1. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 1 The Detector Control System for the Electromagnetic Calorimeter of the CMS Experiment at the LHC P. Adzic 1, F. Beaudette 2, G. Dissertori 3, R. Gomez-Reino 4, G. Leshev 3, A. Lister 3, D. Maletic 1, P. Milenovic 1, R. Ofierzynski 2, J. Puzovic 5,1, A. Sytin 6, S. Zelepoukine 6,3 1 VINCA Institute, Belgrade, Serbia and Montenegro, 2 CERN, Geneva, Switzerland, 3 ETH Zurich, Switzerland, 4 Universidad de Santiago de Compostela, Santiago de Compostela, Spain, 5 Faculty of Physics, University of Belgrade, Serbia and Montenegro 6 IHEP, Protvino, Russia.

2. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 2 Outline LHC  CMS  ECAL ECAL DCS mission, functionality, challenges Subsystems overview DCS prototyping – ECAL testbeams Current status, plans DCS = Detector Control System

3. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 3 LHC  CMS  ECAL LHC

4. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 4 LHC  CMS  ECAL LHC P5

5. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 5 LHC  CMS  ECAL ECAL LHC ECAL: 75848 Lead-Tungstate crystals ECAL: 75848 Lead-Tungstate crystals P5

6. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 6 ECAL DCS mission Control actions: switch on/off and ramp up/down the HV and LV, set up their operational parameters. Early warnings about abnormal conditions and alarms, hardwired interlocks to ECAL HV/LV and CMS DSS. Monitoring of the detector conditions, on-detector electronics and ECAL subsystems. Recording of monitored data to the common CMS "conditions database".

7. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 7 ECAL DCS interactions ECAL DCS receives commands from CMS DCS (CMS operational mode) or from ECAL “Run Control” (ECAL local operational mode, commissioning)

8. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 8 ECAL DCS functionality & layout

9. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 9 ECAL DCS challenges Data rates and volume: ~120’000 of channels and parameters to monitor; ~10 Mbytes/hour raw data rates; ~1.5 Gbytes/month to archive in the CMS conditions database System availability: All of the DCS functionality must be constantly available during the ECAL (CMS) run time; some functionality practically non-stop (24h/365d) during the whole CMS detector life time (more than 10 years). Specific challenges for ECAL Safety System (ESS) and ECAL Precision Temperature and Humidity Monitoring (PTM/HM)…

10. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 10 more challenges – ESS, PTM/HM ECAL Safety System (ESS) and the ECAL Precision Temperature and Humidity Monitoring (PTM/HM): –sensors will work in high radiation and magnetic fields (~ 10 14 neutrons/cm2 of total flux over the CMS life cycle; 4 Tesla). –sensors are not foreseen to be replaceable and even accessible. –readout electronics must be radiation tolerant, since it will be placed in the CMS cavern. –long cable paths (50-100m) “sensors – readout electronics”. PTM: monitors the cooling system stability (<0.1°C at 18°C) with a (relative) precision 0.01°C.

11. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 11 more challenges – ESS, PTM/HM UXC55 – CMS cavern USC55 – electronics cavern

12. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 12 DCS Hardware ECAL DCS team is responsible for delivery and support of hardware for ESS and PTM/HM subsystems (sensors, readout electronics, PLC). Hardware for HV, LV, Cooling and Laser subsystems is provided and supported by other ECAL teams while software is our responsibility. ECAL DCS will use several dedicated computers (“industrial PC”) which are to be installed in the CMS electronics cavern.

13. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 13 DCS software The purpose of the JCOP Framework is to provide LHC experiments with a unified toolset for building their DCS. Basically the Framework provides standard “devices”, “control units”, tools for hierarchical structuring of controls, DB access tools, etc. More details – a separate talk at the Conference, WE2 session The JCOP Framework uses a commercial SCADA system, PVSS-2, from ETM (Austria). http://www.etm.at/ ECAL DCS software (as well as the CMS DCS one) is based on a Framework, common for all LHC experiments. The Framework is developed by JCOP (Joint Controls Project). http://itco.web.cern.ch/itco/Projects-Services/JCOP/

14. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 14 Controls hierarchy – FSM tree FSM = Finite State Machine toolkit States Commands

15. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 15 Controls hierarchy – 1-st implementation, ECAL testbeam, 2004 HV Cooling ECAL DCS Supervisor ESS PTM HM LV

16. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 16 Current status Sensor production, calibration, installation in SMs (ESS, PTM/HM). Readout electronics development (ESS, PTM/HM); production (end 2005 – PTM/HM, beg 2006 – ESS). Software development: towards the final DCS (DB access, integration with CMS DCS, etc); new applications (on-detector electronics parameters monitoring). Support of running installations: ECAL cosmic calibration (H4 testbeam area, B.887); ECAL integration center (B.867 – 3x independent setups). New setup in Feb 2006 – CMS MTCC (Magnet test / Cosmic Challenge)

17. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 17 ECAL DCS setups: 2 installations are running, one more in 2006 ECAL integration center (B.867, CERN-Prevessin) -- 3x separate SM integration stands with 3x DAQ/DCS; -- 3x ECAL SM per month (fall 2005). ECAL cosmic calibration (B.887, CERN-Prevessin) CMS MTCC – 2006 (P5, Cessy)

18. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 18 Major milestones and plans 2000 –First prototypes in ECAL testbeams, looking for solutions 2004(sensors, readout), irradiation studies. 2004 – The first fully functional prototype tested in ECAL testbeam. 2005 – ECAL cosmics calibration, ECAL integration. Final electronics development, sensors installation. 2006 – CMS MTCC (integration with CMS DCS), ECAL cosmics/testbeam calibration, ECAL integration. Electronics production, installation in CMS cavern, tests. Scaling up the software for the final ECAL configuration. 2007 –Ready for operation, commissioning.

19. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 19 About the project and who helps us ETH Zurich IHEP Protvino VINCA&Univ. Belgrade Project Leader: Guenther Dissertori (ETHZ) Deputy Leader: Serguei Zelepoukine (IHEP) Teams: The biggest challenge: limited human resources (2-3 people full time at CERN). Great help from:JCOP team, CMS DCS team, ECAL Electronics Integration team; also ATLAS DCS team, CERN AT/ACR. Many thanks to wwweth.cern.ch/dcs/

20. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 20 Backup slides CMS ECAL DCS web page: http://wwweth.cern.ch/dcs/

21. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 21 DCS on duty – ECAL cosmic calibration 6.Oct.05 – H4: Primary water supply failure. ESS interlocks were generated to switch off HV/LV when cooling water temperature jumped over the limit. SMS/email messages were sent to responsibles. ESS PTM

22. CMS ECAL DCS 10.Oct.2005 - S.Zelepoukine ICALEPCS 2005 - CMS ECAL DCS 22 DCS on duty – ECAL cosmic calibration Water-out Water-in SM-05 Grid SM-05 thermal screen 7.Oct.05 – H4: Crystals and APDs temperature stability is about 0.02°C. 0.02°C Zoom