PHOS shift user manual
Contents
1. Module 2 LDC M3 00 01 DDLs 1800 1801 LDC M3 02 03 DDLs 1802 1803 Module 3 LDC M4 00 01 DDLs 1804 1805 LDC M4 02 03 DDLs 1806 1807 Module 4 LDC M5 00 01 DDLs 1808 1809 LDC 5 02 03 DDLs 1810 1811 If all modules should be read out all these should be included If only one or two modules should be read out then only the corresponding DDLs LDCs should be selected gt If one or several HV Channels trips Only people who are registered as PHOS expert in PVSS can do this Others have to call the PHOS On call shifter Open the FSM Control panel for the HV of the relevant module module 2 in this case To get it open PHS_PWS gt PHS_PWS_MODULE 2 gt PHS_PWS_HV_MODULE2 The panel is shown below The top rectangle should be red if there was an error To ramp down the voltage click on the to rectangle and do reset_emerg This is a fast ramp down If one clicks reset the color might change to green If that happens click again and select go off When the voltage is down the 13 V for that module should be switched off and on again Open the PHS8 PWS LV MODULE to do that The 13 V channel is labeled PHS PWS WIEI95 CHO CH4 CR2 for Module 2 3 4 respectively When the 13 V has been turned on again the APD settings should be loaded How to do this is explained under 6 in the procedure for a Power Cycle p 26 Before HV ramping up the ramping settings may have to be modified Go to PHOS Monitoring zone 5 in MUD2. ALTROCIG1 0xd003 Ollset Threshold ALTROCFG2 Oxb Pre Samples 11 L1 LATENCY 0x2104 C UYTUAUCHU Min latency it Advice Open the similar windows for all 3 PHOS modules Before one can do anything with it one has to connect to the RCUs To define which RCUs to connect to do connection gt Connection Settings Choose RCUs to be controlled then OK and Save if need Then do connection gt Connect now The phosgui shows the status of one module at the time To select module use the buttons at the top Module 2 Module 3 and Module 4 When the phosgui starts all cards appear grey To find out the status one should click Update status Note This should never be done during a run The color will change to White Off Green On Red Error or Black no connection The buttons On and Off turn on off all FEE cards on one RCU Individual FEE cards can be turned on off by clicking on the FEE card The Go Ready button configures the electronics and disables enables trigger The Reset button resets the electronics for example if PHOS goes to busy status It should be followed by Go Ready The configuration settings can be modified by clicking Configure Electronics The window on the following page will appear One can select the configuration options ZS on or off mode for subtraction of pedestals number of samples etc The same window is used to load t
3. PHOS Computers at Point Musis sei RH PREFRLURUE Cl NEU pete Rhe Re 34 Appendix F Byente sizes per LDU sser ME EE 35 Appendix G Voltages and CURT CS 35 Appendix H PHOS DCS Summary panel i e cincti reni cest eter 36 Appendix I Some information about PHOS construction 38 Appendix K Actual status of the PHOS Modules FEEs 39 REFERENCIES 1 General PHOS is controlled from the two PCs aldaqacr48 and aldaqacr49 in the ALICE Control Room ACR The DCS system is run from the Windows machine alidcscom072 and the front end cards and RCUS are controlled from the Linux machine alidcscom075 One logs on to these machines from aldaqacr48 and aldaqacr49 On alidcscom072 each user logs on with his her own username CERN Nice username and on alidcscom075 the user is phs no password Login to aldaqacr48 and aldaqacr49 Login phos Password all passes are at the PHOS working place in ACR on the paper copy Each machine has double screen windows if only one of the two screens is on press ctrl alt F1 wait and then press ctrl alt F7 Connecting to DCS 1 Open Xterm on aldaqacr49 type the command gt rdesktop alidcscom072 f login using NICE username and password If the authorization window is not opened automatically go to the start panel and click PHOS To leave full screen mode ctrl alt enter 2 The authorization Windows panel will a
4. and click on High Voltage for the appropriate module Click on settings If the ramp is not set to 0 1 V s change it Type 0 5 in the square Ramp and hit return Then click set Check that the readback value is changed to 0 1 V s yes 0 1 V s not 0 5 The voltages should be 395 V for Modules 2 and 3 and 350 V for Module 4 These are the default values and should not have to be changed FSM Cuntrul PHS PWS HY MODULEZ TOP FSM CONTROL PANEL System Stale Sub Syslem Stale muwomeos E O 5 17 CLOSE Then go back to the PHS PWS HV MODULE and click on the top rectangle and select Go Ready The ramping takes about 30 mins If channels trip repeatedly the HV should be turned off and an expert called gt If one or more LV channels trip This is unusual If it happens an interlock should turn off the HV If the HV is not turned off turn it off manually Then follow the procedure for cold start below gt If an interlock is activated Call an expert Try to understand what caused the interlock to be activated If it is not understood don t do anything To reset the interlock click on Software interlocks in the MUI 10 gt If ALICE water cooling plant which produce cooling water for TOF EMCAL and PHOS FEES has any problems HW interlock is blocking the PHOS Wieners PSs In this case DCS experts A Augustinus only can disable the interlock But for PHOS
5. 28 Water Pressure PWS Interlock If water pressure of FEE water cooling is more than 1000 mbar the interlock stops all HV 0 5 V sec and then LV for all PHOS modules Cooling Plant HV Interlock If the Matrix Cooling Plant is in state of an error or does not respond for 15 minutes the interlock stops all HV 0 5 V sec after 15 minutes delay If any SW Interlock is in action the appropriate square changes its colour zones 18 20 3 Description of the PHOS alarms conception and recommendations for shifter s actions Alarm system works accordingly with a rule that for some representative variables like voltage current power temperature humidity etc there are 3 consecutive thresholds after which the messages are generated for shifter to attract his her attention that an error state is incoming Mentioned thresholds are ordered with increase of danger levels If the value 1st of a variable exceeds the threshold the message is classified as warning after 2 exceeding of the rd threshold alarm and at last at reaching of the 3 threshold danger An operator can see these messages with additional accompaniment of the description of needed actions The current list of alarms is as follows 3 1 Cold volume temperature alarm Warning 25 C lt t lt 30 C pay attention to the high temperature level inside the cold volume of PHOS module check the state of the PHOS matrix cooling plant and the water cooling sys
6. 5 1 c 2 R 3 On of RCU View Update Status B On of RCU View Update Status Module Properties amnes B On off Configure Electronics RCU View Update Status Enable Trigger B On Of Disable Trigger RCU View 1133237 INFO Starting Logger 113237 INFO Desinterface Init Adding FeeServer with name PHS FEE 0 02 0 113237 INFO Init Adding FeeServer with name PHS FEE_0_02_ 113237 INFO it Adding FeeServer with name PHS FEE 0 02 2 113237 INFO Desinterface Init Adding FeeServer with name PHS FEE 0 02 3 113237 INFO FEE Client successfully started For Module 2 and RCU ID 0 Coord x 2 0 2 2 0 For Module 2 and RCU ID 1 Coord x 2 1 22 0 For Module 8 2 and RCU ID 2 Coord x 22 2 0 For Module 2 and RCU ID 3 Coord x 23 2 0 113238 INFO PhosDetector DisArmTrigger Disarming trigger for PHS FEE 0 02 0 11 32 39 INFO PhosDetector DisArmTrigger Disarming trigger for PHS FEE 0 02 1 11 32 40 INFO PhosDetector DisArmTrigger Disarming trigger for PHS FEE 0 02 2 1132 41 INFO PhosDetector DisArmTrigger Disarming trigger for PHS FEE 0 02 3 Connect Settings Module Module1 Module2 Module3 Module4 PHOS Detector Front End Cards Branch B Front End Cards Branch A TRU R c 123456789ABCDE A 0 R A a R u EDCBA987654321 123456789ABCDE A 2 com Ed as a n 31 SS e
7. Orange no connection with the device Green system is ready to work HV LV is on Red an error or an incorrect operation of the device or system of devices Click 15 for Help displays general information about status colours 25 Getting info T LV HVcurrents over time zone 8 10 Trends Temp LV HV or zone 5 Matrix Cooling Water Cooling Pressure zone 13 or zone 5 LED zone 11 or zone 5 Devices status zone 4 LM button then RM button View How to start Mui manually Click Start PHOS to start MUI manually For automatic MUI start put D Shortcut to PVSS startup file bat into the Start Programs Startup folder Then you should be authorized once more by entering your NICE login and password into PHOS DCS access window NICE login NICE password LOGIN Log in 26 APPENDIX B The DCS Padlocks DCS Padlocks Padlock is unlocked it means that the control is free and anyone can take over To take control LM button TAKE To release control LM button RELEASE_ALL Padlock is locked it means that the system is under control In yellow frame something excluded control over part of the system In orange frame something excluded control over part of the system and or shared control Green only we have control Blue we share control with someone Grey nobody has control Orange red someone takes control Strikethrough if this mark appears
8. on any of the padlocks even after you have taken control the subsystem corresponding to this padlock will still be uncontrolled In order to take over this subsystem unlock the padlock 27 APPENDIX C The PHOS interlocks and alarms Interlocks were made to save our detector in case of emergency state and or incorrect operator reaction In case of error the interlock switches the system into safe mode and informs the shifter 1 HW Interlocks Water Cooling Plant Hardware Interlock Crystal Cooling Plant Hardware Interlock LV power crate Hardware Interlock DSS reaction on Hardware Interlock When an error occurs in any of these subsystems all LV crates are blocking switching off without the possibility to restart by the operator If any HW Interlock is in action the square changes colour zones 18 20 Only ALICE DCS operators can unblock HW Interlocks 2 SW Interlocks LV HV Interlock If any PHOS module has HV without LV interlock switches off the HV in emergency mode 50 V sec after 30 seconds delay FEE Temp PWS Interlock If the temperature of any warm volume of the PHOS module is higher than 55 degrees Celsius the interlock stops the HV of this module If the temperature is equal to Dew Point Temperature the interlock stops the HV of this module Humidity HV Interlock If the humidity in warm valume of the PHOS module is above 50 interlock stops all HV 0 5V sec for this module
9. one module at the time Click connect gt connection settings Select the DDLs for one module Click connect gt connect now Click reset To turn on the cards in one RCU click ON in the phosgui but check below for exceptions for RCUs 0 and 2 in M3 and RCUs 0 and 3 in M4 Repeat the steps above for all 3 modules If the phosgui crashes it can be restarted and the FFEs RCUs that were turned ON will remain ON To check which RCU FEE are ON use Update Status and continue to turn on the RCUs Note Some of the RCUs and FEE cards in Module 3 and 4 require special attention See Appendix K for actual FEEs status of all three PHOS Modules For M3 RCU 0 turn ON the FEE cards in Branch B by hand i e click on each card one at the time The cards should turn green Don t do anything with the cards in Branch A For M3 RCU2 don t turn ON FEE cards in both brunches at all For RCUO turn ON the FEE cards in Branch A by hand i e click on each card one at the time The cards should turn green Don t do anything with the cards in Branch B For M4 RCUS turn ON all FEE cards except card 7 and card A in Branch A by hand Note If communication with FEEs is lost or frozen use gt ps ax find the frozen phosgui process number and then use gt kill 9 Nprocess commands Then restart phosgui by gt startgui sh command gt To turn ON the 13V go back to the LV window on alidcscom072 Enable channel WIE195 CHO for M2 an
10. so ati EEE TT E AE 14 4 Standalone runs Pedestal 14 Start Data taking M Ea 16 5 Switching on off Power Supplies cold SUM eite tois 18 More details of the Switch ON procedure cross ream a sort etr 19 APPENDIX A Description of the Main User Interface MUT 23 APPENDIX B The DCS 27 APPENDIX C The PHOS interlocks and alarms 28 Eae 25 ey E 28 3 PHOS alarms conception and recommendations for shifters 29 3 1 Cold volume temperature eei eee rho epo 20 3 2 Warm volume Fee TAPAS sc hU Pn ER ur FRE Uds 30 3 3 Humidity in the cold VOIE oie pite e X RNAR ERE HERR ARE EUM Md 30 3 4 Humidity in the warm Voli ues 30 3 5 Dew point temperature not implemented entren 30 30 BTV A lor C 30 3 7 Cooling water pressure for all PHOS module 3l 2 Wiener LY Cee PAU ss uui n RH REIR EUER 31 3 9 HV currents for each Iseg CDSIael sop pup tane rperta Ue PA Rd pseruas 31 3 10 Wiener LV device doesn t respond not implemented 3l 3 11 Iseg HV channel doesn t respond not implemented 3l A aire ue pM M MUR NND 31 5e Data valid SM ET 33 Appendix D Association of RCUs with DDLs and LDCS 34 Appendix E
11. 000 Retry Counter dec FPG 1 0 FSM Halt i true FPG 1 0 Mi O0000 Mz 0000 M3 1111 M4 1101 M5 1111 1 Note Real window M3 1111 M4 1101 M5 1111 means PHOS Modules 2 3 4 As events are coming in the hexadecimal numbers following the L1 Counter and L2 Accept Counter should increase The busybox is reset at the beginning of every run so it is normally not necessary to reset it manually To reset it manually one should log in to alidcsdcb1557 This is done by the command bb from alidcscom075 Then go to the directory mnt dcbrw busybox files and execute the following command gt reset phos bb sh Do not use it during the Run The new busybox window will be opened The busy box settings are defined in the file nfs export dcbrw busy busybox files bbinit phos sh which is included to the reset phos bb sh script Actual version of busybox FPGA file is busybox57 fpgal solo bit To check the actual version use rcu sh r 0x2015 on alidcsdcb1557 version 57 means 0x39 for September 2011 12 gt Checking the FEE Servers using did before FEE switching ON and configuring If the did window is not running it can be started from alidcscom075 gt ssh phs alidcscom075 gt did Click View gt All Servers The window is shown below gt lt DID DIM Information Display pos is File View Commands Help 14 Servers known 8065 Services Available Displaying ALL Servers There sh
12. 74 DCS Cooling Plant alidesdcblSs7 alidcsdcbl573 LED VME alidcsdeblS4 alidesdeblS87 alidcscom252 Cooling Plant Appendix F Events sizes per LDC For empty events with Zero Suppression threshold 3 should be M3 00 01 3 02 05 M4 00 01 4 02 03 M5 00 01 02 03 Without TRU summary readout 3 0 2 4 2 0 1 1 1 2 1 2 kByte WithTRU summary readout 6 2 6 0 5 4 4 0 3 5 3 5 kByte Deviations up to 1 0 kByte are OK For pedestal runs without Zero Suppression the event sizes should be M3 00 01 M3 02 03 M4 00 01 M4 02 03 M5 00 01 M5 02 03 330 330 330 245 245 318 kByte For LED runs the event sizes will vary with the LED settings Appendix G Voltages and currents Typical LV voltages and currents everything ON vr e o fr m m OE OB p p Was p TT wm e p p p 1 m fr 5 1 tel V 395 V I 8 mA Module 4 V 350 V I27 0 7 5 mA except HV channel 7 V 350V I 11mA 35 Appendix H PHOS DCS Summary panel To be convinced that the detector is in a safe efficient condition the following parameters should be checked 1 Check the list of urgent messages PHOS panel Alarm screen available from MAIN DCS GUI 6 2 Check the status of interlocks on panel PHOS DCS summary available from MAIN DCS GUI Summary Check the status of Cooling Plant PHOS DCS summary 4 Check the temperature and pressure of FEE water cooling Pressure PHOS DC
13. 85 pay attention to the high humidity level inside the cold volume of the PHOS module inform the PHOS Run Coordinator 3 4 Humidity in the warm volume Warning 40 lt h lt 5096 pay attention to the high humidity level inside the warm volume of the PHOS module Alarm 50 lt h lt 6096 pay attention to the high humidity level inside the warm volume of the PHOS module inform the PHOS Run Coordinator Danger h gt 60 switch off the HV power of the alarmed PHOS module inform the PHOS Run Coordinator 3 5 Dew point temperature not implemented Warning the temperature inside the warm volume of the PHOS module is close to the dew point temperature 3 Degrees Alarm the temperature inside the warm volume of the PHOS module is close to the dew point temperature 2 Degrees inform the PHOS Run Coordinator Danger the temperature inside the warm volume of the PHOS module is around or less than the dew point temperature switch off the HV power for the alarmed PHOS module inform the PHOS Run Coordinator 3 6 LED VME crate Warning VME crate is off or doesn t respond inform the PHOS Run Coordinator 30 3 7 Cooling water pressure Warning 975 lt p lt 985 mBar pay attention to the high level of the water cooling pressure Alarm 985 lt h lt 995 mBar switch off the power for all PHOS modules inform the PHOS Run Coordinator Danger h gt 995 mBar immediately switch
14. DCA Hie View Options Permissions PHOS Detector Control Agent HI running on aldaqacr48 with PID 26673 i Waiting for operator commands DCS RUN CU STANDBY RUN OK DEAD READY STANDALONE_STOPPED DCA info 16 08 26 HLT is unlocked if there is no lower panel do ctrl alt enter and it will appear Choose PHOS If the padlock is red ask the ECS operator to release DAQ control Then click on the padlock and lock it It should then be green as in the figure above Unlock the DAQ_RC padlock Click on view gt Show DAQ Control to open the DATEPHOS_DAQ gui see below Note For correct DAQ control work the Option Ignore ACT pending actions should be enabled 16 A DATEPHOS DAQ PHOS CONTROL aa o ia Status updated Hle View Options Windows PHOS DAQ Run Control HI running on aldaqacr48 with PID 628 RC running on aldagecs01 with PID 12485 ea gt Ready to start Data Taking pa ee Lc eemese ae al 3 J Show Show Lees aw e HLT mode A yi LDC Local Recording OFF CDE NO Recording f RUN NUMBER 91692 Run Control Status READY 1 a 1 1 4 4 4 Lock the main padlock in this window DATEPHOS DAQ Then click the arrow following Disconnected Configuration Then click the gt Following Connected Run Parameters Unlock t
15. ON If something appears to be seriously wrong or the PHOS HV has to turned off quickly for some reason there is a simple button for moving PHOS into SAFE mode Moving PHOS into SAFE mode emergency button Click Right Mouse RM on 17 MUI button Go Safe go to red then within 10 seconds click Left Mouse LM button and all PHOS will be in SAFE mode which means HV will be switched OFF Cooling LV LED FEE will not change their status How to solve some common problems gt If PHOS goes busy during a global run has a CDH common data header error or has stopped a run because of an event size gt 2 MB If DAQ CTP calls and says that PHOS is busy has produced CDH errors or has an event size gt 2 MB the following procedure should be followed 1 If the phosgui is not running log on to alidcscom075 ssh phs alidcscom075 and start it See page 5 2 In the phosgui click connect connect now 3 For each module Click Reset then Click Go Ready Note If PHOS trigger is running for M4 do Configure and Enable Trigger instead 4 Tell SL that PHOS is ready If PHOS continues to be busy check with DAQ that the right LDCs are selected See below If the problems persist call one of PHOS expert listed on the first page of this manual Association of DDLs with LDCs To find which module a certain LDC DDL belongs to here is the mapping between LDCs DDLs and Modules see also Appendix D
16. PHOS shift user manual Last update 07 10 2011 A Vinogradov PHOS at ACR tel 77687 PHOS experts TC Iouri SIBIRIAK tel 165670 Iouri Sibiriak cern ch Alexandre VINOGRADOV tel 165670 Alexander Vinogradov cern ch DCS Alexander MAMONOV tel 71603 Alexander Mamonov cern ch Readout Oeystein DJUVSLAND tel 161080 Oeystein Djuvsland Q cern ch PHOS Trigger Lijiao LIU Lijiao Liu Q cern ch Dong WANG dongwang ccnu gmail com PHOS Cooling Alexei KURYAKIN tel 71603 Alexei Kuryakin cern ch Offline DQM LED Yuri KHARLOV tel 76305 Yuri Kharlov cern ch LED Mikhail BOGOLYUBSKY tel 77190 Mikhail Bogolyubsky C cern ch Note tel number if at CERN ALICE experts DCS Peter CHOCHULA tel 164838 Peter Chochula Q cern ch Andre AUGUSTINUS tel 163534 Andre Augustinus C cern ch DAQ alice datesupport cern ch CTP Anton JUSKO tel 162090 Anton Jusko Q cern ch Ken OYAMA tel 162469 oyama Q physi uni heidelberg de DQM Yiota FOKA tel 164387 Yiota Foka cern ch To find out who is the PHOS On Call Shifter or ALICE shifters go to the Shift Signup System SMS log in 1 click on Current Shift Crew in left panel 2 click on OnCall Shifters Table of Contents Milo c 3 2 Basic Operati assosieres ie E e iar SE EEE 7 How to solve some common 8 8 OR E
17. S summary It should be 500 800 mBar Temperature and pressure are available from http alicedcs web cern ch AliceDCS monitoring main aspx Typical values are Press 0 45 bar Level 216 7 Temp 8 6 C Check the status of LV PHOS DCS summary Check the status of HV PHOS DCS summary Check an average cold volume temperature PHOS DCS summary It should be 24 26 C Check an average warm volume temperature PHOS DCS summary It should be 10 25 C 36 linaenka Hua Myphan 3 Cnpanka 3 v e z A o Frtny aliceccs weh cer chiAliceDCSymenirannmrmain aspx QVALICE DCS Manitoring L o Lo ALICE DCS Monitoring Mem Moedzut To p Magnets T other sy 4 Lucre mews Refresh Avcorciresh Checking of the temperature and pressure of the FEE water cooling ALICE cooling water plant phs_panels phs_checklist pnl phs top phs_top m ES PHOS checklist 2010 04 19 13 16 59 980 r General Hardware interlock Software interlock A Alarms C Matrix cooling plant Cooling water temperature 831 02 Cooling water pressure r Madule 2 WIENER LV channels ISEG HV channels 24 71 Cold volume temperature 16 23 Warm volume temperature FEE temperature Module 3 WIENER LV channels ISEG HV channels 25 03 Cold volume temperature 16 01 Warm volume temperature liau FEE te
18. S GUI is in progress and 8 temperature sensors and 2 humidity sensors which also measure the temperatures Average warm volume_temperature should be around 13 C However when FEEs are switched off temperature may reach 6 C When the temperature is around 6 C there is a danger of appearing water on FEE cards Average humidity should be around 5 There is ALICE water cooling cycle which pass through PHOS modules and cools electronics The same water passes through PHOS warm volume EmCal TOF and CPV The warm volume and cold volume are separated by isolating partition To minimize the humidity level nitrogen passes through the PHOS module volumes Independently from PHOS module volumes there are Low Voltage power supplies WIENER crates cooling by water from the ALICE contour Average temperature of each crate channel should be around 20 C High Voltages HV power supplies ISEG crates cooling by air fan Average current level of each ISEG channel should be around 8mA see Appendix F LED monitoring system consists of VME crate and LED cards are situated in pit cooling by air fan Matrix Cooling Plant It s not the same with ALICE water cooling contour 38 Appendix K Actual status Connect Settings of the PHOS modules FEEs ModuleO Module1 Module2 Module3 Module 4 PHOS Detector Front End Cards Branch B Front End Cards Branch A TRUAB Actions R E 0 R E 1
19. _LAYER by command on alidcscom075 under SU gt cd etc init d if need gt jicl start Ignore the point until the FEE voltage and temperature readout project will be realized 10 Configure electronics GO READY for M2 M3 and CONFIGURE and Enable Trigger for M4 The process should be finished by 4 Done messages if not repeate GO READY command 11 Turn ON HV 12 If the TRUs did not turned ON earlier and should be read out they can be turned ON now 13 Configure TRUs and TOR see Trigger manual Note If communication with FEEs is lost and frozen use gt ps ax and gt kill 9 Nprocess commands More details of the Switch ON procedure gt Switch ON LV and program the RCUs Note that all three PHOS Modules switch on the same way The Low Voltage LV is handled by the Main User Interface MUI To open the LV controls click on PHS_PWS gt PHS_PWS_MODULE 2 gt PHS_PWS_LV_MODULE2 for LV of M2 and similarly for M3 and M4 Select the first two LV channels not the 13 V These are WIEI93 WIE193_CH2 19 for M2 WIE191_CH0 WIE191 CH2 for M3 and WIE190_CH0 WIE190_CH2 for M 4 Use the upper button of the gui and select Go Ready Note all channels should be selected and turned on simultaneously using the top button don t turn on each channel separately Program the RCUs by logging on to alidcscom075 ssh phs alidcscom075 Go to the directory home phs bin and
20. d click GO READY For M3 and M4 the corresponding channels are WIE195_CH4 and WIE195 CH2 respectively To load APD settings go back to the phosgui and select one module Then click Configure Electronics In the new window Select APD settings The default is 311 for all modules gain 50 at 25 21 Load Apply to module wait status 1 SUCCESS should be seen in the bottom frame of the phosgui it might be needed to scroll up to see this e click Cancel Repeat the above for all 3 modules Note that this may take up to 5 min per module gt Configure electronics if need NO default This can be done for all modules at the same time Go to the phosgui and click connection gt connection settings and select all modules Click connect gt connect now Click configure electronics In the Configure Electronics window e Select number of pre samples and samples Zero suppression enable disable Sparse readout enable disable threshold and offset if applicable For pedestal run select zero suppression OFF and sparse read out OFF Select 11 presamples and 51 samples Do not set the threshold to 0 e For LED run select zero suppression ON threshold 3 offset 0 and sparse readout ON Select 11 presamples and 51 samples If TRU readout enabled set TRU Samples min 95 max 115 For global cosmics collisions runs select zero suppression ON threshold 3 offset 0 and sparse rea
21. dout ON Select 11 presamples and 51 samples Click Save and then Cancel e For each module click Go Ready gt Turn ON HV This is done from the MUI PHS_PWS gt PHS_PWS_MODULE 2 gt PHS_PWS_HV_MODULE for M2 The panel is shown on page 12 Enable all channels and select GO READY in the top button The similar commands for M3 and The ramping takes about 30 mins 22 APPENDIX A Description of the Main User Interface MUI Photon Spectrometer PHOS Top left hand corner 1 User access window for users logins 2 FSM button Finite State Machine Top level of DCS control for controlling LV HV Power Supply PWS LED FEE Matrix Cooling Machine Run Control Unit in order to choose the type of run Press FSM button to begin the process of controlling 3 PHS DCS Info window describes the state of the system Left side 4 lt lt PHS_DCS gt gt the hierarchical tree of subsystems Bottom left hand corner 5 PHOS Monitoring Zone quick access to the info about the state of the systems 23 Top 6 Alarm current alarms information 7 Manual PHOS DCS Manual 2007 1 Right side 8 10 Indicators of PWS system state for 2 3 4 PHOS modules 11 Indicators of LED monitoring system state 12 Indicators of FEE electronics system state which is now in progress 13 Indicators of Matrix Cooling system state amp Temperatures and H
22. e a pedestal run proceed to start data taking For a LED run the LED system should be started now This is done in the following way Click FSM panel on MUI the Top level DCS control panel will appeared In Top level DCS control click the button PHS_DCS_RUN the lowest one and choose the command CONFIGURE In the window that appears write LED in the space Value and click Send This will start the LED system In the Main GUI the square LED flash at 11 should change from blue to green and the run type will change to LED By default the LED configuration will be 2554 saw f 200Hz To use a different one open the LED panel by clicking on LED at 5 in the Main GUI Type the configuration at the top and select which modules to activate Then proceed as above to start the LED system After finishing the LED run you should click on the PHS_DCS_RUN button in the top level DCS control and select the command CONFIGURE Type PHYSICS or PEDESTAL and click Send The LED system will deactivated The square LED flash at 11 in the Main GUI should change from green to blue and the run type will change to what is selected REMEMBER TO SWITCH OFF THE LED SYSTEM BEFORE STARTING ANY OTHER TYPE OF RUN 15 Start data taking If the DAQ window PHOS_DCA is not open open it by clicking on the 6th icon from the left in the lower panel it s an Emacs icon and when the mouse hovers over it it should say DateHI X PHOS_
23. g the control of the DCS and DAQ locks should be taken Ask the shiftleader to release the locks if necessary Make sure that all LV and HV channels are ON and that the phosgui is running If it is not running log on to alidcscom075 and start it gt ssh phs alidcscom075 gt cd phos dcs bin gt startgui sh Connect to the RCU FEE cards by clicking Connect gt Connection Settings and select the RCUs to be read out Then click Connect gt Connect Now Check that all FEE cards are ON by Update status If they are not ON check next section Cold start on how to turn them ON Select the number of pre samples samples Zero suppression enable disable Sparse readout enable disable according to the type of run This is done by clicking on Configure Electronics in the phosgui In the Configure Electronics window e Select number of pre samples and samples Zero suppression enable disable Sparse readout enable disable threshold and offset if applicable e For pedestal run select zero suppression OFF and sparse read out OFF Select 11 presamples and 51 samples Do not set the threshold to 0 14 For LED run select zero suppression ON threshold 3 offset 0 and sparse readout ON Select 11 presamples and 51 samples Click Save and then Cancel For each module click Go Ready The configuration is done when information stops flowing in the alidcscom075 window PHOS is now ready to take data To tak
24. he APD settings NOTE One should never do anything with the phosgui when a run is ongoing Not even clicking Update Status The reason for this is that the information to and from the phosgui goes on the same data bus as the real data If the phosgui hangs one can exit by pressing Ctrl Alt Ctrl Alt backslash If there are problems connecting to some RCUS check that the FEE servers are running using did see page 16 READ OUT SETTINGS APD Setting zi 5 Read out region HG LG From To From To All modules gain 50 d 25 x o 63 o 5 635 Created on 11 08 2009 cc E z o 55 5 o Ij 1 Enable TRU Readout Number of samples TRU Samples Load Apply to Module Min 95 2 Pre samples Samples X 11 E 51 5 Max BE Zero Suppression x Use fixed pedestals Revision 0 E Threshold Offset TA la 138 0 HE Enable Zero Suppression Sparse Readout RCU Sparse Readout Multi Event Buffers 4 LY Checkin New Fil Configure Cancel The phosgui window for setting the configuration 2 Basic Operation The normal state of PHOS during running cosmics or collisions is to have all Low Voltage LV and High Voltage HV channels ON The FEE cards should be on and the electronics should be configured The PHOS OnCall shifter should make sure that this is the case and correct any upcoming problems Note The HV should never be ON without the LV also being
25. he padlock in this window Note If one has to change which ddls that should be read out it can be done as follows but this is something which should normally not be done by the shifter more details are in the expert manual click Define under Disconnected Configuration then choose Detector then choose PHOS Select the LDCs that should be read out In the small ALICE DAQ window click select equipment and mark the desired DDLs and click Commit Login to alidcscom075 and go to nfs_export dcbrw busy busybox_files Check that the right RCUs are included commented out in the file bbinit_phos sh Go back to the PHOS_DCA window Lock the padlock DAQ_RC Unlock the HLT padlock The DCA frame should be green Release the lock on PHS_PWS_TOP window in DCS GUI Click on it to start a Pedestal or LED run When the run has started a new window will appear PHOS The number of events is shown under the LDC status display number of subevents recorded To stop the run click on DCA and select stop_datataking It is recommended to run about 100 events for Pedestals and 10 000 events for LED runs 17 To start the transfer of data to alien click on File in the PHOS DCA window and select Start migration of data to Castor To release DAQ control click on DCA and select Release Resources then unlock the main padlock in the PHOS_DCA window 5 Switching on off Power Supplies cold start Note The HV should never be ON
26. lick Left Mouse Button PWS Power Supply CDH Common Data Header REFERENCIES 1 PHOS DCS Manual 2007 https aliceinfo cern ch PHOS Documents manuals html 2 Instruction for PHOS On call shifter https aliceinfo cern ch PHOS system files documents Manuals PHOS_OnCall_instruction_1 1 0 2011 pdf Authors Editors Sergey Nikolaev Alexander Mamonov Oeystein Djuvsland Joakim Nystrand Yuri Kharlov Mikhail Bogolyubskiy Alexander Vinogradov 40
27. m A dcs globals csamSummaryAlert alert CSAM Level 3 alarm s A A_ des_globals dip ts CEAM SL LO2 AS 0702 ALARME alarm ALARMZ PM25jLevel 3 Alarm 09 12 18 07 31 09 12 18 08 2 09 12 18 09 0 09 12 18 09 0 dcs globals dip ts CEAM Alive connected Alive counter stopped 09 12 21 12 5 Click Right Mouse button on any message on this screen then choose alarm help and you will see the window with instructions on what to do for this wW alarm J alidesfs002 DCS_Common des_share phs_share help en_US iso88591 phs_ 4 X Live Search File Edit View Favorites Tools Help De a P alidesFs002 0c5_Common des_share phs share hel B Page Alarm Help create is off vanne VME crate is off or doesn t respond inform PHOS Run Coordinator Action Read the descrition above Contact details Name Joakim Nystrand Email Joakim Nystrand cern ch Phone Tel 73601 GSM 160273 Alarms Displayed 1 j Tools La Internet 32 5 Data valid screen Data valid screen gives full information about status of the PHOS interlocks and alarms with control that different PVSS projects on machines 072 073 074 are alive and respond to the main DCS Each item is presented by a color square The color of correspondent square is green for normal situation otherwise if the system does not respond for time greater than 5 s the
28. mperature Module 4 WIENER LV channels ISEG HV channels 24 84 Cold volume temperature 13 45 Warm volume temperature IEEE FEE temperature PHOS DCS summary 40 37 Appendix Some information about PHOS construction PHOS consists of two parts cold volume and warm volume that separated from each other by some isolated structure The cold volume for each module contains 64x56 crystals with preamplifiers CSPs Avalanche Photo Diodes APDs and Light Emitting Diodes LEDs for monitoring The crystals and APDs show best production parameters by temperature 25 C that is supported by Cooling Plant that operates cooling liquid temperature and humidity In the cold volume_for each module there are 24 temperature sensors and 3 and humidity sensors which also show the temperature Average level of cold volume_temperature should be around 25 C average level of humidity should be about 40 The warm volume for each module contains 28x4 Front End Cards FEEs electronic cards for 32 channels each in copper boxes In phos_gui see below these cards are marked as 1 9 A E and connected with 4 Readout Control Units RCUO RCU3 and with 8 Trigger Readout Units TRU All electronics are cooling by water from the ALICE contour under the negative pressure Water temperature data is not included in PHOS DCS GUI yet but available from web form see below There are FEE s own temperature sensors import in PHIS DC
29. nd for 20 minutes keep the LV power for the alarmed PHOS module inform the PHOS Run Coordinator 4 Alarm screen Alarm screen reflects full information about alarms in the ALICE setup 31 PHOS shifter selects the messages with prefix PHOS all others ones are used for general information To activate this screen click on the red triangle banner with exclamation mark in the top left part of the ALICE Main User Interface MUI button 6 you will see Alarm Screen p cknowledgement Mode kharlov a e RE Unacknowladged Current Alarms Pri Individual Group NET irt ams amp Tire Renae Alarm Filters Systems Cevice Name Logical Name Alarm Text Alarm State Device Description Quick Filters w F ione available v os Device DP element dcs ui SERVICES IDCS GAS DCS GAS hasAlarms FSM Remote Alarm des_globals L3BSF1 Temperature Daldcs_globals FieldMap FieldMapAvailable Field Map NOT AVAILABLE Dipole Emergency ShutDown C dcs globals Magnet ALICESolenoid EmSDown Solenoid Emergency ShutDown CAME phs_col Wiener CANG Crate1 General Status GetPowerOn PHOS VME create is off CAME 08 08 19 08 5 08 08 19 08 5 09 07 07 18 1 09 12 17 12 0 09 12 17 12 0 09 12 17 12 0 09 12 17 14 0 dcs globals dip ts CEAM SL L02 AS 0703 ALARME alarm Level 3 Alarm dcs globals dip ts CEAM SL LO02 AS D07 15 ALARME alarm ALARME PX24 Level 3 Alar
30. ngs Module Module1 Module2 Module3 Module4 PHOS Detector Front End Cards Branch B Front End Cards BranchA TRU A B Actions 4 9 R Update Status c EDCBA987654321 A B On off 0 RCU View mecena gt w Update Status MEE LL On off RCU View Update Status Module Properties On off Configure Electronics RCU View Update Status Enable Trigger 789A On of Disable Trigger RCU View NEOA gt w wena gt w 11 32 37 INFO Starting Logger 11 32 37 INFO DcsInterface Init Adding FeeServer with name PHS FEE_0_02_0 For Module 8 2 and RCU ID 0 Coord x 0 z 0 erver with name PHS FEE_0_02_1 For Module amp 2 and RCU ID 1 Coord x 1 z 0 11 32 37 INFO Dcsinterface Init Adding FeeServer with name PHS FEE_0_02_2 For Module 8 2 and RCU ID 2 Coord x 2 z 0 11 32 37 INFO DcsInterface Init Adding FeeServer with name PHS FEE_0_02_3 For Module 8 2 and RCU ID 3 Coord x 3 z 0 11 32 37 INFO FEE Client successfully started 11 32 38 INFO PhosDetector DisArmTrigger Disarming trigger for PHS FEE_0_02_0 11 32 39 INFO PhosDetector DisArmTrigger Disarming trigger for PHS FEE_0_02_1 11 32 40 INFO PhosDetector DisArmTri ing trigger for PHS FEE_0_02_2 11 32 41 INFO PhosDetector DisArmTrigger Disarming trigger for PHS FEE_0_02_3 GLOSSARIUM MUI ALICE Main User Interface RM Click Right Mouse Button DRM Double Click Right Mouse Button LM Click Left Mouse Button DLM Double C
31. off the power of all PHOS modules in the emergency mode inform the PHOS Run Coordinator 3 8 Wiener LV temperature Warning 45 C t lt 55 C pay attention to the high level of the Wiener channel temperature Alarm 55 C lt t lt 65 C switch off the power of the PHOS module where the alarmed LV Wiener channel presents inform the PHOS Run Coordinator Danger t gt 65 C immediately switch off the power in the emergency mode of the PHOS module where the alarmed LV Wiener channel presents inform the PHOS Run Coordinator 3 9 HV currents for each Iseg channel Warning 10 I lt 12 mA pay attention to the high level of the HV channel current of the Iseg HV power supply Alarm 12 X I 14 mA be ready to get an error state because of the HV channel over current inform the PHOS Run Coordinator Danger h gt 14 mA switch off the alarmed HV channel inform the PHOS Run Coordinator 3 10 Wiener LV device doesn t respond not implemented Warning Wiener PL512 LV crate doesn t respond for 3 minutes pay attention to the Wiener LV crate connection problem Alarm Wiener PL512 LV crate doesn t respond for 5 minutes inform the PHOS Run Coordinator 3 11 Iseg HV channel doesn t respond not implemented Warning Iseg HV device doesn t respond for 10 minutes keep the LV power for the alarmed PHOS module pay attention on Iseg HV device connection problem Alarm Iseg HV device doesn t respo
32. ould be 16 buttons in this window One DIS DNS One PHS TOR One PVSSSys91Man1 DIMHandler not in Fig above One ztt dimfed server not in Fig above 4 buttons for each module PHS FEE 0 0 2 3 4 0 1 2 3 The first number indicates the module If any of the PHS FEE 0 0 2 3 4 0 1 2 3 buttons are missing it means that the corresponding FEE servers are not running To restart them go to the directory home phs bin on alidcscom075 and run the script all phos dcs m2 reboot sh to reboot the FEE servers for module 2 The m2 is replaced by m3 and m4 for modules 3 and 4 respectively The PVSSSys91Man1 DIMHandler and ztt dimfed server are only there if the intercom layer is running If the DIS DNS button is missing one should execute usr local dcs dim linux dns on alidcscom075 Note After LV off long delay may occurred before the buttons will disappear 13 3 Global runs Before PHOS can participate in a global run the DCS and DAQ locks should be released from aldaqacr48 and aldaqacr 49 The locks will be taken by the global DCS and DAQ shifters Don t change the configuration or do anything with the phosgui when a global run is ongoing Before PHOS is handed over to global control it should be checked that the detector is in good shape A standalone run should be taken and there should be no errors The event size for empty events should be consistent with Appendix F 4 Standalone runs Pedestal LED Before startin
33. ppear You should use the NICE login and password here as well The following window will be opened the ALICE Main User Interface MUD of DCS system for PHOS project BM es S D pg 4 diens rEE TOP amp dyPHs LED TOP PHS_COL_TOP i PHS_OCS_RUN The details of this window are described in App A Configuring the electronics turning on off FEE cards First you must check FEE servers by did see page 15 and program RCUs page 22 To start the phosgui log in as user phs on Linux machine alidcscom075 This is set up by ssh keys from aldaqacr48 and aldaqacr49 Just do gt ssh phs alidcscom075 No password has to be given At alidcscom075 go to the directory home phs phos dcs bin and start the gui gt cd phos dcs bin startgui sh The following window should appear phosgui phos gul py 0X Connec t Settings Module 0 Module 1 Module 2 Module 3 Module 4 PHOS Detector Front End Cards Branch B Front End Cards Branch A TRU AB Actions Q 9 R Update Status i E u FDCRAnR7 amp 554321 1234567R9ARCDF A OR On Off 9 RCU View 5 Vnde Rim ooo mm c u EDCBA987654321 123456789ABCDE B On off t RCU View R Uodate Status t Module Properties u EDCBA987654321 123456789ABCDE B on off Configure Fectranies 2 RCU View R Usdale Status Fnahle Trigger EDCBA987654321 123456789ABCDE A B On oll Disable Triuqer 4 RCU View nnOMOD nxan Mask HDYRX 0 sparse Lxec seq MLL mode
34. run the script gt program_rcu_171109 sh RCU where RCU should be 84 85 86 87 for M2 92 93 94 95 for M3 and 88 89 90 91 for M4 Go back to the LV control window and select the remaining three LV channels not the 13 V for WIE193_CH 4 6 8 These are WIEI91 CH 4 6 8 and WIE190 CH 4 6 8 for modules 3 and 4 respectively Turn the channels ON using the upper button on FSM control panel and select Go Ready Start the phosgui if it is not already running To do this log on to alidcscom075 and go to the directory home phs phos dcs bin and enter gt startgui sh For more info on the phosgui see page 5 In the phosgui connect to all modules Then click Go Ready for each module gt Do a test run PEDESTAL run with NO recording and check that there are no CDH errors How to do this is explained in the previous section Standalone runs under data taking Take a pedestal run and check that at least 30 events are collected Check the infoBrowser for CDH errors If there is a CDH error check which DDL produced it and restart the corresponding Module If the module cannot be identified all modules should be restarted If after 3 attempts there are still problems contact an expert gt The FEE cards are turned ON using the phosgui If the phosgui is not already running log on to alidcscom075 go to the directory home phs phos dcs bin and enter gt startgui sh 20 Turning ON the RCUs should be done
35. security reason there is BYPASS key in CR4 which give some possibility for the Wieners using in special case if DCS experts do not accessible If the reason of HW alarms was eliminated one should acknowledge it on central DCS screen For this on Detector Safety System DSS screen acknowledge first AL PHS LV Interlock then O DSS PHS LV ILCK by a single click on these names on the DSS screen column ALARMS for AL top part of screen and ACTIONS for O_ lower part of screen Note that the DSS screen has to be logged in as desoper gt If OPC server for PHOS HV is hung up or there is other problem with HV Iseg communication one can restart the server on alidcscom073 machine manually For this Login to the alidcscom073 as usual through alidcscom001 etc Open the Task Manager Ctrl Shift Esc Find the Process ISEGHV 1 exe and End it Open consol PVSS from START2PROGRAM menu gt ETM PVSS 3 8 Rerun the OPC driver 8 OPC DA Client process by red Stop button Wait for the process will rerun together with PVSS client NY OQ ON RA WO N Logout from alidcscom073 11 gt Monitoring the busy box The busy box window is shown below f alidcsdcb1557 cern ch PuTTY RX memory pointer FPGA1 0x84 L1 Counter FPGA1 L2 Accept Counter FPGA1 0x0 L2 Reject Counter FPGA1 0x0 EventID FIFO count dec FPGA1 O Current RequestID FPGA1 0x0 Current EventID FPGA1 000 Most recent EventID FPGA1
36. square becomes red To activate this screen push the virtual button Data Valid in the lower right part of the ALICE Main User Interface MUD you will see Data valid oix alidcscom072 Cooling plant PWS software interlock Humidity H software interlock HV LV software interlock Water pressure PWS software interlock alidcscom072 PVSS project Matrix temperatureD0 PWS software alarm i alive Matrix temperature35 PW S software interlock LV temperature PWS software interlock Data valid software alarm alidcscom073 Wiener connection alidcswie190 PHOS module 4 alidcswie191 PHOS module 3 alidcswie193 PHOS module 2 Eg alidcswie195 13V alidcscom073 PVSS project Iseg CANBus alive Iseg OPC connection Iseg module 1 PHOS module 2 Iseg module 2 PHOS module 4 Iseg module 3 PHOS module 3 pj alidcscomQ74 Matrix cooling plant Matrix temperature sensors alidcscom074 Water cooling pressure PVSS project alive YME CANBus VME crate Refresh rate sec Default Set Close 33 Appendix D Association of RCUs with DDLs and LDCs eS mas p M 2 86 Maor sn 1 94 1805 ms M20203 ANN LEE ms B ws m p p 8 pr m 1 L m Appendix E PHOS Computers at Point2 aldaqpc067 DAQ LDC aldagpe06s aldaqdamil alidescom075 aidescom026 alidescom072 alidescom073 alidcscom0
37. tem Alarm 30 C t lt 35 C switch off the power of the alarmed PHOS module check the state of the PHOS matrix cooling plant and the water cooling system inform the PHOS Run Coordinator Danger t gt 35 C immediately switch off the power of the alarmed PHOS module check the state of the PHOS matrix cooling plant and the water cooling system inform the PHOS Run Coordinator 29 3 2 Warm volume temperature Warning 435 C x t lt 45 C pay attention to the high temperature level inside the warm volume of PHOS module check the state of the FEE temperature sensors PHOS matrix cooling plant and the water cooling system Alarm 45 C lt t lt 50 C pay attention to the high temperature level inside the warm volume of PHOS module check the state of the FEE temperature sensors PHOS matrix cooling plant and the water cooling system inform the PHOS Run Coordinator Danger t gt 50 C switch off the power of alarmed PHOS module check the state of check the state of the FEE temperature sensors PHOS matrix cooling plant and the water cooling system inform the PHOS Run Coordinator 3 3 Humidity in the cold volume Warning 70 lt h lt 80 pay attention to the high humidity level inside the cold volume of the PHOS module Alarm 80 lt h lt 85 pay attention to the high humidity level inside the cold volume of the PHOS module inform the PHOS Run Coordinator Danger h gt
38. umidity 14 Software Interlocks Software Interlocks status 15 Help general information about the status colours Bottom right hand corner 16 Close in order to close the Main User Interface To start MUI once more after closing Start PHOS Top center 17 PHS Go Safe Moving all the PHOS modules to safe mode turning off all HV channels Bottom 18 19 SW Software Interlocks and their Alarms 24 20 HW Hardware Interlocks 21 Run Type 22 FSM see below Stop Start Restart of all FSM ONLY IN THE LAST RESORT FSMControl Al xl ALICE MAIN FSM Control Panel v 0 6 Auth amp Franco PHOS A Mamonov eo m DIM DNS Server DIM DNS name pevniief dcs FSM Archiving FSM Synoptics m FSM Control E CETTE EUN E PHOS FSMs Control Window it appears after clicking LM on 22 FSM 23 ALICE DCS monitoring zone is in progress 24 DCS summary panel see App H 25 Data Valid panel give the information about interlocks and alarms You should wait 1 min before information will arise 26 PHOS modules general status 27 Message sender to other detectors 28 LHC Beam general status For more details click on 7 PHOS Detector Control System Manual 2007 1 The status colours Dark blue system is not ready switched off or is in standby state HV LV is off Yellow system is in the intermediate state ramping cooling etc
39. when any LV channel is OFF Switching OFF power should be done in the following order Ramp down the HV 2 Turn OFF the LV all channels including 13 V Switching ON power should be done in the following order note that this procedure normally takes 2 3 hours 1 Switch ON LV and program the RCUs For all Modules 1 Switch ON the first two LV channels not the 13 V Wait and be sure that all RCUs and PHS TOR servers are appeared in DID window see page 12 il Program all the RCUs 84 87 for M2 92 95 for M3 and 88 91 for M4 on alidcscom 075 in home phs bin subdir iii Switch ON the remaining three LV channels not the 13 V 2 Open the phosgui and connect to all modules but no switch ON FEEs yet Click reset and go ready 3 Release the lock on the TOP level of DCS panel PHS PWS TOP PHOS then should be READY and green 4 Doatest run PEDESTAL or LED and check that there are no CDH errors 5 Click reset and turn ON the FEE cards and all TRUs if PHOS Trigger need 18 6 Turn ON the 13 V LV channel for each module 7 Check if INTERCOM LAYER running and stop it by commands on alidcscom075 under SU Super User D111 amp phs gt cd etc init d gt jicl status gt jicl stop 8 Load and apply the APD settings 311 by default The process should be finished by success messages Repeat it for all 3 modules Close the windows manually Cancel 9 Start INTERCOM
40. y e m Sst J ELM e E Sa S S lt a s exl Ln eR Ss gt 11 32 37 INFO Starting Logger 11 32 37 INFO Dcsinterface Init Adding FeeServer with name PHS FEE_0_02_0 11 32 37 INFO Dcsinterface Init Adding FeeServer with name PHS FEE_0_02_1 11 32 37 INFO Dcsinterface Init Adding FeeServer with name PHS FEE_0_02_2 113237 INFO Dcsinterface Init Adding FeeServer with name PHS FEE_0_02_3 113237 INFO FEE Client successfully started AB Actions Update Status B On off RCU View Update Status On of RCU View Update Status Module Properties On off Configure Electronics RCU View Update Status Enable Trigger B On Disable Trigger RCU View For Module 8 2 and RCU ID 0 Coord x 0 2 0 For Module 2 and RCU ID 1 Coord x 1 2 0 For Module 2 and RCU ID 2 Coord x 2 z 0 For Module 8 2 and RCU ID 3 Coord x 23 22 0 1133238 INFO PhosDetector DisArmTrigger Disarming trigger for PHS FEE_0_02_0 11323 INFO 11 32 40 INFO 11 32 41 INFO PhosDetector DisArmTrigger Disarming trigger for 0 02 1 PhosDetector DisArmTrigger Disarming trigger for PHS FEE_0_02_2 PhosDetector DisArmTrigger Disarming trigger for PHS FEE_0_02_3 39 Connect Setti
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