rpc system in the cms level-1 muon trigger · rpc in cms level-1 muon trigger brieuc francois 12...
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RPC System in the CMS Level-1Muon Trigger
Brieuc François1 on behalf ofthe CMS collaboration
RPC2020, Roma
1Hanyang University (Korea)
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2RPC in CMS Level-1 Muon Trigger Brieuc Francois
Content
➢ Why do we need a Muon Trigger?
➢ How do we design it in CMS?
➢ Before (run I)
➢ Now (run II and run III)
➢ What's next? (HL-LHC)
➢ How do we use the RPC system?
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3RPC in CMS Level-1 Muon Trigger Brieuc Francois
Introduction
➢ An important challenge when trying to improveour understanding of elementary particle physicsis to be able to study rare processes
➢ Rates can be orders of magnitude smaller than theinclusive pp interaction rate (Higgs ~ 1010 smaller)
➢ Can not afford recording every collision withcurrent technologies (bandwidth, storage andcomputing power)
➢ Way out: keep only potentially 'interesting' events
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4RPC in CMS Level-1 Muon Trigger Brieuc Francois
Introduction
➢ An important challenge when trying to improveour understanding of elementary particle physicsis to be able to study rare processes
➢ Rates can be orders of magnitude smaller than theinclusive pp interaction rate (Higgs ~ 1010 smaller)
➢ Can not afford recording every collision withcurrent technologies (bandwidth, storage andcomputing power)
➢ Way out: keep only potentially 'interesting' events
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5RPC in CMS Level-1 Muon Trigger Brieuc Francois
Introduction
Trigger
➢ An important challenge when trying to improveour understanding of elementary particle physicsis to be able to study rare processes
➢ Rates can be orders of magnitude smaller than theinclusive pp interaction rate (Higgs ~ 1010 smaller)
➢ Can not afford recording every collision withcurrent technologies (bandwidth, storage andcomputing power)
➢ Way out: keep only potentially 'interesting' events
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6RPC in CMS Level-1 Muon Trigger Brieuc Francois
Muons in Trigger
➢ Many interesting processes involve muons
➢ Higgs, SM Physics, BSM (e.g. 2HDM, HSCP), …
➢ Muons have a clean experimental signature
➢ Suitable candidate for triggering purposes!
➢ About ¾ of data analyses in CMS rely on muon(s)!
*
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CMS Level-1 Muon Trigger
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8RPC in CMS Level-1 Muon Trigger Brieuc Francois
CMS Trigger
CMS Trigger System is made of two components
➢ Level 1 Trigger (L1T)
➢ Rate reduced by a factor 400
➢ Decision taken in 3.6 μs
➢ Custom hardware
➢ Information from calorimeters and muon detectors
➢ High Level Trigger (HLT)
➢ Rate reduced by a factor 100
➢ Decision taken in hundreds of ms
➢ Commercial server farm
➢ Full detector information
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9RPC in CMS Level-1 Muon Trigger Brieuc Francois
CMS Trigger
CMS Trigger System is made of two components
➢ Level 1 Trigger (L1T)
➢ Rate reduced by a factor 400
➢ Decision taken in 3.6 μs
➢ Custom hardware
➢ Information from calorimeters and muon detectors
➢ High Level Trigger (HLT)
➢ Rate reduced by a factor 100
➢ Decision taken in hundreds of ms
➢ Commercial server farm
➢ Full detector information
This talk!
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10RPC in CMS Level-1 Muon Trigger Brieuc Francois
CMS Muon System
Two RPC layersin the first twobarrel stations(MB1 and MB2)
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11RPC in CMS Level-1 Muon Trigger Brieuc Francois
Level-1 Muon Trigger Architecture
Muon Trigger
➢ Uses Trigger Primitives (TP) fromdifferent sub-detectors to identifytracks associated to muons andevaluate their transversemomentum
Legacy Trigger architecture used inRun I ('Phase-0 Trigger')
➢ Trigger primitives built in a totallyfactorized way
➢ Muon Track Finders (MTF) almostcompletely independent for thethree muon sub-systems
Run I muon trigger architecture
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12RPC in CMS Level-1 Muon Trigger Brieuc Francois
Level-1 Muon Trigger Architecture
Reorganization of the muon trigger architecture from sub-system based to geometrybased for run II (current trigger architecture)
➢ Information from different sub-systems is available together at earlier stage in thetrigger chain
➢ Increased redundancy➢ Allows to use detectors complementarity at earlier stage to build better trigger
primitives Run II muon trigger architecture
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13RPC in CMS Level-1 Muon Trigger Brieuc Francois
RPC + DT (run II)
➢ RPC + DT 'SuperPrimitives'➢ Makes the best out of DT spatial resolution and RPC time resolution (complementarity)
➢ RPC is used to assign the bunch-crossing of DT segments's without 8 fired layers➢ TP efficiency increases by 1.4 %
➢ In case of DT chamber inefficiency in MB1 and MB2, build RPC-only segment (redundancy)➢ TP efficiency increases by ~4%
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14RPC in CMS Level-1 Muon Trigger Brieuc Francois
RPC in OMTF (run II)
➢ RPC is a key player in the complicated Overlapregion (0.8 < |η| < 1.2)
➢ RPC system is present both in the barrel and theendcap → provides 8 measurements in this region
➢ 95(80)% efficient with(without) using the RPCsystem
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15RPC in CMS Level-1 Muon Trigger Brieuc Francois
Run II Muon Trigger Performances
➢ Run II muon trigger has up to factor 5reduced rate compared to the legacytrigger
➢ Keeping same efficiency
➢ Due to many factors (mergingdetector information earlier, usage ofmore advanced algorithms, …)
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Phase II (HL-LHC) Muon Trigger Upgrade
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17RPC in CMS Level-1 Muon Trigger Brieuc Francois
Phase II Level-1 Trigger
Key aspects of the L1Trigger Upgrade
➢ 100 → 750 kHz rate to HLT
➢ 3.6 → 12.5 μs latency
➢ Refactored architecture
➢ Merging sub-detectors informationeven earlier (DT and RPC hits available in the same boards)
➢ Increased bandwidth
➢ Availability of tracking information
Run II
HL-LHC(barrel)
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18RPC in CMS Level-1 Muon Trigger Brieuc Francois
RPC Phase II Upgrade
RPC Phase II Upgrade
➢ Link System
➢ Increased readoutfrequency (every 25 ns →1.56 ns)
➢ Improved RPC (iRPC)
➢ Extended η coverage withnew RE3/1 and 4/1chambers
➢ 2D readout → hit positionalong the strip (~ 2 cmresolution)
➢ Improved intrinsic timeresolution (thinner gaps) +modern electronics
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19RPC in CMS Level-1 Muon Trigger Brieuc Francois
Phase II Barrel TP efficiency
➢ Barrel Muon TP Efficiency
➢ Shown with/without RPC+DTcombination, with/without DT ageingand RPC failures
➢ DT ageing: efficiency loss due tointegrated dose at the end of Phase II
➢ RPC failures: switching off chambers(end of Phase II extrapolation offailures based on run I and run IIexperience)
➢ Even at the end of Phase II, barrelTP efficiency stays within 92-99%with the use of RPC (up to 23%efficiency gain)
*
* AM and HB refers to different DT TP algorithms, only AM has RPC included
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20RPC in CMS Level-1 Muon Trigger Brieuc Francois
Phase II Timing Performances
➢ RPC timing usage in Level-1 Trigger: Reduce out of time pile-up + New trigger path basedon time of flight (more details in next slide)
➢ Time resolution➢ Barrel (left): RPC improves TP time resolution by ~15(30)% without(with) DT aging
➢ Endcap (right): RPC is the only muon detector providing timing with more granularity than abunch-crossing – iRPC simulation does not incorporate last electronic developments
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21RPC in CMS Level-1 Muon Trigger Brieuc Francois
RPC in Phase II MTF's
➢ iRPC extended |η| coverage importantly increasesforward muon efficiency when asking for 4 firedstations
➢ Heavy Stable Charged Particle (look like muons thatmove slowly)
➢ (i)RPC time information can be used to build a newtrigger path based on time of flight
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22RPC in CMS Level-1 Muon Trigger Brieuc Francois
Future plans
➢ Yet some room for improvement!
➢ Reduce CSC TP fake rate with iRPC 2D measurement
➢ CSC 'double 1D' measurement leads to ghost hits when two real hits occur in thesame chamber
➢ Use RPC even earlier in the barrel TP building
➢ Instead of acting on DT built segment, use RPC time to build them➢ Use RPC timing to reject out of time hits in other sub-sytems
➢ Improve RPC timing: Use DT η measurement to remove smearing coming fromunknown signal propagation along the strip
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23RPC in CMS Level-1 Muon Trigger Brieuc Francois
Conclusions
➢ Level-1 Muon Trigger is crucial for the CMS physics program and significantly relieson the RPC System
➢ Exploits the redundancy and complementarity of the different muon sub-systems
➢ Merging sub-detector information at earlier stage results in increased performance
➢ Even with end of Phase II detector ageing/failures the muon trigger primitiveefficiency remains well above 90% everywhere
➢ Phase II Upgrade brings new possibilities for RPC contribution to Level-1 Trigger
➢ Increased synergies with other muon sub-systems to build more robust TP
➢ Increased trigger efficiency in forward region thanks to iRPC
➢ Extended physics program thanks to the improved timing (HSCP)
➢ Many new ideas will be studied
➢ Stay tuned!
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Thank you!
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Additional material
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26RPC in CMS Level-1 Muon Trigger Brieuc Francois
Muon System (including upgrade)
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27RPC in CMS Level-1 Muon Trigger Brieuc Francois
Muon Track Finders
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28RPC in CMS Level-1 Muon Trigger Brieuc Francois
Barrel Architecture
➢ Barrel muon TP architecture
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29RPC in CMS Level-1 Muon Trigger Brieuc Francois
Endcap Architecture
➢ Endcap muon TP architecture
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30RPC in CMS Level-1 Muon Trigger Brieuc Francois
RPC contribution (Phase I)
➢ RPC contributes to the three Level-1Muon Track Finders differently
➢ BMTF (|η| < 0.83): assign bunch crossingof low quality DT segments + build RPConly segments in MB1 and MB2 in caseof DT segment absence
➢ OMTF (0.83 < |η| < 1.24): the 8 RPCchambers (5 in barrel, 3 in end-cap) areused for position information
➢ EMTF (|η| > 1.24): RPC hits are used incase of CSC segment absence
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31RPC in CMS Level-1 Muon Trigger Brieuc Francois
Muon System Performances
➢ Single hit spatial resolution (φ measurements) – depends on chamber, type of hit, etc
➢ DT: Order of hundreds of μm's
➢ CSC: Order of hundred of μm
➢ RPC: Order of cm
➢ Timing information available at L1 (run II)
➢ Bunch crossing granularity
➢ Efficiency
➢ ~93-96% for all muon detectors at L1
DT (L1)RPC endcap(offline)
CSC (L1)
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32RPC in CMS Level-1 Muon Trigger Brieuc Francois
Muon System Performances
➢ Efficiency
Barrel
End-cap
DT (L1)
RPC (offline)
CSC (L1)
RPC (offline)
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33RPC in CMS Level-1 Muon Trigger Brieuc Francois
Phase I Muon Trigger Performances
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34RPC in CMS Level-1 Muon Trigger Brieuc Francois
RPC Phase II Trigger Primitives
Impact of the RPC Upgrade on its Trigger Primitives (TP)
➢ RPC TP are clusters of hits
➢ TP position defined as the cluster center
➢ TP resolution
➢ Driven by the strip pitch O(cm) and cluster size
➢ Expect improvement both from position along thestrip and better timing
➢ TP purity
➢ Prompt muon time arrival is known,background time arrival is uniformly distributed
➢ Can expect background reductionthanks to better time resolution
one cluster with current time resolution
two single hits thanks to O(ns) resolution
muon hit at t0
other hit at t0+10ns
one cluster in current RPC
two single hits in iRPC thanks to measurement along the strip
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35RPC in CMS Level-1 Muon Trigger Brieuc Francois
RPC combined to other TP
Possibilities offered by a new L1T architecture
➢ Build DT segments already using RPCinformation
➢ Build CSC segment already using RPCinformation
➢ Could resolve ambiguities when two muons crossthe same chamber
Sends also unmatchedRPC clusters
Phase I Phase IIproposal