Machine - Experiments Data Exchange Detlef Swoboda.

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Presentation transcript:

Machine - Experiments Data Exchange Detlef Swoboda

11 June 2007Detlef Swoboda / Leade2 Support-LEADE web-page

11 June 2007Detlef Swoboda / Leade3 GMT Limit of Supply 1. AB-CO takes responsibility for the installation and maintenance of the GMT distribution for the 4 LHC experiments. Each of these 4 installations will consist of: 1 3U timing reception and fan-our crate 1 VME 21 slot crate 1 PowerPC single Board Computer n x CTR-P or V timing modules, depending on the number of H/W trigger signals the experiments will need Total cost estimate per experiment is about 20 KCHF. 2. Concerning the practical GMT installation work:  Each experiment should send to the AB-CO-FE (M. vanden Eynden) the date at which GMT should be made available, along with a list of the first timing triggers they want to receive (in order for us to know how many CTR-V to install). The AB-CO-FE will then proceed with the GMT infrastructure installation  GMT trigger signals have to be declared in the GMT system (in order to activate the CTR-X outputs). Experiments are invited to contact AB-CO-HT (J.Serrano) in order to define these triggers in the GMT system.  AB-CO responsibility and diagnostic tools stop at the front panel of CTR-x modules.  The local cabling and signal integrity between the CTR-x modules and the experiments electronics remains under their responsibility.  In case experiments would need dedicated timing receiver modules (CTR-x) inside their crates (for decoding of GMT telegram for example), CO would charge them 1000 CHF/each. Conclusion of meeting 14 May 2007: AB-CO provides full system free of charge including maintenance and piquet.

11 June 2007Detlef Swoboda / Leade4 Machine to experiments  MeasurementDIP item name Publication contact Data contact Volum e Bytes Freq Estimated availability Total beam intensity dip/ACC/Class/Property/DeviceK. KostroAB/BI81 secJan 2007 Individual bunch intensities dip/ACC/Class/Property/DeviceK. KostroAB/BI minJan 2007 Average 2D beam size dipACC/Class/Property/DeviceK. KostroAB/BI11 sec Average bunch length dip/ACC/Class/Property/DeviceK. KostroAB/RF81 min Luminositydip/ACC/Class/Property/DeviceK. KostroAB/BI sec Average Beam Loss dip/ACC/Class/Property/DeviceK. KostroAB/BI1610 sec HOR & VER Positions dip/ACC/Class/Property/DeviceK. KostroAB/BI1281 sec Total longitudinal distribution obsolete

11 June 2007Detlef Swoboda / Leade5 Handshakes between Experiments and CCC SignalClientPublisher Adjust-RequestExperiment DCSCCC Ready-For-Adjust CERN Control Centre (CCC)Experiment DCS Beam-Dump-RequestExperiment DCSCCC Ready-For-Beam-Dump CERN Control Centre (CCC)Experiment DCS Inject Inhibit / Permit Injection Interlock systemExperiment DCS

11 June 2007Detlef Swoboda / Leade6 Architecture of the LHC B I S

11 June 2007Detlef Swoboda / Leade7 CIBU User Permit

11 June 2007Detlef Swoboda / Leade8 CMS BCM signal transmission system BCM XP rack Equiv. BLM RO chain

11 June 2007Detlef Swoboda / Leade9 Trigger Timing & Control (TTC)  The TTC system was designed for LHC experiments and provides for the distribution of synchronous timing, level-1 trigger, and individually addressed control signals, to electronics controllers with the appropriate phase relative to the LHC bunch structure, taking account of the different delays due to particle time-of-flight and signal propagation.  Within each trigger distribution zone, the signals can be broadcasted from a single laser source to several hundred destinations over a passive network composed of a hierarchy of optical tree couplers.  Limit of Supply and Planning  The optical fibres carrying the TTC clock and orbit signals arrive in the dedicated Experiment rack at an optical patch- panel.  Experiments must specify their needs for RF2TTC modules.  TTC group will provide a rented VME crate (from the CERN Electronics Pool) for the TTC interface modules.  Modules are equipped with diagnostics and PH will make these diagnostics "readable" by AB/OP and AB/RF.  Status: Rx/Tx-modules (A & D) validated by AB/RF Production Apr07 RF2TTC proto-module under test (Dec 06) Production Feb07  C library under development 1Q07  Central system installation in summer  The transmission can then be commissioned in Sept  Pending cabling will be terminated by end Sep  Link Point 8  CCC (cable 288) requires CE (trenches) planned for August  Fibres to be blown :  Atlas soufflage d'une fibre surface SR1 –experience  Alice SOUFFLAGE d une fibre surface Sr2 - experience  CMS soufflage d une fibre US45-UJ56 + sr5-USC55  CCR : soufflage fibre rack TTC- rack fibres (telecom room  2° LHC-B coté experience tout est prêt,  Selon le planing du soutraitant et des autres activités de notre section Le reseau de distribution des signaux TTC BST devra être installé entre les semaines 41 et 42.

11 June 2007Detlef Swoboda / Leade10 Cabling Status (JC Guillaume) AreaCabling Status Point 11) Câblage BPTX: Terminé. 2) Câblage Timing et BIC: Câbles tirés, raccordements et tests en cours. / En principe, fini fin mars. Point 21) Câblage ZDC détecteurs câbles CK50: UA27: Tirage terminé.Connectique à faire / finie fin avril UA23: Tirage en cours. Connectique à faire / finie fin avril 2) Câblage ZDC Ctrl: UA27: Tirage terminé. Connectique à faire / finie mi-avril. UA23: Tirage en cours. Connectique à faire / Finie fin avril. 3) Câblage BPTX: UA27: Tirage terminé. Connectique à faire. / finie fin avril UA23: Tirage terminé. Connectique à faire. / finie fin avril. 4) Câblage timing et BIC: Câbles tirés; connectique à faire. / finie fin avril. Point 51) Câblage BPTX: Fait par TS-LEA 2) Câblage timing et BIC: Câbles tirés; connectique en cours. / finie fin avril. Point 81) Tous les câbles demandés ont été tirés et testés.

11 June 2007Detlef Swoboda / Leade11 Conclusions  The implementation of calculating rates and luminosity per bunch is still under discussion but needs to be finalized in the near future.  H/W interlock with machine is important issue.  Experiment protection WS on 12 June 2007  Cabling between instrumentation and experiment areas is progressing satisfactorily.  Testing and commissioning needs to be organized.