1 fgasparini INFN roma 30/3/2006 STATO BARREL MU: DT & RPC Costruzione e installazione fgasparini SW,commissining e analisi ugasparini Elettronica e Cosmic.

Presentazione sul tema: "1 fgasparini INFN roma 30/3/2006 STATO BARREL MU: DT & RPC Costruzione e installazione fgasparini SW,commissining e analisi ugasparini Elettronica e Cosmic."— Transcript della presentazione:

1 1 fgasparini INFN roma 30/3/2006 STATO BARREL MU: DT & RPC Costruzione e installazione fgasparini SW,commissining e analisi ugasparini Elettronica e Cosmic challenge mdallavalle fgasparini Roma 4/4/06 SOMMARIO DT: HVB e il ritardato avvio di Torino e della produzione dei MC non hanno introdotto ritardi che si siano ripercossi su sequenza e tempi di installazione. Tutte le finestre di installazione disponibili sono state utilizzate. Commissioning e test di settore (vedi Ugo e Marco) senza problemi. Notevole mobilitazione di personale. Elementi critici per installazione dopo Mag.Test: -Certificazione camere agli ISR (dipende da DT) -Disponibilita’ dei cavi (solo parzialmente dip. da DT) -Disponbilita’ di personale

2 2 TORINO Torino rate 6 SL/month Stato 14/3/2006 fgasparini INFN roma 30/3/2006 24 installate Inst. 22 203/250 Minicrates al CERN al feb 6/06 135 installati fine prod. Maggio/Giugno 152 da Giu a Feb = 17/ mese ( 6 in Agosto) 18/mese escludendo Agosto 18,5/mese da ottobre a fine anno (nom. 12~16) Produzione nuove HVB finita in Settembre. Sostituzione agli ISR completata Assemblaggio DT finito in tutti I siti (To in Maggio) : ultime camere (Aachen 8,LNL 5,To 8) attese al CERN a meta’ maggio. MINICRATES

3 3 YB+1 is complete 42 stations DT+RPC installed YB+2 has 40 stations installed,feet chambers missing ( A. Benvenuti, M, Benettoni,A Colaleo, A. Clemente and crew ) All DT commissioned before Xmas (with MCrates) (E.Conti.M.Zanetti,K.Hoepfner +…) 31 DT tested after cabling in YB+1 : only one problem (a disconnected pin ) (3/4/06) fgasparini INFN roma 30/3/2006 12 MB4 To. INSTALLAZIONE E COMMISSIONING DI DT+RPC Sector commissioning

4 4 51 DT+RPC (10 MB4 To) (+ 2 feet ch. in YB+1) installed before Mag.Test fgasparini INFN roma 30/3/2006 YB0 chambers commissioning before Mag. Test. 3 sectors commissioned up to now : no problem (3/4/06) Installation in YB0Test for Inst. In UX 4 ch./day 2 ch/day in the cavern (31 ch)

5 5 SX 5 Thursday March 2 nd fgasparini INFN roma 30/3/2006 Festa in SX5 per 135 DT+ RPC installati, (115 da installare) fgasparini INFN roma 30/3/2006

6 6 AB 14/3/06 AB 14/3/06 115 DT+RPC

7 7 fgasparini INFN roma 30/3/2006 AB 14/3/06 15 Might be mid august

8 8 Una serie di azioni e’ stata intrapresa ad inizio anno per far fronte a questo piano di installazione Tutta l’attivita’ e’ stata divisa in 12 settori,con uno o piu’ responsabili/settore Settori critici sono stati rinforzati,con immissione di personale e/o nuovi strumenti ELEMENTI CRITICI >> trasp. seguenti Local tech.board DT+RPC+Align AB chair

9 9 Jesus Puerta Pelayo March CMS Week CERTIFICAZIONE DT AGLI ISR fgasparini INFN roma 30/3/2006 The main source of uncertainties is the identification of HV problems (chambers are “new” after HVB replacement). Some of them appear after a long time under HV, some cannot be cured by simple replacement, some are due to single Cells hence very difficult to localize. HV test and Cosmic test must be repeated after any intervention. There are ideas and actions to improve the procedure………….. AZIONI INTRAPRESE: Cordero da Torino a tempo pieno a ISR, rinforzo del team di tecnici a rotazione (da inizio Marzo)

10 10 Amedeo 7800 3600 Other forks achen CERN = done AZIONI INTRAPRESE: Motorizzazione di culle di inst. Extra telai di trasporto Extra elementi di fissaggio culle. Piu’ persone per installazione fgasparini INFN roma 30/3/2006 TORINO CERN (20?) STRUMENTI PER RIDURRE I TEMPI DI INSTALLAZIONE DT+RPC TORINO ABenvenuti

11 11 YB0, YB-1 and YB-2 A lot of missing items needed to finalize cutting lengths YB-1 and YB-2 –Peripheral paths are almost the same as in the positive wheels. No major work is required there. I can adapt what I already done for positive wheels. –Radial layouts (ZmL and ZmR) has still to be designed and verified YB0 –it is not yet defined from the point of view of peripheral paths. D. Dattola is working on this subject. –also radial layout ZmL and ZmR are needed Also there are many other urgent work pending –Cables in the chains :PRR, procurement, cutting lengths –cable chain patch panels –racks layout update (LV/RPC/ALIGN requested changes in the last months) –Detailed design of each single rack with cables.... AZIONI INTRAPRESE: in collaborazione con RPC rinforzato il team Dattola/Montecassiano (Colonna (RPC), Abajiev(RPC), + disegnatori Pd e Na, P.Checchia resp. per cablaggio nei racks e balconate) fgasparini INFN roma 30/3/2006 DT +RPC : Integrazione YB0, cavi, cablaggi Montecassiano/Dattola

12 12 Personale per installazione/cablaggi/commissioning (DT) fgasparini INFN roma 30/3/2006 (Crew= physicists for commissioning and MC test after cabling)

13 13 Sblocchi SJ richiesti su CA Bologna 40 KE ( new HVB >>> hired mp) (Accordo di compensazione con la Germania) Padova 20 KE (cavi) 32 KE (crate& ctr >>> cavi + fibre+ connettori + montaggio) (accordo con Spagna) fgasparini INFN roma 30/3/2006 NO EXTRACOSTI CORE (salvo sorprese) Maggiori,non drammatiche,spese per tools e hired manpower ( M&O B ) Missioni estere insufficienti : a settembre sblocco SJ + …………….)

14 14 1. RO/trigger electronics Global view --responsibilities DT front end Barrel DT Track Finder WedgeSorter Barrel Sorter GLOBAL MUON TRIGGER Detector in UXC55 Counting room in USC55 LVDS copper link Opto link Towers in UXC55 DT station (minicrate) CCBCCB Trigger Boards ReadOut Boards Sector Collector ROS Server Board Link Board DDUDDU FEB Padova TRB Padova,Bologna ROB Ciemat SB Bologna LB,CCB Padova LVDS link Bologna DCS,TTC link Padova Trig SC Bologna ROS Ciemat Optolink Bologna DDU Torino DTTF Vienna WS Bologna BSBologna M Dallavalle

15 15 4. trig Sector Collector board trig Sector Collector opto-rx Slow control Master: Final prototype ready Crates and Controllers 1 procured for the magnet test VME controllers First prototype working Must be tested for radiation tolerance PHTF-ETTF-WS-BS integration test SBS Wedge Sorter ETTF PHTF TIM Barrel Sorter

16 16 5. DDU (FED) Final system: 1 VME 64x crate with 5 boards (1 per DT wheel) G.Dellacasa, V.Monaco INFN-Torino 29/3/2006 1 pre-production board has been debugged in the previous months. The DDU functionalities required for the Magnet Test have been tested The DDU board is now (mid March) in Legnaro to be integrated with the DT DAQ. It will be moved to CERN in the first half of April for the preparation of the Magnet Test. in order to validate the design and start the final production (5 DDU boards+spares) Inst/Commission Trigger crates Apr. 06- Sept. 06 Integrate detector electronics May 06- Oct 06 Integrate Central Trig.&DAQ Oct. 06 – Mar. 07 System commissioning Apr. 07- Aug. 07 Ready for Data Aug. 07 TRIGGER INSTALLATION SCHEDULE

17 17 9. Production-installation-commissioning (production after validation in the Mag.Test Cosmic Challenge BoardsQ.ty (+ spares)Prod startProd End Opto Tx piggy60 (15)Mar Q1 – 2006Jun Q1 – 2006 Opto Rx board96 (24)Apr Q1 – 2006Aug Q1 – 2006 LVDS Rx 2 ch piggy200 (30)Mar Q1 – 2006Jun Q1 – 2006 Mother board60 (15)Apr Q1 – 2006Aug Q1 – 2006 LVDS Rx 4 ch piggy10 (8)May Q1 – 2006Oct Q1 - 2006 Production Critical items: Trigger sector collector : ~8 months from start ROS25 : ~6 months from start (CIEMAT) DCS production Schedule UXC55 fibres and cables: –Cut and connectorize as soon as cutting lengths become available USC55 fibres (slow control + TTC) –Finalized during Q4-05 Slow control Master: Production to be started in April-06 VME controllers 2nd prototype ready in April-06 Radiation test in June-06 Production launched in June/July -06

18 18 MTCC workplan -- LNL-tests Inst/Commission Trigger crates Apr. 06- Sept. 06 Integrate detector electronics May 06- Oct 06 Integrate Central Trig.&DAQ Oct. 06 – Mar. 07 System commissioning Apr. 07- Aug. 07 Ready for Data Aug. 07 TRIGGER INSTALLATION SCHEDULE

19 19 DT MTCC project ramp-up in steps: Sector Commissioning goal: autotrigger on one chamber and acquire data from 4 chambers, DAQ synchronisation, first look at cosmics traversing a sector Sector Test –local mode goal: final tower electronics, local autotrigger logic with 4(5) chambers, read ROS25 with local DAQ (no FED) Sector Test –regional mode \ goal: provide trigger to CMS, integrate regional trigger, use final TTC system Sector Test goal: cosmics trigger with three sectors FED Integration goal: data flow from ROS through DDU to global DAQ Sector commissioning Two sectors M DallaValle

20 20 - Il software generale di simulazione/ricostruzione/analisi di CMS e’ nel mezzo di una fase di transizione al nuovo Framework (CMSSW) Stato del software - Come per gli altri sub-detectors, e’ in corso il “porting” del codice ObjectOriented di simulazione (OSCAR, basato su Geant4) e ricostruzione (ORCA), - il porting delle varie componenti e’ prevista per l’ analisi dei dati del “Magnet test/cosmic challenge” (Maggio-Luglio 2006) U Gasparini [ slides/materiale dal DT sw group: - F.Cavallo (Bologna) - A.Meneguzzo, S.Lacaprara, P.Ronchese, M.Zanetti ( Padova) - N.Amapane, R.Bellan, G.Cerminara (Torino)]

21 21 Muon DT Software Esempio: - analisi dati del primo “test di settore” compiuto con 4 camere nel Dicembre 2005 (auto-trigger dato da MB3 )  Evento ricostruito in CMSSW e visualizzato dal pacchetto grafico di CMS (IGUANA) r-  view r-z view MB3

22 22 DT clients for DQM application Developed in CMSSW: - Digi client - TestPulse client - Data integrity DT software: Data Quality Monitoring La parte piu’ avanzata riguarda il DQM degli oggetti di ‘basso livello’ (raw data/digi), gia’ attualmente inserita nel software generale e utilizzata nel commissioning delle camere con i cosmici Oggetti di ‘alto livello’ (tracce…)per l’ analisi delle prestazioni del rivelatore sono tuttora in costruzione…

23 23 Sono stati analizzati i dati di cosmici relativi a 82 camere installate (42 Wheel+1, 40 Wheel +2) commissionate (delle 134 installate in CMS): Analisi dati del “DT commissioning” Effic. per cella Celle morte (10 MB1 ruota +1) 18/6500 ~ 0,27 % 99,9% 2 SL1 SL2 SL3

24 24 mm  =540  m  =230  m Con una correzione temporale off-line evento per evento (il tempo dei MU e’ casualei…e l’elettr. funziona a 40 MHz) si ottiene una risoluzione spaziale, mediata su tutta la camera e su tutti gli angoli di 230 ~ 280 micron (il valore nom.e’ 250) compatibile con quella osservata nei testbeam ( ~ 200  m ) (Mu sincroni, localizzati & ad alto momento) Hit residuals: no  t 0 correction t 0 correction applied

25 25 MB1 MB2 <>=-124  14  m <>=568  12  m <>=-0.1  0.1 mrad <>=0.4  0.1 mrad Extrapolations of segments built in single SL’s: -Sensitive to displacements between SL’s - depend also on internal mis- alignments between single layers “Internal geometry”

26 26 Slope Difference, R-  view: MB1 vs MB2 MB3 vs MB4 MB2 vs MB3 <>=0.2  0.1 mrad <>=0.7  0.1 mrad <>=2.4  0.1 mrad 1-21-2 Analisi del primo “sector test”

27 27 Selection: -MB3 auto-trigger (HH+HL); - 1 clean track reconstructed in both r-phi & r-z views in MB3, predicted to be inside MB1 (MB2) geometrical acceptance Nhits>5 Nhits  3 MB1 MB2 Track reconstruction efficiency

28 28 MB1  MB2/SL  1 MB1 MB2 <>=-1210  30  m <>=-1360  40  m <>=-1260  40  m <>=-1240  30  m Sector test: extrapolation to individual layers

29 29 Sommario Il Software del DT detector e’ in continuo sviluppo; sostanzialmente “on track” per l’analisi del rivelatore nel test col magnete e l’ integrazione nel sw generale di CSM L’ analisi dei dati del Commissioning delle camere e la ricostruzione (parziale) nei primi test di settore mostrano risultati sulle prestazioni compatibili con le attese e notevoli potenzialita’ per la comprensione dettagliata del comportamento del rivelatore nel suo complesso (utili anche in vista della comprensione del comportamento in campo magnetico, (prima e unica possibilita’durante il Mag.Test.) La preparazione per il Cosmic Challenge e’ a buon punto

30 30 SG & DG Production Roma 30/3/2006, meeting with INFN referees CMS Barrel RPC About 3000 Single gaps built: production ended 1080 DG produced  ~ 60 DG more, end production April-May 06 420 Chamber produced  : 60 chamber more, end production June 06 1080 DG produced  ~ 60 DG more, end production April-May 06 420 Chamber produced  : 60 chamber more, end production June 06 Chamber construction Double gap Chamber Total lot 480

31 31 ISR storage and test area Long term test/coupling Roma 30/3/2006, meeting with INFN referees CMS Barrel RPC Detector control Gas leak Gas input overpressure test Threshold setting and reading Current vs HV Long stability test (15-20 days @ 9200 V) Performance 15 chambers can be tested at same time Single rate (hits count.) vs. HV Noise rate (cluster count.) vs. HV Cluster size vs. HV Detector control Gas leak Gas input overpressure test Threshold setting and reading Current vs HV Long stability test (15-20 days @ 9200 V) Performance 15 chambers can be tested at same time Single rate (hits count.) vs. HV Noise rate (cluster count.) vs. HV Cluster size vs. HV 117 chambers now at ISR. 254 installed DT-RPC coupling. The following functionality tests are performed: gas leak, HV integrity, threshold setting/reading/ strips connectivity. The cooling circuit (RPC, DT FE, MC) is checked at 20 bar overpressure. After DT+RPC COUPLING

32 32 Commissioning Activities Commissioning the final gas distributor Gas line equalization Each CMS gas line supplies in parallel 2 chambers in same station. Very important to equalize the gas flow between the chambers Gas mixture monitoring and HV interlock system Commissioning the final gas distributor Gas line equalization Each CMS gas line supplies in parallel 2 chambers in same station. Very important to equalize the gas flow between the chambers Gas mixture monitoring and HV interlock system Roma 30/3/2006, meeting with INFN referees CMS Barrel RPC HV/LV test Noise Current stability for 48 hours HV/LV test Noise Current stability for 48 hours Sector test In SX5

33 33 Commissioning Current stability and noise Roma 30/3/2006, meeting with INFN referees CMS Barrel RPC HV 9200 V Hz/strip Strip = 420 cm 2 Current Noise/strip HV 9200 V Ordinata: micro amp/2 gaps/ Ascissa 48 ore. Limiti di rigetto 5 micro. Richiesta di stabilita della corrente 100/420 cm2=0,25 Hz/cm2 Limite qualche Hz/cm2

34 34 Cabling Roma 30/3/2006, meeting with INFN referees CMS Barrel RPC Status Cables on the detector –trigger cables 4720 (average length 15 mt, total length 75 km) –HV cables 480 (total length 10 km) –LV cables 360 (total length 7 km) –DCS cables 420 (total length 8 km) Cables between detector and counting room –Long HV cables 60 (total length 6 km) –LV controls about 20 (total length 2 km)

35 35 HV/LV/DCS Status Roma 30/3/2006, meeting with INFN referees CMS Barrel RPC 10% boards, 50% crates available Total 60 boards A3512, 14 EASY crates HV cables in production System for cosmic challenge ready at 904 25% board, 50% crates available Total: 60 boards + 20 EASY crates LV cable in production System for Cosmic Challenge in test at building 904 HV LV

36 36 HV/LV/DCS DCS/Monitoring Roma 30/3/2006, meeting with INFN referees CMS Barrel RPC Control and monitoring of HV-LV systemOK Control and monitoring of gas system, cooling, temperature in progress Front-end configuration (threshold and width) ex-warsaw in progress Detector monitoring ( current, HV) OK Detector monitoring (noise, occupancy…) ex-warsaw in progress Integration with CMS DCSOK Integration with Run Control to be started Gas monitoring planned Gas system monitoring Control and monitoring of the for mixture analysis devices ( gas- chromatograph Control, monitoring and read-out of the gas calibration system

37 37 Technical trigger Introduction Roma 30/3/2006, meeting with INFN referees CMS Barrel RPC Goal of this project is to produce an RPC-based cosmic ray trigger for the Commissioning of RPCs, the Cosmic Challenge and later running of CMS as Technical Trigger Local trigger (RBC): based on 1 Sector, will be used to test RPCs (and DTs) during Commissioning and Cosmic Challenge Global trigger (RBC + TTU): based on the whole Barrel, will be used during the off-beam periods for the detector calibration LBBox RBC LBBox RBC LBBox RBC LBBox RBC LBBox RBC LBBox RBC LBBox UXC area Barrel Wheel USC area TTU 6 Fibers/wheel Fiber GLOBAL TRIGGER RBC (RPC Balcony Collector) Technical Trigger Unit TTU

38 38 Technical trigger Status Roma 30/3/2006, meeting with INFN referees CMS Barrel RPC The RBC is housed in the Link Board Boxes around the detector and produces 2 Sector Triggers, making coincidences among OR signals of 96 strips (half RPC) received by the Link Boards 3 prototypes of RBC were produced last autumn and recently tested. They are ready to be used during the Cosmic Challenge The Technical Trigger will be implemented in the Technical Trigger Unit (TTU), housed in the Trigger Crate in Counting Room It will receive the ORs from 1 Barrel Wheel and find cosmic patterns, providing Wheel-level Trigger These features can be exploited by the Trigger Board (Warsaw), loading the cosmic patterns in the Pattern Comparator RBC + TTU

39 39 Gas system Commissioning the gas system at SX5 Wheels +2 and +1 completed Currently working on: –Flux entire wheels +2 and +1 (need careful equalization at the channel level) –Set up of wheel 0 distributor rack Check flow cells (found sometimes mis- calibrated,CERN responsibility) Sectors under flux (and test) for 3-4 days each Monitoring of the gas mixture Mass flow-meters read out by ADC + T and RH probe Interface with the HV kill system Roma 30/3/2006, meeting with INFN referees CMS Barrel RPC

40 40 Gas system Design of the gas quality monitoring system µGC F- specific electr. pH-meter HPLC General purpose sampling point 2 lines (up. and lw. part) × Wheel (or Endcap) on the output … multiplexed In addition, T and RH sensors on the input lines and close to some RPCs Roma 30/3/2006, meeting with INFN referees CMS Barrel RPC µGC F- specific electr. pH-meter HPLC General purpose sampling point In addition, T and RH sensors on the input lines and close to some RPCs µG Cromatog. F- specific electr. pH-meter HPLC General purpose sampling point In addition, T and RH sensors on the input lines and close to some RPCs

41 41 Gas system Design of the gas calibration system Roma 30/3/2006, meeting with INFN referees CMS Barrel RPC Very similar to the DT gas control made by small drift chambers(Aachen)

42 42 Organization and manpower Manpower Roma 30/3/2006, meeting with INFN referees CMS Barrel RPC Production 2 physicist + 2 technicians at Bari* 1 physicist + 1 technicians at Pavia 1 physicist + 1 technician at GT * 1 physicist funded with FAI 1 technician funded with ex 2222 Certification ISR 4fte 2 physicist + 2 technicians 2 physicist funded by CERN Installation 1fte 1 physicist + 2 technicians Commissioning gas 0,5 fte 2 physicist Commissioning detector 2 sect/week 2 fte 2 physicist + 2 technicians 1 physicist funded with FAI Cabling 2,5 fte 1 physicist + 1 technician 2 engineers HV/LV/DCS 1 fte 3 physicist + 1 technician 11 fte tot. for inst./commiss

43 43 Conclusion RPC Manpower Roma 30/3/2006, meeting with INFN referees CMS Barrel RPC 1.Production end by June 2006 2.ISR test and Installation on schedule (254 RPC) (4+1 FTE) 3.Commissioning without relevant problems (2 FTE) 4.Big effort on Cabling (new people from Frascati) (2.5 FTE) 5.HV-LV in production (20% under test blg 904) (0.5 FTE) 6.DCS ready for Cosmic Challenge (0.5 FTE) 7.Gas system: 3 wheels are ready (CERN resp.) But need a permanent overview from RPC side (0.5 FTE) Gas monitoring system under design (Frascati) 8.Technical trigger ready for MTCC 9.11 FTE needed for Installation/Commissioning/Cabling..ONLY NOT INCLUDED: Cosmic Challenge, Control Room inst., Trigger, DAQ and DCS Integration and commissioning, Underground work (since sept 06)..etc etc