatus.update(OPCUAECCControl.java:25) | |
− | + | at java.util.Observable.notifyObservers(Observable.java:159) | |
− | + | at cat.ifae.cta.opcua.dataaccess.basicobjects.BasicCallbackVariable$ObservableVariable.setValue(BasicCallbackVariable.java:36) | |
− | + | at cat.ifae.cta.opcua.dataaccess.uaobjects.OPCUAAssembly._newStateWarn(OPCUAAssembly.java:533) | |
− | + | at cat.ifae.cta.opcua.dataaccess.uaobjects.OPCUAAssembly.consumeMessage(OPCUAAssembly.java:526) | |
− | + | at cat.ifae.cta.opcua.dataaccess.uaobjects.OPCUAServerStatusListener.statusChanged(OPCUAServerStatusListener.java:59) | |
− | + | at cat.ifae.cta.opcua.dataaccess.uaobjects.OPCUAServerStatusListener.onStateChange(OPCUAServerStatusListener.java:33) | |
− | + | at com.prosysopc.ua.client.UaClient.a(Unknown Source) | |
− | + | at com.prosysopc.ua.client.UaClient.updateServerStatus(Unknown Source) | |
− | + | at com.prosysopc.ua.client.UaClient$a.run(Unknown Source) | |
− | + | at java.lang.Thread.run(Thread.java:745) | |
+ | |||
1228371 [PublishTask-com.prosysopc.ua.client.UaClient@166f6c4f] WARN com.prosysopc.ua.client.Subscription - Server sent a previously acknowledged sequence number 0 for Subscription 47786 | 1228371 [PublishTask-com.prosysopc.ua.client.UaClient@166f6c4f] WARN com.prosysopc.ua.client.Subscription - Server sent a previously acknowledged sequence number 0 for Subscription 47786 | ||
1228372 [PublishTask-com.prosysopc.ua.client.UaClient@166f6c4f] INFO org.opcfoundation.ua.transport.tcp.io.SecureChannelTcp - 47856 Closed | 1228372 [PublishTask-com.prosysopc.ua.client.UaClient@166f6c4f] INFO org.opcfoundation.ua.transport.tcp.io.SecureChannelTcp - 47856 Closed | ||
Line 1,081: | Line 1,609: | ||
1228373 [TcpConnection/Read] INFO org.opcfoundation.ua.transport.tcp.io.TcpConnection - /10.1.4.66:4841 Closed (expected) | 1228373 [TcpConnection/Read] INFO org.opcfoundation.ua.transport.tcp.io.TcpConnection - /10.1.4.66:4841 Closed (expected) | ||
− | |||
|| | || | ||
Line 1,089: | Line 1,616: | ||
DHCPd server for TIB stopped due to the shutdown of tcs01 yesterday, so we activated the server as below, | DHCPd server for TIB stopped due to the shutdown of tcs01 yesterday, so we activated the server as below, | ||
− | + | ifae@tcs01 ~]$ sudo service dhcpd status | |
Redirecting to /bin/systemctl status dhcpd.service | Redirecting to /bin/systemctl status dhcpd.service | ||
− | + | dhcpd.service - DHCPv4 Server Daemon | |
− | + | Loaded: loaded (/usr/lib/systemd/system/dhcpd.service; disabled; vendor preset: disabled) | |
− | + | Active: inactive (dead) | |
− | + | Docs: man:dhcpd(8) | |
− | + | man:dhcpd.conf(5) | |
[ifae@tcs01 ~]$ sudo service dhcpd start | [ifae@tcs01 ~]$ sudo service dhcpd start | ||
Redirecting to /bin/systemctl start dhcpd.service | Redirecting to /bin/systemctl start dhcpd.service | ||
[ifae@tcs01 ~]$ sudo service dhcpd status | [ifae@tcs01 ~]$ sudo service dhcpd status | ||
Redirecting to /bin/systemctl status dhcpd.service | Redirecting to /bin/systemctl status dhcpd.service | ||
− | + | dhcpd.service - DHCPv4 Server Daemon | |
− | + | Loaded: loaded (/usr/lib/systemd/system/dhcpd.service; disabled; vendor preset: disabled) | |
− | + | Active: active (running) since Wed 2018-11-21 09:14:08 WET; 2s ago | |
− | + | Docs: man:dhcpd(8) | |
− | + | man:dhcpd.conf(5) | |
− | + | Main PID: 453 (dhcpd) | |
− | + | Status: "Dispatching packets..." | |
− | + | CGroup: /system.slice/dhcpd.service | |
− | + | 453 /usr/sbin/dhcpd -f -cf /etc/dhcp/dhcpd.conf -user dhcpd -group dhcpd --no-pid | |
Nov 21 09:14:08 tcs01 dhcpd[453]: All rights reserved. | Nov 21 09:14:08 tcs01 dhcpd[453]: All rights reserved. | ||
Line 1,121: | Line 1,648: | ||
Nov 21 09:14:08 tcs01 systemd[1]: Started DHCPv4 Server Daemon. | Nov 21 09:14:08 tcs01 systemd[1]: Started DHCPv4 Server Daemon. | ||
Hint: Some lines were ellipsized, use -l to show in full. | Hint: Some lines were ellipsized, use -l to show in full. | ||
− | + | ||
|| | || | ||
Line 1,284: | Line 1,811: | ||
However, EVB didn't work. Later we learned from Dirk and Julien that we had to do | However, EVB didn't work. Later we learned from Dirk and Julien that we had to do | ||
− | + | sudo modprobe -r ixgbe; sudo modprobe ixgbe | |
|| | || | ||
Line 1,387: | Line 1,914: | ||
|- valign="top" | |- valign="top" | ||
| 2018-10-15 || [[User:DirkHoffmann|Dirk]] || style="background: #FFCCCC;" | UCTSd dead. | | 2018-10-15 || [[User:DirkHoffmann|Dirk]] || style="background: #FFCCCC;" | UCTSd dead. | ||
− | || | + | || |
− | + | uctsd.service - Execute the UCTS OPC-UA server | |
− | + | Loaded: loaded (/etc/systemd/system/uctsd.service; static; vendor preset: disabled) | |
− | + | Active: failed (Result: exit-code) since Di 2018-10-16 13:22:28 WEST; 2h 59min ago | |
− | + | Process: 152844 ExecStart=/home/dragon/ucm_temp/ucts_opcua_server.sh (code=exited, status=134) | |
+ | Main PID: 152844 (code=exited, status=134) | ||
Okt 16 13:22:28 osaka ucts_opcua_server.sh[152844]: (MOS) : Info : 2018-10-13.12:30:47 : Connected to Server : opc.tcp://osaka:48010 | Okt 16 13:22:28 osaka ucts_opcua_server.sh[152844]: (MOS) : Info : 2018-10-13.12:30:47 : Connected to Server : opc.tcp://osaka:48010 | ||
Line 1,402: | Line 1,930: | ||
Okt 16 13:22:28 osaka systemd[1]: uctsd.service: main process exited, code=exited, status=134/n/a | Okt 16 13:22:28 osaka systemd[1]: uctsd.service: main process exited, code=exited, status=134/n/a | ||
Okt 16 13:22:28 osaka systemd[1]: Unit uctsd.service entered failed state. | Okt 16 13:22:28 osaka systemd[1]: Unit uctsd.service entered failed state. | ||
− | Okt 16 13:22:28 osaka systemd[1]: uctsd.service failed. | + | Okt 16 13:22:28 osaka systemd[1]: uctsd.service failed. |
Restarted. | Restarted. | ||
Line 1,471: | Line 1,999: | ||
|- valign="top" | |- valign="top" | ||
| 2018-10-15 || [[User:Ljouvin|Léa]], [[User:DirkHoffmann|Dirk]], Julien, taka, Saiya, Mitsunari || style="background: #FFCCCC;" | Slow control and uaexpert deconnection || | | 2018-10-15 || [[User:Ljouvin|Léa]], [[User:DirkHoffmann|Dirk]], Julien, taka, Saiya, Mitsunari || style="background: #FFCCCC;" | Slow control and uaexpert deconnection || | ||
− | + | - Slow control connection lost in ready mode so then no more current in the pulse bar. GotOsafe GOtOready still no curent with the negative value in the pulse bar. We had to switch off and on the 233 and 400 V | |
- We lost uaexpert that was completely stuck so to have the monitoring back again the DataLogger are now written in /home/cacooperator/CoolingSystem/20181015_005 and 20181015_006 | - We lost uaexpert that was completely stuck so to have the monitoring back again the DataLogger are now written in /home/cacooperator/CoolingSystem/20181015_005 and 20181015_006 | ||
Line 1,558: | Line 2,086: | ||
| 2018-10-14 || [[User:DirkHoffmann|Dirk]] || style="background: #CCCCFF;" | Direct measurement of TX lasers || | | 2018-10-14 || [[User:DirkHoffmann|Dirk]] || style="background: #CCCCFF;" | Direct measurement of TX lasers || | ||
INFO: Direct measurements can be done without danger for Photom-211 | INFO: Direct measurements can be done without danger for Photom-211 | ||
− | + | 測定範囲 -70 ~ +5dBm | |
according to [http://www.graytechnos.com/20prod_opt/10pwmtr/ datasheet]. That is 3.16 mW to 0.1 µW. | according to [http://www.graytechnos.com/20prod_opt/10pwmtr/ datasheet]. That is 3.16 mW to 0.1 µW. | ||
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Latest revision as of 15:08, 29 January 2019
Enter comments in reverse time order[edit]
Glossary at the end!
Date | Actor/Author | Action summary | Comments | Documents | |
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2019-01-29 | Taka, Mitsunari | Moving to ELOG |
We have moved the logbook to ELOG system in 10.200.100.102:9090. |
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2019-01-28 | Taka, Mitsunari | Checking down of Osaka ports |
We iterated turning off and turning on the Data switches inside the camera. Then we checked whether the ports on Osaka are alive or dead with arp-scan 20 times. At the first first trial, we found p1p1, p1p2 and p3p1 were dead. P3p1 corresponds to Data5 fibre, which we reconnected this morning. We swapped the pair (up and down) of the patch cord between the patch panel and the Maxa switch inside the drive container. Then connection in p3p1 worked. Including the first test for p1p1 and p1p2, each port died p1p1: 5 times, p1p2: 2 times, p2p1: 1 times, p2p2: 1 times, p3p1: 0 times, and p3p2: 0 times. |
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2019-01-28 | Taka, Armand, Riccardo, Mitsunari | Measuring the optical fibre |
We checked the optical throughput of the DATA5 fibre and UCTS fibre. The DATA5 fibre was fine, but the throughput of both of two fibres of the UCTS cable was too low. We connected the DATA5 cable to the connector for DATA5 on the camera and the DATA5 spare cable to the connector for the DATA5 spare. |
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2019-01-24 | Daniel M., Elena, Mitsunari | Implementing a changeable anode current limit and testing the anode current limiter |
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2019-01-24 | Mitsunari | Reproducing dead pixel |
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2019-01-24 | Elena, Mitsunari | Opening/closing shutter |
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2019-01-23 | Mitsunari, Oscar, Shunsuke | Check on HV supply |
Checks on HV supply with the shutter closed. HV was correctly supplied for all pixel except for one off module. |
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2019-01-23 | Elena | Ratescans L0 |
Checks on the modules that showed wrong L0 output. From a first look it doesn't seem to affect L1 sum. |
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2019-01-23 | Shunsuke, Mitsunari | ClusCo mornitoring |
We confirmed Shunsuke's script for monitoring a ClusCo report worked for the latest ClusCo. |
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2019-01-23 | Elena | Start-up |
All modules up. |
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2019-01-22 | Elena | L0 ratescans |
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2019-01-22 | Elena | Start-up |
At the first start-up the module 10.1.6.28 did not come up. Power cycled ad all the modules powered up. Taking a L0 rate scan to check the behaviour of the trigger. |
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2019-01-21 | Elena, Riccardo | L0 ratescans |
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2019-01-21 | Elena, Riccardo | Start-up |
At the first start-up the module 10.1.6.28 did not come up. Power cycled, but the module 10.1.5.16 did not came up. At the third start-up all the modules powered up. |
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2019-01-18 | Oscar, Elena | Chiller |
Carlos Diaz called us to check and alarm of the chiller. We found in the display a blinking orange message saying: "b 1AC". Carlos indicated (and sent us) a "Chiller Setting Procedure" that we followed to reset the chiller. Once reset we restarted the camera and waited for a while for the temperature to rise and the Chiller to reach the point of operation. All worked well.
Checking the historical monitoring we saw that the humidity has risen during the bad weather days. We told Carlos Diaz who replied he is looking into it and he thinks it is that the chiller was not working.
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2019-01-18 | Oscar, Elena | ECC |
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2019-01-18 | Oscar, Elena | L0 Trigger |
This shows that the problem is already at the level of the discriminator, not the LVDS copy. Being discussed with L0 experts. |
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2019-01-18 | Oscar, Elena | Start Up |
Camera was in safe and modules power up at once. |
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2019-01-17 | Oscar, Elena | UAExpert |
Direction of UCTS has been changed from 10.1.4.12:48010 to 10.1.4.1:48010 in the project CACO_ECC_TOB_UCTS_2, the one recommend to be used. This allow to connect to the OPC-UA for the UCTS running in TCS01 |
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2019-01-17 | Oscar, Elena | ECC |
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2019-01-17 | Oscar, Elena | L0 Trigger |
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2019-01-17 | Oscar, Elena | Start Up |
When arriving all was fine and everything worked smoothly to get the camera in ready. No error happened. |
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2019-01-16 | Oscar, Elena | ECC |
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2019-01-16 | Oscar, Patricia, Elena | Ethernet Cabling inside camera |
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2019-01-16 | Oscar, Elena | ECC |
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2019-01-15 | Oscar, Elena | Test ECC version |
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2019-01-15 | Oscar, Elena, Patricia | Preparing Access to Camera |
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2019-1-9 | Pepa, Elena, Cristobal (remote) | validation of calibration software |
We tested the IPRscan calibration, it seems to work but some more output is needed to fully validate it. We also understood the problem of no module and pixel monitoring while working with caco. |
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2019-1-10 | Pepa, Elena | turning on camera |
We turned on the camera 4 times because the module 10.1.6.28 did not come up for 3 times. |
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2019-1-9 | Pepa, Elena, Cristobal (remote) | validation of calibration software |
We turned on the camera and the first time the module 27 (IP: 10.1.6.28) did not come up; the second time the module 10.1.5.13 did not come up; while the third time all turned on. We tested the DTN calibration over all the camera and it works. Although to make it working we had to activate the InitModules(0,0) function. We know that this function is not activated (with a valid reason) in the master version, but we need it to test the calibration software. The DTN calibration could not find the noise region for some pixels in the modules 102, 182, 188 and had some troubles with other pixels. We then run a ipr_scan from ClusCo for the pixels of the module 188 and found out that some pixels have 0 rate in all the DT range.
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2018-12-19 | Oscar, Lea, Shunsuke | Rate Scans |
We do several rate scans with pulse injection. We aim to cross-check results from 2018-12-18. To make sure of the configuration, register 100, 101 and 102 of L1 are read after each L1 adder configuration (RegistersCheckPulseInjection.txt and RegistersCheckHVNominal.txt)
Everything seems reasonable this time. Strange feature observed last night (never something fully crazy), may have been due to bad configuration. Sometimes it may have been due to human mistakes, but at least the fact that some rates were observed for adder C in mode 3 does not seem so, since it was executed launching the file L1Scan_ShutterClose_20181214.uic. |
RateScanFiles RegistersPI RegistersHV MacroPI MacroHV MacroHV20181218 | |
2018-12-19 | Oscar, Lea, Shunsuke and Taka (remote) | DataTaking for capacitor calibration |
Trigger was created from module ID 265.
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2018-12-19 | Oscar, Lea, Shunsuke | ECC version: v32 patch |
ECC was in error due to PDB error communication when we arrive this morning -> Decided to go back to the version V32patch
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2018-12-19 | Oscar, Lea, Shunsuke, Cristobal (remote) and Elena (remote) | Filling MongoDB |
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2018-12-19 | Oscar, Lea, Shunsuke | Rate Scans |
We continue the planned rate scans
We will continue tomorrow. One thing we want to check is rate scan with HV with no input to any Adder, to see if the the 1 Hz is still there. |
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2018-12-18 | Oscar, Mau, Michele | Calibration Box On ground |
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2018-12-18 | Léa, Oscar, Sunsuke, | Datataking |
In 20181218
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2018-12-18 | Oscar, Shunsuke, Lea, Elena (remote) and Cristobal (remote) | Internal Camera Calibrations |
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2018-12-18 | Léa, Oscar, Sunsuke, | Disconnect 10.1.5.3 |
- IR 2 switch on from safe: 23.4, 23.5, 23.6 - On ready, all IR ON, current in IR 2: 25.1 - 25.2, both before and after unplugging the module. |
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2018-12-18 | Léa, Oscar, Sunsuke, Jean luc and Nadia from remote | ECC intelligence relay test |
- From safe, not possible to switch one the relay - GotoReady: IR, 2 3 6 not switch on - switch them OFF one by one: 0, 1, 4, 5, 7 went to OFF - switch them all ON: all the IRs ON - switch them all OFF (-1, false): All off - switch them all On (-1, true): All on - GO to safe then Ready: IR 1, 2, 4, 5 OFF. switch them all ON (-1, true) -> All ON - GO to safe then Ready: IR 1, 2, 6 OFF, switch them all ON (-1, true) -> All ON - Bug fixed, running with the new version now |
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2018-12-17 | Léa Jouvin, Oscar Blanch, Sunsuke Sakurai) | Rate Scans |
We go for the planned rate scans
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2018-12-17 | Léa Jouvin, Oscar Blanch, Dirk (remote), Julien (remote) and Luis Angel (remote) | TIB - EVB data |
( You can find the Catalogue for the runs taken)
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2018-12-17 | Léa Jouvin, Oscar Blanch | Rate Scans |
Since we are not able to reproduce the strange results observed on Friday, we decide to go for the list of rate scans prepared by Gustavo and Elena. If at any point we see strange behaviours we will check it. |
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2018-12-17 | Léa Jouvin, Oscar Blanch | Start up |
1) 2 modules OFF!: 10.1.5.16 and 10.1.5.3 2) 1 module OFF!: 10.1.5.3 3) 1 module OFF!: 10.1.5.3 |
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2018-12-17 | Léa Jouvin, Oscar Blanch | Camera Inspection |
Visual inspection once the drive test have finished. We checked that nothing had fall down. We also check some connectors and screws. Everything looks fine. |
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2018-12-14 | Léa, Seiya, Sunsuke | Data taking |
In 20181214: - Run00001.0000 to Run00001.0008 (Run00073): Camera 27 degree in zenith, HV: 1000 V, L1 DT applied to each module at 20% more than the NSB DT Run stoppping, start again - Run00001.0008 to Run00001.0013 (Run00074): Camera 27 degree in zenith, HV: 1000 V, L1 DT applied to each module at 20% more than the NSB DT Run stoppping, start again - Run00001.0014 to Run00001.0027 (Run00075): Camera 27 degree in zenith, HV: 1000 V, L1 DT applied to each module at 20% more than the NSB DT |
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2018-12-14 | Léa, Seiya, Sunsuke | Rate scan |
During the afternoon, shutter close - mode 1: withthout TP - mode 3: withthout TP -mode 1: TP, 300 Hz, 5 pe -> TP saturation issue for some modules presenting a rate of 300 HZ at high DT -mode 3: TP, 300 HZ, 5 pe -> module 44 strange as on the wednesday night but others fine |
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2018-12-14 | Léa, Seiya, Sunsuke | Start up |
1) Two modules off: 10.1.5.3 and 10.1.5.16 2) One module off: 10.1.5.3 |
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2018-12-14 | Léa, Seiya, Sunsuke | Test IR On/OFF one by one by ECC |
1) From safe, impossible to swith ON the relay 2) From ready ready: - (-1, false) means all IR at OFF: only IR 0,1,2,3,4 was OFF - (-1, True) means all ON : all ON but IR 1 that remains at 0 so we did (1, True) again and then IR 1 also ON. - Then we switch them all again with (-1,off): all off but IR 6. we did again (-1,off) and then all OFF. - Again (-1,True): all OFF but IR 6 so we did again (-1,True) and then ECC to error to to the PDB -> hard reset From ready: - OFF one by one: from 0 to 7, all ok - ON one by one: all ok until IR 7. We start switching ON from 0 to 7 and fro 7 ECC went to error again with the PDB -> hard reset - ECC still in Error and error say PDB communication error so ->hard reset again - ECC safe but then after one minute went to error - hard reset again - ECC safe ans seems stabilized
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2018-12-13 | Léa, Seiya, Sunsuke | Start up |
1) one module off: 10.1.5.3 2) one module off: 10.1.5.3 3) Two modules off: 10.1.5.3 and 10.1.6.28 4) Two modules off: 10.1.5.3 and 10.1.6.28 5) Two modules off: 10.1.5.3 |
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2018-12-13 | Léa, Seiya, Sunsuke | Datataking |
- Run0001.0000 - Run0001.0001 : TP in all modules, 300Hz, change module by module generated trigger. But TIB didn't send any trigger during the test, so we tried this test again - Run0001.0002 - Run0001.0009 : TP in all modules, 300Hz, change module by module generated trigger. - Run0001.0010: we wanted to to some random trigger test from TIB but we don't know why EVB didn't receive anything trigger whereas collected rate was 600 Hz From here, we copy again the config xml file in ~hoffman/20181212 - - Run0001.0010: one test EVB recorData=False to confirm that for pedestalfrequency higher than 6500 HZ, we have a collected rate that doesn't match the camera rate and busy rate - Run0001.0011 - Run0001.0044: AnalogPedestal Run In 20181212 - Run0001.0000 : TP in all modules, 1HZ, change module by module generated trigger - Run0001.0000: test new pixel id scheme -> Run confusion - Run0001.0001: Park position, shutter open, HV 1000 V, threshold for L1 DT was 10% of NSB level, - Run0001.0002, Run0001.0003, 00001.00004: Park position, shutter open, Nominal HV 1000 V,first we trigger on noise for the EVB to receive high rate (1000 HZ) and then we move threshold for L1 DT at 10% of NSB level so trigger rate was between 5 and 10 Hz
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2018-12-12 | Lé | UCTS:new MOS on tcs01 |
- stop the MOS on Osaka, is it now on tcs01 and we can well configure the UCTS |
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2018-12-12/2018-12-13 | Léa, Nadia, Julie, Jan Luc | ECC test |
Short summary of tests done at ORM this week on the ECC: -Remote loading is now understood and available. -Release “V32 patch” is available. This version is similar to the one used since September, however it: · Corrects the issues met with the intelligent relays in the transition alarm to safe. · Adds more understandable shutter datapoints · Heart beat with CaCo is temporary disabled to avoid disconnection with CaCo as seen last week. This version has been extensively tested on Thursday and was used during the previous night.
-A new ECC version called V34 has been finalized. In addition to the “V32 patch” features, · More data points are available to improve the camera monitoring & control (individual power control of IR, PSB (avoid), TIB, UCTS, data switches, …) · A configuration file is available. It allows to configure different parameters with recompiling the ECC (delays, CaCo heart beat …) · Better alarm identification & recovery is also available This version has been tested ~1h on the camera. More tests will be done the coming days to take enough insurance before using it in the night runs.
-The 3 exe versions (V32, V32 patch, V34) are available for the shifters. A script will be given to the shift leader to facilitate the exe loading. |
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2018-12-11 | Léa, Seiya, Sunsuke | start up |
1) one module off: 10.1.5.3 2) one module off: 10.1.5.3 3) Two modules off: 10.1.5.3 and 10.1.6.28 4) one module off: 10.1.5.3 |
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2018-12-11 | Léa, Seiya, Sunsuke | Operation with HV |
- Shutter close: 265 modules to 400 V and then nominal HV. Everything went smooth so then: - Shutter open: 1 module (central one): 400 V then 800 V then nominal HV. Everything smooth so we went for 265 - L1 and L0 scan. For Data taking we went from 60 to 40 in the DT by step of 5. From 40, some modules present to high rate for L1 |
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2018-12-11 | Léa, Seiya, Sunsuke (Daniel, Daniela from remote) | Monitoring fix |
Now we use only CLusCo on tcs01 and L0 and L1 internal and external are also monitored |
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2018-12-11 | Léa, Seiya, Sunsuke | Data Taking |
In 20181211: - All TP synchronised, 1 Hz, trigger sent module by module, 10 ns additional delay in TIB and 40 ns in the UP trigger propagation of the trigger for the central BP: from run0001 - run0002 should be delete it wad to test ZFW writting - At night with HV ON and shutter open: run 0004 |
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2018-12-11 | Léa, Seiya, Sunsuke | start up |
2) one module off: 10.1.5.3 3) Two modules off: 10.1.5.3 and 10.1.6.28 4) Two modules off: 10.1.5.3 and 10.1.6.28 5) Two modules off: 10.1.5.3 and 10.1.6.28 6) Two modules off: 10.1.5.3 and 10.1.6.28 7) one modules off: 10.1.5.3 8) one modules off: 10.1.5.3 9) Two modules off: 10.1.5.3 and 10.1.6.28 10) Two modules off: 10.1.5.3 and 10.1.6.28 |
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2018-12-10 | Shunsuke, Léa, Seiya | HV |
We perform tests as follows. - HV Supplying Test for Central Module with shutter closed. --We supplied 400 V, 500 V, 600 V, 700 V, 800 V, 900V, 1000 V and Nominal Voltage to central module (module:133). --In the test, HV are put off by script. It came from Shunsuke's mistake. But we confirmed his script works well. Any other problems were found. - HV Supplying for central 19 modules as before test. - HV Supplying for all modules as before test. - .L0 & L1 rate scan with all modules applied with nominal HV with shutter closed |
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2018-12-10 | Léa, Seiya, sunsuke | Data taking |
In 2018/12/10 -TP synchronised in all the modules, trigger sent by all the modules, 10 ns external delay add in the TIB: 0001.0000, 0001.0001 and 0001.0002. -TP synchronised in all the modules, trigger sent by all the modules, 10 ns external delay add in the TIB, 40 ns add in the trigger propagation from CBP to TIB: 0001.0004, 0001.0005 and 0001.0006. -TP synchronised in all the modules, trigger sent only by module 265, 10 ns external delay add in the TIB, 40 ns add in the trigger propagation from CBP to TIB: 0001.0007 to 0001.0009 -TP synchronised in all the modules, trigger sent only by module 100, 10 ns external delay add in the TIB, 40 ns add in the trigger propagation from CBP to TIB: 0001.0010 to 0001.0012 |
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2018-12-10 | Léa, Seiya, Sunsuke | start up |
1) one module off: 10.1.5.3 2) Two modules off: 10.1.5.3 and 10.1.6.28 3) Two modules off: 10.1.5.3 and 10.1.6.28 4) Two modules off: 10.1.5.3 and 10.1.6.28 5) one module off: 10.1.5.3 6) one module off: 10.1.5.3 7) one module off: 10.1.5.3 |
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2018-12-07 | Léa, Seiya, Shunsuke | Rate scan |
- L0 and L1 scan - With No TP, L0 from 300 to 650 step=5 and L1 from 0 to 200 step=2 - TP, 300 Hz, gain=40 (50 p.e.): L0 from 400 to 900 step=5 and L1 from 0 to 200 step=2 - TP, 300 Hz, gain=20 (5 p.e.): L0 from 400 to 700 step=5 and L1 from 0 to 200 step=2 |
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2018-12-07 | Léa, Seiya, Shunsuke | Datataking |
- TP synchronisation test with 1 us widown of legacy daq -> adding 10 ns delay for 10 MHz clock to all module seems to fix the problem - Random trigger. 1) Run for 2 minutes and several module remains busy, no more trigger rate comming ->restart |
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2018-12-06 | Léa, Seiya, Shunsuke | Osaka interface p1p2 |
Something strange happens. As often, p1p2 was done. but it was impossible to have it up again. We had to switch OFF the camera. |
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2018-12-07 | Léa, Seiya, Daniel and Daniela (from remote) | Test of slow control from Japan |
- Pb monitor/slow control seems solved - temperature monitoring of each pixel in the monitor function |
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2018-12-07 | Léa, Seiya, Daniel and Daniela (from remote) | start up |
1) Two modules off: 10.1.5.3 and 10.1.6.28 2) One module off: 10.1.5.3 3) One module off: 10.1.5.3 4) Two modules off: 10.1.5.3 and 10.1.6.40 5) One module off: 10.1.5.3 6) Two modules off: 10.1.5.3 and 10.1.6.40 7) One module off: 10.1.5.3 8) One module off: 10.1.5.3 9) One module off: 10.1.5.3 |
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2018-12-06 | Léa, Seiya, Shunsuke, Satoshi | Module remaining OFF during the whole day |
10.1.5.3 |
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2018-12-06 | Léa, Seiya, Shunsuke, Satoshi | ECC/CAco: Error and undefined |
- after one hour module ON, ECC went to error and Caco and undefined state. Then in implies hard reset for ECC to have current back in the bus bar - SwitchOn() from Caco, Caco fin in state 2 but ECC in error state... - ECC went to error and this time we saw Caco fine at state 3 whereas ECC in error and then Caco going to undefined as expected since ECC was OFF. This error state of the ECC appeared twice today in the middle of Data taking and after around 1 hours and half of camera switch on. |
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2018-12-06 | Léa, Seiya, Shunsuke, Satoshi | Data taking |
- With legacy DAQ to have the 1024 ns window to work on BP synchronisation - Try random trigger with writting with EVB during 7 minutes fine even if at one moment TIB rate went to 0 but it get back. ECC error so camera stop we couldn't test more - Try legacydaq run with random trigger without writtin but module 10.1.6.38 reach a connected but busy state and so no trigger was sent anymore.. Try again. Legacy daq data present same result of too busy rate, including higher than EVB - Try long run of data with EVB and randon trigger: we run for one hour run in 20181206 |
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2018-12-06 | Léa, Seiya, Shunsuke, Satoshi | start up |
1) One module off: 10.1.5.3 2) One module off: 10.1.5.3 3) One module off: 10.1.5.3 4) One module off: 10.1.5.3 5) One module off: 10.1.5.3: Today we will perform operation without this module Caco to undefined, ECC to error state -> hard reset 6) Two modules OFF: 10.1.5.3 and 10.1.6.28 7) One module off: 10.1.5.3 8) ECC went to error at the switchon() -> hard reset then One module off: 10.1.5.3 9) After one hour and half of Camera on, ECC went to error suddenly -> hard reset. Then Two modules OFF: 10.1.5.3 and 10.1.6.28 10) One module off: 10.1.5.3 11) Human mistake -> current went to high because dragon was reset before DAQ deconnection... -> switch off/On the camera 12) One module off: 10.1.5.3 |
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2018-12-04 | Léa, Seiya, Shunsuke, Satoshi | start up |
1) Multiple this morning but with current busbar to 0 2) startup in the afternoon with normal version of ECC: ALL modules ON, All pixels ON 3) One module OFF: 10.1.6.28 4) ALL modules ON, All pixels ON |
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2018-12-04 | Léa, Seiya, Shunsuke, Satoshi | Data taking |
- With legacy DAQ to have 1024 ns window to work on BP synchronisation - TP synchronised in all modules and all sending trigger. Some BP setting was updated since it was previously not done - TP synchronised in all modules and all sending trigger with default BP setting from the ring distribution - Random Trigger with EVB, all runs in 20181205 - Random trigger with writing: some TIB crashs where all the rate and digital pedestal frequency go to 0 at one moment. It really depends each trial but sometimes we can reach 6500 Hz. - Random trigger without writing: running for 13 minutes without any crash reach 6500 camera rate with 1700 HZ of busy rate. - last try random trigger with writting and no crash for more than 10 minutes so we are lost now... - 3 initialization of modules without monitoring and no problem of busy modules |
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2018-12-05 | Léa + Jean Luc and NAdia from remote | ECC version |
- install current version v32+small update (delay applied when coming back from error state) with an executable produced by their own. ECC to ready but current un the busbars to 0 ->hard reset but then fan off so second hard reset - Second try, still 0 in the bus bars -> hardreset and installation of the new ECC version v34 -> fan at 0 so new hard reset -> fan still at 0 - Went back to the old version v32 we are using since two months and fan ON but current in the busbars to 0 ->hardreset - Fan ON. Try to kill the ECC programm and start it again -> Fan OFF. This test indicates that there is a communication issue between ECC and PDB and when PDB lost ECC connection, goes to a safe mode - Try again kill ECC and start again - > Fan ON so PDB get back to ECC connection without hardreset. Then try again kill/start ECC -> fan ON few seconds and went to 0. Then try again kill/start ECC -> fans still at 0 -> hard reset - new version v32 that cut the communication with the PDB -> fan ON after the hard reset. Two attemps of kill/start ECC and Fan still ON so clearly this indicates than Fan OFF comes from a problem of communication between ECC and PDB. - Now coming back to the old version we are using since two months. Restart -> Fan OFF -> hard reset -> Fan OFF -> second hard reset > fan ON Two things learn: - Fan OFF seems to be due to no communication between PDB and and ECC. It is possible that PDB doens't connect to ECC after first hard reset and then go is safe mode. Maybe be due to a time connection problem of ECC now, to investigate since this problem appears only since one week... More over normally after a hard reset, this is the first connection from ECC to PDB so PDB should wait as time as it needs and not go in safe mode. - Executable of ECC created from remote seems to work from some instances like controlling the mode, controlling the fans etc... but for the current in the bus bars for example it always went to 0 |
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2018-12-04 | Léa, Seiya, Shunsuke, Satoshi | Data taking |
- Data taken with TP synchornised but trigger sent by only one module - Data taken with TP only in central. until 15000 Hz, no busy since we are below the maximal writting speed. Then at 15 Khz, we have: 265 modules * 1344 kOctet * 15 khz= 5.3 GB = 40 Gbits/s. what we expect with the four link at 10 Gbits/s. In /fefs/onsite/data/20181204 - Run0001.0000 to .00101: one TP in the central BP, triggering the whole camera - Run0001.00103, .00104, .00105: TP in every modules synchronised, only module 265 sent trigger, new BP delay: it seems now we can see the pulse in the central module but we don't see it in other, to investigate... - Run0001.0106 to .00107, .00108: old BP delay, TP in every modules synchronised, all modules sending trigger: no TP visible in the data, to investigate.... - Run0001.0109 to Run0001.0154: random trigger pedestal run. At the pedestal frequency of 3100 Hz, all pedestal frequency, collected rate, Camera rate and busy rate went to 0 at the same time. |
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2018-12-04 | Léa, Seiya, Shunsuke, Satoshi | Caco-ECC error/undefined state |
- First power up, ECC went to error state whereas Caco was fine - For one of the power up in which we stay 1h30 on ready mode ECC went to error and Caco to undefined (we don't know in which order). ECC to state 1 after disabling the _error_heart_bit but then no current in the busbar->hardreset Then impossible to get Caco back in a normal mode even after ECC to state 1-> kill and restart Cacolaucher... - After the second hard reset, fan was off so we add to do another hardreset... Then everything ok |
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2018-12-04 | Léa, Seiya, Shunsuke, Satoshi | TIB 255 issue fixed |
- We forgot to call the reset() method between each initialization of the modules. Now it works fine. |
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2018-12-04 | Léa, Seiya, Shunsuke, Satoshi | start up |
3)All modules ON and all pixel ON (data taking but then TIB state 255) 4)All modules ON and all pixel ON (data taking but then TIB state 255) 5)All modules ON and all pixel ON (Caco went to undefined and ECC to error state, we don't know in wich order): For this start up we stayed one hour and half on ready mode 7)All modules ON and all pixel ON |
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2018-12-04 | Léa, Seiya, Shunsuke, Satoshi | start up |
1) SiwthOn() from Caco, went to state 2 normal, but ECC to state 4 -> hard reset 2) Caco and ECC fine but one module OFF: 10.1.6.28 -> OFF/ON again 6) ECC went to error state and Caco to state undefined (We don't know in wich order...). Before hard reset, we try directly from ECC to go to state ready but current to 0 in the bus bars ->hard reset Then The fan speed were at 0 so hard reset again. Then it works fine |
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2018-12-03 | Dirk | CamerasToACTL v1.7 |
Installed on tcs03 and tcs04 from repository (https://cta.cppm.in2p3.fr/repo/x86_64/) and tested with/by Léa and Seiya. |
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2018-12-03 | Léa,Seiya | increase of the bus bars current |
Due to the BP reset wheread EVB was still connected to the modules, current increase to 40. It is now know than the current increase when DAQ is connected and no clock distributed... We still don't know why, in study!!! |
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2018-12-03 | Léa, Seiya | Data Taking |
- TP synchronised with legacy and EVB data - Too many files created compared to the number of ZFW instances |
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2018-12-03 | Léa,Seiya | TIB/UCTS |
- TIB went to state 255 even after reset. so we shut down and off the camera... - Again, TIB went to 255 5 secdondes after reaching state 5, all rate at 1444O. - TIB went to 255 from state 4 directly. The feeling in one day is that after 3 cycle of TIB going to 5 and then reset, it is going to 255 and we have to switch off the camera |
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2018-12-03 | Léa | Fix UCTS configuraiton |
- a virtual machine was using the IP 10.4.8.4 of the UCTS.... this is why it was not possible to configure it. - I change to the IP it should take in the future: 10.1.4.4 and now it works |
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2018-12-03 | Léa | Power up |
- 1): All modules ON -2) All module ON -3) All module ON -4) All module ON -5) All modules ON -6) module 10.1.6.40 off -7) All module ON -7) All module OFF (I think due to the previous increase of the current in the bus bars) -8) All moduls ON |
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2018-11-30 | Léa | TIB/UCTS |
- TIB remains in state 2 even when UCTS is configured |
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2018-11-29 | Léa | Data Taking |
- Procedure of TP synchronised in all the modules - EVB configuration file in /home/dragon/EVB/20181130 - First try, EVB conected but one module busy: 10.1.6.10 -> initialisation again of the modules - Second try, EVB connected, all modules no busy but TIB remains at state 2 even if UCTS configuration seems ok -> I switched OFF and ON the camera... - Third try, same than before. Try now to disconnect the cable from the WR switch to TCS07. same problem TIB remains at state 2 when UCTS is configured. |
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2018-11-29 | Léa | Power up |
- Fourth startup: ECC and Caco works well, All modules ON - Five startup: ECC and Caco works well, All modules ON - sixth startup: ECC and Caco works well, All modules ON |
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2018-11-30 | Léa | Power up |
- second start up: ECC and Caco works well but module 10.1.6.28 was OFF so I started again -Third startup: ECC and Caco works well, all module ON. But humane mistake (mine), ECC went to Error state and then no current in the pulse bar -> hard reset |
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2018-11-30 | Léa | Power up |
- From Caco, switchON() it went to his state 2, then good communication with the ECC. Then GetCameraStanby(), ECC was fine and went to state ready, all modules ON but Caco was in an undefined state so I did a sleep(), Caco recover his state ready (state=3) and ECC was still ready. I did a second call of the sleep() method to start from a clean environment and everything was fine Caco went to state safe and ECC also. |
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2018-11-29 | Léa | Power up |
- after the second hardreset, Fan ON and ECC went to ready from Cacoo day finished(-: - All modules ON, configuration for TP synchronisation in all the modules seems fine. EVB segfault in GOTOREADY s |
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2018-11-29 | Léa | Fan Off |
Following the hard reset since ECC went to error, again as yesterday morning the fan were down... It is a problem of heart_beat between the PDB and ECC - Second hard reset |
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2018-11-29 | Léa | Power up |
1) Power up from Caco, powerON and GetCameraStandby(), ECC to Ready and all modules ON. Monitoring issue so go back to safe the time it is fixed 2) From Caco, SwithON, then ECC goes to errorstate 4 with _error_heart_bit to 4 without any clear reason. Caco was ok on state 2 3) Fixe the _error_heart_bit issue of ECC and try again to swtich on from Caco. Same issue, Caco state fine but ECC went to error state 4 due to _error_heart_beat at true. 4) Fixed _error_heart_beat and try directly to switch on from ECC. Works fine, ECC went to Ready but no current in the pulse bar, only the 4 one had current. I did a hardreset |
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2018-11-29 | Léa | WR switch |
RJ45 port installed on port 9 of the WR switch for the connection to tcs07 |
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2018-11-28 | Daniel K., Léa | test of cluscolauncher |
We tried the connection between Caco and Clusco: all fine. The current monitoring was not active because not the same files were updated. Will be fixed soon and then tested again. |
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2018-11-28 | Daniel K., Léa | fans stopped |
This morning around 8:45am the fans stopped running before we arrived on site. When we arrived we noticed the ECC was still in safe state (we expected error satte but it was not the case). We checked the rest of the ECC variables and everything looked fine. Using a multimeter we checked the 400 was properly arriving to the PDB inside the camera. We contacted the ECC experts that asked for screenshots of the ECC datapoints regarding the PDB for later evaluation of the problem. Then we hard reset the ECC and fans started just fine. |
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2018-11-27 | Daniel K., Cristobal (remote) | fix of a compilation problem for ClusCo |
Small fix for compilation, tested and merged to the master branch. Compilation on site works again. |
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2018-11-27 | Daniel K. | test of new ECC version |
Following and more extensive tests of the control of the individual intelligent relays with the new version of the ECC. No improvment. Detailed description of the tests performed will be emailed to the experts. As a consequence the old ECC version was reinstalled for now. |
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2018-11-27 | Daniel K., Otger (remote) | installation of new version of libcluster |
Following successful test of last week the fixes of libcluster were merged in the master branch and install on site. |
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2018-11-26 | Daniel K. | test of new ECC version |
After some small fixes of data point "Error description" and for control of the fans, the new version of the ECC version was tested. The control of the individual intelligent relays (main update with this version) was unstable. As a consequence the old ECC version was reinstalled for now. |
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2018-11-23 | Daniel K., Yuki, Seiya | too high temprature |
The status of ECC monitoring went to "red" from "green" around 16:30pm. The change of temperature we are monitoring was quite different from as usual. It may be related with the water pressure of chiller. It is above 1 and stable as usual, but it was too low at the morning and rising during the day. |
Media:bptemp.JPG Media:Tempbad.JPG Media:ECCTemp.png Media:CameraPressure14-16.png | |
2018-11-23 | Daniel K., Yuki, Seiya | some network interface of osaka sometimes not running |
some network interface of the osaka server doesn't start running at first every day... We activated p1p2 manually.
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2018-11-23 | Daniel K., Yuki, Seiya | bad behaviour of mezzanine |
After configuration of modules(init7 & pulse_injection_all), bad behavior of mezzanine was shown at three modules.
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2018-11-23 | Daniel K., Yuki, Seiya | take data for TP synchronization |
We took data with ClusCo monitoring for the test pulse synchronization. 1) 300Hz, ROI=1024, trigger was generated by mod265, 3000events
2) 300Hz, ROI=40, trigger was generated by all modules, 3000events
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2018-11-23 | Daniel K., Yuki, Seiya | validation test of ClusCo |
- the strange value of humidity - SiTCP reset
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2018-11-23 | Daniel K., Yuki, Seiya | new version of ECC |
We implemented the new version of ECC. After reboot of ECC the fan didn't start working.
As a result we decided to replace it with the current version of ECC. After reboot of ECC, all function worked well. |
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2018-11-23 | Daniel K., Yuki, Seiya | monitoring plots were not updated |
ECC monitoring plots were not updated after 9:30am. We can get various values(temperature etc.) in OPCUA client, only monitoring plots were not updated. After reboot of ECC for the update of ECC version monitoring plots started to be updated again. |
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2018-11-22 | Yuki, Seiya | take data for TP synchronization study |
I discussed with Taka, then I tried to take data as below;
We took data with the following conditions and managed to synchronize test pulse at all modules finally. 0)
1) 22Hz, ROI=1024, trigger was generated by mod265, 1000events
2) 300Hz, ROI=1024, trigger was generated by mod1, 3000events
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2018-11-21 | Seiya | home directory of osaka server was full |
Home directory of osaka (/home) went to be full today. Osaka ~ > df -h Filesystem Size Used Avail Use% Mounted on /dev/mapper/scientific-root 50G 22G 29G 43% / devtmpfs 252G 0 252G 0% /dev tmpfs 252G 0 252G 0% /dev/shm tmpfs 252G 50M 252G 1% /run tmpfs 252G 0 252G 0% /sys/fs/cgroup /dev/sdb 15T 8.5T 5.3T 62% /mnt/cs1 /dev/sda1 497M 272M 226M 55% /boot /dev/mapper/scientific-home 504G 504G 20K 100% /home tmpfs 51G 12K 51G 1% /run/user/42 tmpfs 51G 4.0K 51G 1% /run/user/1000 tmpfs 51G 0 51G 0% /run/user/1001 tmpfs 51G 0 51G 0% /run/user/1002 Almost all of files(~80%) are the data taken by LegacyDAQ for the tests and in /home/dragon/IACMiniCamSetup/DragonDaqM Osaka DragonDaqM > du -sh . 417G So I moved the data taken by LegacyDAQ to /mnt/cs1/store/DragonDaqData temporary. (We could transfer those data on the Lustre sytem (/fefs/ on tcs) later.) |
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2018-11-21 | Daniel K., Seiya | take data with LegacyDAQ for EVB tests |
Julien wants to use raw data of full camera for EVB debug tests. We took data with LegacyDAQ by random trigger(300Hz), which is digital pedestal trigger TIB generated. These files are in /mnt/cs1/store/DragonDaqData/Data20181121. I wanted to take 30min data(300Hz*(60*30)=540,000 events), but the disk in osaka server went to be full during the test. The size of each file is ~219MB, which is equivalent to ~168,000 events and ~10min data. |
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2018-11-21 | Seiya | how to run again the network interface |
Some network at osaka server sometimes stopped running. p2p2: flags=4099<UP,BROADCAST,MULTICAST> mtu 1500 inet 10.1.6.192 netmask 255.255.255.128 broadcast 10.1.6.255 inet6 fe80::a236:9fff:fef0:ccd6 prefixlen 64 scopeid 0x20<link> ether a0:36:9f:f0:cc:d6 txqueuelen 1000 (Ethernet) RX packets 68478703 bytes 95858361688 (89.2 GiB) RX errors 1 dropped 9 overruns 0 frame 1 TX packets 30112278 bytes 1622848602 (1.5 GiB) TX errors 0 dropped 0 overruns 0 carrier 0 collisions 0 At that time, we should do for restart running;
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2018-11-21 | Otger, Daniel K., Seiya | ECC went to error state |
I used ClusCo@tcs01 for the monitoring, all the plots except "Amp. Temp" was updated indeed. After that, I did init7 from ClusCo@cacooperator and waited the update of "Amp. Temp" plot. At that time, ClusCo@tcs01 showed timeout, so I realized I cannot ping these modules and relay current went to 0 and ECC state went to error state(4). I powered up again and ECC status went to 2(ready) as usual, but relay current was 0. Taka explained why relay current was still 0 as below; When ECC goes to Error state, relay modules are also in a strange state. You need to reset relay modules as well. However, even if you go to "safe" state in ECC, relays are still powered (not bus bars, but relay modules). That means, "safe" does not reset relays. Lea explained why ECC went to error as below; Maybe what is possible also is that you lost the slow control connection during few seconds and then get it back without realising. Then If the modules are ON and that we lost the slow control connection, ECC goes to error and the relay current will remain at 0 as Taka explained.
1228371 [PublishTask-com.prosysopc.ua.client.UaClient@166f6c4f] WARN com.prosysopc.ua.client.Subscription - Server sent a previously acknowledged sequence number 0 for Subscription 47786 1228372 [PublishTask-com.prosysopc.ua.client.UaClient@166f6c4f] INFO org.opcfoundation.ua.transport.tcp.io.SecureChannelTcp - 47856 Closed 1228372 [PublishTask-com.prosysopc.ua.client.UaClient@166f6c4f] INFO org.opcfoundation.ua.transport.tcp.io.TcpConnection - /10.1.4.66:4841 Closed 1228373 [TcpConnection/Read] INFO org.opcfoundation.ua.transport.tcp.io.TcpConnection - /10.1.4.66:4841 Closed (expected) |
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2018-11-21 | Otger, Daniel K., Seiya | dhcpd server for TIB restart |
DHCPd server for TIB stopped due to the shutdown of tcs01 yesterday, so we activated the server as below, ifae@tcs01 ~]$ sudo service dhcpd status Redirecting to /bin/systemctl status dhcpd.service dhcpd.service - DHCPv4 Server Daemon Loaded: loaded (/usr/lib/systemd/system/dhcpd.service; disabled; vendor preset: disabled) Active: inactive (dead) Docs: man:dhcpd(8) man:dhcpd.conf(5) [ifae@tcs01 ~]$ sudo service dhcpd start Redirecting to /bin/systemctl start dhcpd.service [ifae@tcs01 ~]$ sudo service dhcpd status Redirecting to /bin/systemctl status dhcpd.service dhcpd.service - DHCPv4 Server Daemon Loaded: loaded (/usr/lib/systemd/system/dhcpd.service; disabled; vendor preset: disabled) Active: active (running) since Wed 2018-11-21 09:14:08 WET; 2s ago Docs: man:dhcpd(8) man:dhcpd.conf(5) Main PID: 453 (dhcpd) Status: "Dispatching packets..." CGroup: /system.slice/dhcpd.service 453 /usr/sbin/dhcpd -f -cf /etc/dhcp/dhcpd.conf -user dhcpd -group dhcpd --no-pid Nov 21 09:14:08 tcs01 dhcpd[453]: All rights reserved. Nov 21 09:14:08 tcs01 dhcpd[453]: For info, please visit https://www.isc.org/software/dhcp/ Nov 21 09:14:08 tcs01 dhcpd[453]: Not searching LDAP since ldap-server, ldap-port and ldap-base-dn were not specified in...ig file Nov 21 09:14:08 tcs01 dhcpd[453]: Wrote 0 deleted host decls to leases file. Nov 21 09:14:08 tcs01 dhcpd[453]: Wrote 0 new dynamic host decls to leases file. Nov 21 09:14:08 tcs01 dhcpd[453]: Wrote 4 leases to leases file. Nov 21 09:14:08 tcs01 dhcpd[453]: Listening on LPF/ens1f0/a0:36:9f:eb:51:34/10.1.0.0/16 Nov 21 09:14:08 tcs01 dhcpd[453]: Sending on LPF/ens1f0/a0:36:9f:eb:51:34/10.1.0.0/16 Nov 21 09:14:08 tcs01 dhcpd[453]: Sending on Socket/fallback/fallback-net Nov 21 09:14:08 tcs01 systemd[1]: Started DHCPv4 Server Daemon. Hint: Some lines were ellipsized, use -l to show in full. |
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2018-11-20 | Daniel K., Seiya | ClusCo monitoring restart | ClusCo monitoring map was not updated after the shutdown of tcs01. We contacted with Carlos and Carlos and they restarted it again.Now it works. | ||
2018-11-20 | TCS01 shutdown | One of the memory cards of tcs01 is damaged and will be replaced
by an authorized technician today starting 9am La Palma time. We will shutdown the server before that and once the card is exchanged we start it up again. | |||
2018-11-19 | Seiya, Daniel K. | cannot connect with some modules | With the configuration2(100Hz,ROI=1024) we could not connect some modules(IP10.1.6.148-173) and they still busy(busy state=1).
After the re-initianlization, this problem disappeared. | ||
2018-11-19 | Seiya, Daniel K. | Test pulse data with DragonDaqM(LegacyDAQ) | We took test pulse datat with the following conditions;
1) 300Hz, ROI=1024, trigger was generated by mod265 (for reproducing the problem)
2) 100Hz, ROI=1024, trigger was generated by mod265 (suggested by Taka)
3) 300Hz, ROI=1024, trigger was generated by mod265 (suggested by Taka)
4) 100Hz, ROI=1024, trigger was generated by mod265
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2018-11-19 | Seiya, Daniel K. | 24V supply problem | We powered up the camera with the usual procedure, but only one busbar(the 4th one) worked and others didn't work. We tried this procedure again, but the result is the same(only the 4th busbar worked).So we switched off and on the camera breaker around 15pm. Fan didn't start to work at first, so I switched on and off the breaker again and fan started to work. After that we can power up the whole cameras. | ||
2018-11-13 | Mitsunari, Daniel K. | Software deployment | All the setup (except the uaexpert for ecc, tib and ucts) to control, monitor and take data with the camera was moved to the LST_CALP iMac (+ 1 screen) of the commissioning container. | ||
2018-11-12 | Mitsunari, Daniel K. | Test pulse data with DragonDaqM | Test pulse data were taken by DragonDaqM triggering by the module 264, which did not have a test pulse on 11-09. | ||
2018-11-12 | Mitsunari, Satoshi | Connect tcs07 to White Rabbit | WR switch management port and Management switch (mgtsw2 port 42) are connected by a Ethernet cable. Mitsunari tried to change the IP of the WR switch to 10.200.10.140, which is in VLAN 1001, but I failed. The WR interface file dot-config was not found in spite of the WR manual. Even when we created the file by ourselves, it was lost after rebooting. | ||
2018-11-12 | Mitsunari, Daniel K., Carlos Diaz | Software deployment | Installing and compiling caco, cacoconsole, cacogui on tcs01 under /home/ifae/development. Compiling /home/ifae/clusco on tcs01 and adapting monitoring from CIEMAT. Setting up one additional screen for monitoring to the imac (monitoring computer), adding two forms (one for powering on the camera, one for shutting it down) to be filled by the operators. | ||
2018-11-09 | Mitsunari, Daniel K. | Test pulse data with EVB | Test pulse data were taken by EVB waiting PPS reaching all modules for 2 s. For the read depth 40, DAQ seemed to be successful. For the read depth 1024, however, the data were not stored. | ||
2018-11-09 | Mitsunari, Daniel K. | Test pulse data with DragonDaqM | Test pulse data were taken by DragonDaqM waiting PPS reaching all modules for 2 s. The waveform data of six modules besides the central one were checked, and five modules had test pulses though the other module (No. 0) did not. | ||
2018-11-03 | Mitsunari | Test pulse injection timing | Test pulse data were taken with L1 threshold which all modules can produce camera trigger. According to the data, the timing of test pulse injection distributes aver ~70 ms. Test pulse injection rate: 1 Hz, Read depth: 40, Sampling speed: 1 GHz | ||
2018-11-03 | Mitsunari | Test pulse injection timing | Test pulse data were taken with L1 threshold which all modules can produce camera trigger. According to the data, the timing of test pulse injection distributes aver ~70 ms. Test pulse injection rate: 1 Hz, Read depth: 1, Sampling speed: 5 GHz | ||
2018-11-02 | Mitsunari | Test pulse data with EVB | Data for investigating the test pulse issue were taken with EVB but seems to be failed. This should be inspected. Pulse rate: 300Hz, Read depth: 1024, Event number: ~9000, /fefs/onsite/data/20181102 |
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2018-11-01 | Mitsunari | Large data with random trigger | Data of ~10^5 events were taken for pedestal random tirgger, EVB, the read depth 40 slices, and the dealy 3528 ns. The data are stored in /fefs/onsite/data/20181101.
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2018-11-01 | Mitsunari | Avoiding TIB State 255 | The TIB state can go to 5 without resetting at state 255 by a combination of reseting TIB at state 0 and configuring dragons without resetting BPs.
Mitsunari repeated this procedure four times and succeeded for all of them. DAQ also seemed to be successful at the last trial. (At the first three trials, DAQ failed because of another reason.) |
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2018-10-31 | Mitsunari | TIB State 255 problem | init7 without BP reset at the beginning was tested. The first trial failed, namely, the state turned out to be 255. However, TIB state directly went to 5 In the second trial, when TIB was Reset just after turning on Camera. This behavior should be confirmed later. | ||
2018-10-31 | Mitsunari | Check for test pulse synchronization | It should be confirmed whether TenMHz counter vaue is idential among the modules for each test pulse event. Data for the check were taken by DragonDaqM with 300Hz. L1 threshold was set so that only the central module sent triggers. The data were stored in /home/dragon/IACMiniCamSetUp/DragonDaqM/Data20181031. TenMHz counter appeared to be synchronized, but it should be confirmed. | ||
2018-10-31 | Oscar, Mitsunari | PDB Fixation |
PDB fixation: the fixation of the from plate is done know throw a screw and nut fixed to the back plate using a mixture to attach metals (Pattex Nural 21) and an additional nut to fix the front plate. We have started Modules twice with one hour break in between. Both times all Dragons and BP went up. |
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2018-10-30 | Taka, Mitsunari, Julien, Dirk | Random trigger runs with EVB |
Two runs (#30, #31) taken at various trigger rates as documented in Run Catalog and Slack. Corrected pixel map implemented (spiral numbering). |
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2018-10-29 | Oscar, Taka, Mitsunari | Power up |
The Dragon with IP 10.1.6.28 (3rd column starting by the left from outside, 5th modules from below) was put in the busbar powered by relay 1 instead of 0. In exchange, module in 4th column 5ht from b below was put in the relay 0 instead of relay 1. Camera was powered up only once and all modules and BP went up. |
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2018-10-27 | Taka, Mitsunari | Random Trigger |
We took the random trigger. Following the instruction with Lea, random trigger could be easily produced. With DragonDaqM, 300 Hz injection -> 300 Daq rate. 1k Hz-> 783 Hz 3k Hz-> 1162 Hz 6.5k Hz -> 1303 Hz. With EVB, we first tried with 6.5 kHz. Then EVB crashed because of buffer full. But busy state of modules was 03, which means EVB are connected and modules were busy. To recover from this state, we had to reboot Dragons. A few minutes later, Carlos Diaz called us. The current consumption at bus bars are ~10Amp higher than usual. Normally 25-27 Amp but after rebooting Dragons, it was 35 Amp. We shutdown the 24V. After 10 min or so, Carlos allowed us to restart. All Dragons could be communicated from cacoserver, but not from Osaka. ip link set p*p* down/up didn't help. We rebooted Osaka. Then Osaka could ping to all (but one) modules. However, EVB didn't work. Later we learned from Dirk and Julien that we had to do sudo modprobe -r ixgbe; sudo modprobe ixgbe |
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2018-10-27 | Oscar, Laia , Taka, Mitsunari | Power up |
After checking that Dragon and BP regulators can stand input voltage above 30 V, we increased the power provide by the Power Supplies to 27.5V (the same for the 8 Power Supplies). With this configuration, the voltage while ramping up increase up 20.3 V and then only decreases to 19.8 V for about 1 ms. This should be completely find for the Dragons. We power up the camera with the ECC 10 times. All BP went up all times. Only one Dragon (always the same) does not power up the first time after a ~1 hour break (tried two times), after this first power up all Dragons power up. |
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2018-10-26 | Taka, Mitsunari | TIB state machine. |
We tried to solve the "State 255" problem in TIB. Luis Angel suggested to configure modules at state 2. We followed his instruction, but we reached state 255. So we tried modules configuration at state 0. Same result. We tried module configuration at state 4, resulting in the same state 255. We also tried to see the test pulse postion to the center of the readout window. But we could not see the test pulse at all. Delay setting in TIB or backplane is not correct. |
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2018-10-26 | Oscar, Laia , Taka, Mitsunari | Power up |
The drop in the voltage is due to a current limit in the circuitry of the relay. Increasing the voltage of the power supplies should rise the value of the dip in the voltage so that it does not reach 18V. We measure again the transients for relay 0 with Power Supply at 24.98 V as reference. We increase the voltage of Power Supplies to 25.25 V, the dip is about 100 mV higher. |
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2018-10-25 | Taka, Mitsunari Yusuke | Event Mixing |
We understood the origin of EventMixing. It is due to the slow control command "Dragon - Start" after "Enable Trigger" in TIB. "Enable Trigger" should have been after "Dragon Start". This is dangerous actually. Mistake will be noticed only during analysis. |
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2018-10-25 | Oscar , Laia | Power up |
No water was found inside the camera. We measure the voltage at the output of the Redundancy modules: 24.98 V We connect a Current sensor between master bus bar and relay 0. We power up relay 0 and measure transient for both current and voltage: - Voltage shows a drop of around 1.5 V once it arrive at 20V, which is afterward (4 ms) recovered and keeps increasing until about 24.5 V - Current increases steadily with a small slope change on the drop on the voltage happens. It also show a drop of about 30% when the voltage reach 24.5 V that it recovers after about 80ms after The voltage reduction for 4ms brings the voltage very close to 18V, and some times may go slightly down. The same is observed in relay 1. |
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2018-10-21 | Taka, Mitsunari, Yusuke | Timing Calibration. |
We tried to see the test pulse in the center of window. But we did not succeed. DAQ was with EthDisp from Taka's macbook through slow control network. We need to understand the delay in TIB and backplane. Since it was already 5:50 pm, (though we announced that we use camera until 5:00 pm) we had to shutdown. We kept 230 and 400V on, chiller on, only 24V off. |
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2018-10-21 | Taka, Mitsunari, Yusuke | Event Mixing Test |
To confirm again the event mixing problem, we took data with the LegacyDaq. After init7.uic, we injected the test pulse in the central module with 300 Hz. TIB could see the rate properly. We took 20000 events. After that, we tried to take data with EVB, but it was not successful. EVB could not connect to all modules. We had the same problem a few times in a row. One of the reasons was dead ports in Osaka. Sometimes, ports in Osaka sleep without obvious reason. This is actually critical problem. We need to investigate further. Finally we gave up to take data with EVB. |
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2018-10-21 | Taka, Mitsunari, Yusuke | TIB/UCTS study |
After power up, we tried to initialize TIB. But state didn't reach "5". After state 4, if we enable trigger, state went to 255. We knew that the RJ45 cable on the WR was damaged by the rack door. We changed it to new cable. We also used a different port in WR (port 8->5).And we reset TIB. Then with the standard procedure, state reached 5. We were happy. Just to be sure, we changed back to the damaged cable and retried. Then state was again 5. So, the reason was not the cable. But "Reset" of TIB was the key. After initializing PMT modules, TIB didn't work well. It didn't send back the trigger. Since temperature was too high (BP 35 deg.) We had to switch off the 24V. During this break, we changed the WR port from 5 to 8. After power up, we repeated the procedure. Again, TIB didn't send back the trigger. But, TIB reset helped. So, currently, startup recipe is that 0->1->2->3->4->255->TIB Reset->0->1->2->3->4->5->configure modules -> TIB Reset -> 0 -> 1 ->2 ->3 ->4 ->5. |
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2018-10-21 | Taka, Mitsunari, Yusuke | Restart the Camera. |
Before powering up 400V for the first time since last Tuesday, we examined the camera visually. Camera is properly parked. There was a water condensation on the camera body. The platform is not perfectly closed. There was a 2 cm gap between left and right. But it is not dangerous for us. At 11:45, we applied 400 V putting the breaker at the Drive container. After 15 min of stabilization, we started 24V from ECC (state ready). Then, we realized that TIB and UCTS do not respond on Ping. It was because dhcpd on tcs01 was dead. Also, uctsd on Osaka was dead We restarted dhcpd and uctsd and switched off and on 24V. Then, TIB, UCTS could be booted. |
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2018-10-15 | Dirk | UCTSd dead. |
uctsd.service - Execute the UCTS OPC-UA server Loaded: loaded (/etc/systemd/system/uctsd.service; static; vendor preset: disabled) Active: failed (Result: exit-code) since Di 2018-10-16 13:22:28 WEST; 2h 59min ago Process: 152844 ExecStart=/home/dragon/ucm_temp/ucts_opcua_server.sh (code=exited, status=134) Main PID: 152844 (code=exited, status=134) Okt 16 13:22:28 osaka ucts_opcua_server.sh[152844]: (MOS) : Info : 2018-10-13.12:30:47 : Connected to Server : opc.tcp://osaka:48010 Okt 16 13:22:28 osaka ucts_opcua_server.sh[152844]: Okt 16 13:22:28 osaka ucts_opcua_server.sh[152844]: (MOS) : Info : 2018-10-13.12:30:47 : Verification of MOS version with lappweb Okt 16 13:22:28 osaka ucts_opcua_server.sh[152844]: Okt 16 13:22:28 osaka ucts_opcua_server.sh[152844]: ******************** Okt 16 13:22:28 osaka ucts_opcua_server.sh[152844]: Press CTRL-C to shutdown server Okt 16 13:22:28 osaka ucts_opcua_server.sh[152844]: /home/dragon/ucm_temp/ucts_opcua_server.sh: line 9: 152847 Aborted (core dumped) ./MOS_Device -d /MOS/plugins/Plugin_UCTS/UCTS.xml Okt 16 13:22:28 osaka systemd[1]: uctsd.service: main process exited, code=exited, status=134/n/a Okt 16 13:22:28 osaka systemd[1]: Unit uctsd.service entered failed state. Okt 16 13:22:28 osaka systemd[1]: uctsd.service failed. Restarted. |
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2018-10-15 | Taka | MOXA Switch connected | SLOW control connection intact. Drive network can be used from remote tomorrow. | ||
2018-10-16 | Léa, Dirk, Julien, taka, Saiya, Mitsunari | Modules deconection |
- It happens two times today that after around 25 minutes, around 15 modules were not powered anymore whereas ECC was in state 2 and current in the pulse bar. At the newt switch ON, ALL powered | ||
2018-10-16 | Léa, Dirk, Julien, taka, Saiya, Mitsunari | uaexpert deconnection |
- Again, we lost uaexpert that was completely stuck so to have the monitoring back again the DataLogger are now written in /home/cacooperator/CoolingSystem/20181016_003 and 20181016_004 |
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2018-10-16 | Léa, Dirk, Julien, taka, Saiya, Mitsunari | TIB issues |
- TIB goes from state 0 to 4 but then when we enable trigger go to state 255 as the alarms vector |
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2018-10-16 | Léa, Dirk, Julien, taka, Saiya, Mitsunari | Small run summary |
- 7 GotoSafe and GoToReady for the ECC due to too high temperatures so switch ON/Off of the Modules/BP: 1) All module ON, 2 BPs OFF associated to module 10.1.6.12 and 10.1.6.27 2) All module ON, 2 BPs OFF associated to module 10.1.6.24 and 10.1.6.27 3) All module ON, 1 BP OFF associated to module 10.1.7.171 4) All modules and BPs ON 5) All modules and BPs ON 6) All modules and BPs ON 7) All modules and BPs ON 8) All modules and BPs ON 9) All modules and BPs ON 10) All modules and BPs ON 11) All module ON, 2 BPs OFF associated to module 10.1.7.147 and 10.1.7.149 12) All module ON, 2 BPs OFF associated to module 10.1.7.147 and 10.1.7.149 13) ALL modules ON 14) ALL modules ON |
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2018-10-15 | Dirk | Charging Walkie-Talkies | with our private mini-USB adapters, while waiting for the real charger to reappear | Alternative: $8.99 on Amazon
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2018-10-15 | Léa, Dirk, Julien, taka, Saiya, Mitsunari | Slow control and uaexpert deconnection |
- Slow control connection lost in ready mode so then no more current in the pulse bar. GotOsafe GOtOready still no curent with the negative value in the pulse bar. We had to switch off and on the 233 and 400 V - We lost uaexpert that was completely stuck so to have the monitoring back again the DataLogger are now written in /home/cacooperator/CoolingSystem/20181015_005 and 20181015_006 |
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2018-10-15 | Léa, Dirk, Julien, taka, Saiya, Mitsunari | Small run summary |
- 7 GotoSafe and GoToReady for the ECC due to too high temperatures so switch ON/Off of the Modules/BP: - Cut busy propagation from BP, dragon on local clock 1) 1 module OFF: 10.1.6.28, 2 BPs OFF associated to module 10.1.6.24 and 10.1.6.27 2) 1 module OFF: 10.1.6.28, 3 BPs OFF associated to module 10.1.6.24, 10.1.6.27 and 10.1.7.147 3) 1 module OFF: 10.1.6.28, 1 BP OFF associated to module 10.1.7.147 4) All modules ON, 2 BPs OFF associated to module 10.1.7.147 and 10.1.7.149 5) All modules ON and All BPs ON - pb of internal/external trigger clock for the Dragon fixed: For DRS4, referential clock is now 10 MHz external clock. - Configuration of UCTS and TIB, two last runs taken with the TIB so with external clock, external trigger and busy propagation. 6) 1 module OFF: 10.1.5.16, 3 BPs OFF associated to module 10.1.6.27 and 10.1.7.146 and 10.1.7.149 7) 1 module OFF: 10.1.6.28, 1 BP OFF associated to module 10.1.6.28 8) ALL modules On |
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2018-10-15 | Léa, Taka, Dirk, Daniel | SLOW Control lost |
While Camera was on, the SLOW control connection was interrupted in the Drive container to prepare connection of Drive/AMC network. Consequently the EMC went to SAFE. But also the UaExpert interface was stuck (which is the current base for Camera monitoring). The setup was then restored as well as we could, including DataLogger function. | ||
2018-10-15 | Léa, Taka, Julien, Seiya, Dirk | writing speed limitation in data taking |
1 ZFW: validate speed 300 MB writing speed 8 ZFW: validate 8* 300 MB/s writing speed 16 ZFW: writing speed: 16*150 MB writing speed. Maybe problem due to the disk. To investigate |
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2018-10-15 | Léa, Dirk, Julien | Slow control deconnection+ disconnect from OPC-UA | |||
2018-10-14 | Léa, Dirk, Julien | Small run summary | - No TIB/UCTS
- Cut busy propagation from BP, dragon on local clock - 7 GotoSafe and GoToReady for the ECC due to too high temperatures so 7 switch ON/Off of the Modules/BP 1) All modules ON, 2 BPs OFF associated to module 10.1.6.24 and 10.1.6.27 2) All modules ON, didn't check the BPs 3) All modules ON, didn't check the BPs 4) All modules ON, 1 BPs OFF associated to module 10.1.7.147 5) All modules ON, 2 BPs OFF associated to module 10.1.7.147 and 10.1.7.171 6) All modules ON, 1 BPs OFF associated to 10.1.7.147 7) All modules ON, 1 BP OFF associated to module 10.1.7.147
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2018-10-14 | Eric, Dirk | All (DATA) fibres straight now! |
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2018-10-14 | Dirk | Direct measurement of TX lasers |
INFO: Direct measurements can be done without danger for Photom-211 測定範囲 -70 ~ +5dBm according to datasheet. That is 3.16 mW to 0.1 µW. |
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2018-10-14 | Léa, Dirk, Julien | First full-cam data run up to 15kHz! | That is what we would have liked to see last week.
Now it's Champagne time. :-) |
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2018-10-14 | Julien, Eric | Fibres DATAsp1-6 tested | Optically, between DC and Cam. | ||
2018-10-13 | Léa, Dirk, Julien | Run0015 | Still no UCTS(/TIB); fibre broken between DC and Cam. Running with half-cam and two additional missing modules (BP problem): 6.24, 6.27.
- r0015 all events (at runstart), 300Hz and 10kHz, but ZFW problems (testing with 16 instances). |
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ALL | Door knob! | Falling apart from the CC door. Urgent action needed. (Bigger screw?) | |||
Taka, Seiya, Mitsunari | Fiber Check | We checked optical connection between DC and Camera because some labels were lost due to UV damage. We checked Data2, Data 6, SlowControl and UCTS. Only UCTS had a problem (no splicing at Drive PP). The rest where OK. | |||
Taka, Seiya, Mitsunari | Labeling fibers | We labeled optical fibers of the data (DATA 1 - 6) at patch panels in Drive contaniner and in IT container. The spare cables have not been done yet because a ribbon ran out. | |||
Seiya, Mitsunari | Connection validation | We validated 12 optical fiber connection (No. 1-6, 13-18) from Drive coontainer to IT container. Strength is -35 to -38 dBm. | |||
2018-10-12 | Léa, Taka, Julien, Seiya, Dirk | Runs0012 sqq. | No UCTS/TIB today.
These runs have 3 modules missing (as identified in the preparatory phase: 6.21, 6.25, 6.28). According to a quick check, all EventNb=TriggerNb otherwise for all runs today. See RunCatalog for details. |
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Dirk | Creation of logbook | ||||
Dirk, Taka, Julien, Seiya, Léa | Data acquisition |
- Pb with the ClusCo on tcs01. The root propagation for the BPs for the trigger doesn't work. Using exactly the same script it works on CacoOperator. - We validate for 3 fibers the new connections to the dataswitch fiber. Eric is fixing the one missing or broken. So for now only the right part of the camera is used for data acquisition - No TIB/ UCTS - Few runs were taken with no external trigger from TIB. 3 Modules didn't appear busy but didn't sent any data. In those test the busy from the CBP was cut. Those missing modules have to be investigated in more details but due to a lot of slow control deconnection problem and high temperature in the camera it was not possible. Script used in CLusCo: init7_noextTrigger_Test.uic. To not cut the busy, name is: init7_noextTrigger_noBusyCut_Test.uic - One try with no external trigger and clock but with the CBP delivering the clock and pps and using 10 MHz clock as default clock for the dragons. L1 local Trigger didn't generated. No we come back to a configuration of dragon on their local clock but this issue has to be investigated. Script used in CLusCo: init7_noextTriggerClock_Test.uic |
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Dirk, Taka, Julien, Seiya, Léa | Too high temperatures in the Camera |
- Limit fix to 27 for the aire temperature inside and 35 for the BP temperature. Pression also get some alarms - During the day, due to high temperatures we have to gotosafe to wait for the camera to cool almost 11 times but never the BP max temperature went more than 34 degree. The air inside reach at the maximum 26.5. |
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Dirk, Taka, Julien, Seiya, Léa | ECC lost connection (2 times!) |
- In the afternoon, 3 lost of ECC slow control communication due to the interruption between IT-Container/Driver-Container. Miscomunnication with AMC people... First time, temperature was already high in the camera, we had to switch OFF the 233 and 400V for security reasons. Two other times, we get the ECC connection back quite fast and ECC was in the same state that when the connection was lost meaning state 2 ready. Just no more current in the pulse bar so we have to gotosafe and gotoready both times. After that the current was -247 in the pulse bar... Not understood for the moment - The second interruption happened, when the Moxa switch was reconnected, probably not correctly configured. It was disconnected again. Presently this impacts AMC and drive operation, until the Moxa can be reconnected. |
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Léa, Taka, Julien, Seiya, Dirk | Discovered SLOW control fiber lost, fibers changed connection recover | Interruption. Using UCTS section for replacement. | |||
2018-10-11 | Eric, Armand | Cable splicing | UCTS fibres ready and checked. | ||
Léa, Taka, Julien, Seiya, Dirk | DATA5-upstream broken | Located between DC-PP. and IC-PP. Eric is going to have a look on Friday, when working on the other (spare) fibres. | |||
Léa, Taka, Julien, Seiya, Dirk | Found correct order of DATA1-DATA6 | We eventually found that the fibres DATA1-6 were connected in (exactly) wrong order to the camera, which lead to a mismatch of switches/modules with respect to interfaces/addresses in osaka.
This is an item for our "learned lessons": The indoor fibres had been labelled (switch-interface), but stayed in Mirca. The new fibres had been confectioned at ORM, and labels had to be "guessed" in one way or the other.|| |
Glossary[edit]
- CC = Commissioning Container (present LST1 Control Room)
- DC = Drive Container
- IC = IT-Container