15-Apr-15 Muon HLT Meeting C. Diez L2 Muon Trigger Status Report: L2 seeding study B. de la Cruz, C. Diez (CIEMAT, Madrid) Muon HLT Meeting 17th April,

Slides:

Advertisements

Similar presentations

Giuseppe Roselli (CMS-RPC) Università degli Studi di Bari – INFN RPC Efficiency with Track Reconstruction Giuseppe Roselli.

Advertisements

SiD PFA Status and Calorimeter Performance Ron Cassell (SLAC) SiD Design Study Meeting 11/15/08.

Cocktail algorithm studies Carmen Diez Pardos Silvia Goy López CIEMAT Madrid Muon POG 07/04/2011 1C. Diez Pardos.

PDCMSSW - Luca Perrozzi1 Looking for… Punch throughs… Looking for… Punch throughs…

TRACK DICTIONARY (UPDATE) RESOLUTION, EFFICIENCY AND L – R AMBIGUITY SOLUTION Claudio Chiri MEG meeting, 21 Jan 2004.

Trigger validation Ricardo Goncalo, RHUL Physics Validation - 14 September 2007.

Calibration for different trigger sources (DT,CSC,RPC) S.Bolognesi for the Torino group (with a big help from M. Dalla Valle) DT Cosmic Analysis meeting.

Validation of DC3 fully simulated W→eν samples (NLO, reconstructed in ) Laura Gilbert 01/08/06.

Muon Seeding Endcap: Cathode Strip Chambers up to 6 hits/station Barrel: Drift Tubes up to 12 hits/station.

Standalone Muon Seeding Rick Wilkinson. 2 One Problem Solved: Bad Seed Efficiency in Cracks ORCA PTDR Standalone Muon CMSSW.

Increasing Field Integral between Velo and TT S. Blusk Sept 02, 2009 SU Group Meeting.

Muon Seeding 1. The Various Seeders Three general purpose seeders – ancientMuonSeed – MuonSeed – SET – Not just a seeder: can do its own fitting, too.

5-Jan-2010 XEB Meeting at CERN 1 Debriefing from first data: CSC muons n Lessons learned u LHC is a quiet machine  CSC HV can remain on at all times,

A data-driven performance evaluation method for CMS RPC trigger system & Study of Muon trigger efficiencies with official Tag & Probe package for ICHEP.

Using Track based missing Et tools to reject fake MET background Zhijun Liang,Song-Ming Wang,Dong liu, Rachid Mazini Academia Sinica 8/28/20151 TWiki page.

MCP checks for the H-4l mass. Outline and work program The problems: – Higgs mass difference from the  – Possible single resonant peak mass shift (with.

Pion test beam from KEK: momentum studies Data provided by Toho group: 2512 beam tracks D. Duchesneau April 27 th 2011 Track  x Track  y Base track positions.

Tracking at LHCb Introduction: Tracking Performance at LHCb Kalman Filter Technique Speed Optimization Status & Plans.

H → ZZ →  A promising new channel for high Higgs mass Sara Bolognesi – Torino INFN and University Higgs meeting 23 Sept – CMS Week.

Archana Sharma, Suman Beri Panjab University Chandigarh India-CMS meeting TIFR, Jan Updates on the RPC trigger efficiency work with data driven.

1 T1-T3 in L1 algorithm  Outlook: I) Summary of L1-confirmation II) About the TrgForwardTracking package III) Confirming (preliminary)  L1-confirmation.

Vienna Fast Simulation LDT Munich, Germany, 17 March 2008 M. Regler, M. Valentan Demonstration and optimization studies by the Vienna Fast Simulation Tool.

Muon Trigger Slice Report Sergio Grancagnolo for the Muon Trigger group INFN-University of Lecce CERN Jan 23, 2007.

Low p T Muon trigger studies for J/       Supreet Pal Singh (Panjab University, Chandigarh) Prof. J.B.Singh (Panjab University, Chandigarh) Prof.

28 July 2006 CERN REU Status Report 1 Lindsey Gray, University of Florida RCT Trigger Supervisor and Database Project Status Lindsey Gray Advisors: Dr.

Jet Validation of Summer11 MC Artur Apresyan Caltech Joanna Weng ETH Zurich Kittikul Kovitanggoon Texas Tech University 1.

Status of RPC trigger analysis and Muon Trigger efficiencies for W-> μν study By Archana Sharma, Suman B. Beri Panjab University Chandigarh India-CMS Meeting.

Hadron production in C+C at 1 and 2 A GeV analysis of data from experiments NOV02 and AUG04 for high resolution tracking (Runge-Kutta tracks) Pavel Tlustý,

CSC High Pileup Sumulations Vadim Khotilovich Alexei Safonov Texas A&M University June 15, 2009.

Optimization of Analysis Cuts for Oscillation Parameters Andrew Culling, Cambridge University HEP Group.

Current Analysis Activity/Results (Only brief overview) Sunil Bansal (Panjab University, Chandigarh) Approved results marked.

Preliminary results on DT T0s in beam collisions J. Santaolalla, J. Alcaraz (+ help/suggestions from C. Battilana, C. Fouz)

DN/d  and dN/dp T analysis status Gabor Veres for the working group QCD meeting, Jan 12, 2010.

L1 Global Muon Trigger Simulation Status URL of this presentation:

A search for the ZZ signal in the 3 lepton channel Azeddine Kasmi Robert Kehoe Southern Methodist University Thanks to: H. Ma, M. Aharrouche.

R. Castello (UC Louvain) on behalf of the Tracker alignment group The 2011 Tracker misalignment scenario CMS AlCa meeting Cern, 22/11/2011.

TeV muons: from data handling to new physics phenomena Vladimir Palichik JINR, Dubna NEC’2009 Varna, September 07-14, 2009.

+ GE2/1 Case Considerations Alexei Safonov. + CMS Muon Upgrades CMS Technical Proposal in its part related to muon systems lists following: MEX/1 electronics.

Study of 1D Hit Error Assignment Marco Terranova, Filippo Pisano, N. Amapane, G. Cerminara.

Elliptic flow of D mesons Francesco Prino for the D2H physics analysis group PWG3, April 12 th 2010.

TeV Muon Reconstruction Vladimir Palichik JINR, Dubna NEC’2007 Varna, September 10-17, 2007.

Hadron production in C+C at 1 and 2 A GeV analysis of data from experiments NOV02 and AUG04 for high resolution tracking (Runge-Kutta tracks) Pavel Tlustý,

Impact Parameter Resolution Measurements from 900 GeV LHC DATA Boris Mangano & Ryan Kelley (UCSD)

1 Reconstruction tasks R.Shahoyan, 25/06/ Including TRD into track fit (JIRA PWGPP-1))  JIRA PWGPP-2: Code is in the release, need to switch setting.

Particle identification by energy loss measurement in the NA61 (SHINE) experiment Magdalena Posiadala University of Warsaw.

Paolo Massarotti Kaon meeting March 2007  ±  X    X  Time measurement use neutral vertex only in order to obtain a completely independent.

CMS Cathode Strip Chambers Performance with LHC Data Vladimir Palichik JINR, Dubna NEC’2013 Varna, September 10,

1 D *+ production Alexandr Kozlinskiy Thomas Bauer Vanya Belyaev

Electron and Photon HLT alley M. Witek K. Senderowska, A. Żurański.

Muon Reconstruction and Vertex Constraint Giovanni Abbiendi Bologna CMS meeting, 20 November 2007.

Pixel Phase 1 Physics/Simulations (Fermilab) for the Tracker Upgrade Simulations Group Pixel Phase 1 Physics/Simulations Harry Cheung (Fermilab) for the.

Cocktail algorithm studies

Comparison of algorithms for hit reconstruction in the DTs: Test of calibration procedures for t trig and drift velocity on Test Beam data Test of calibration.

Susanna Costanza - Pavia Group PANDA C.M., Stockholm – June 14, 2010

IPHC, Strasbourg / GSI, Darmstadt

L2 Muon Trigger Study Status Report

Time Independent Analysis

Tree based validation tool for track reconstruction

Muon Alignment: Organization

Studies for Phase-II Muon Detector (|η| = ) – Plans

Northwestern University

Status of Full Simulation for Muon Trigger at SLHC

Changes in Level 1 CSC Trigger in ORCA by Jason Mumford and Slava Valuev University of California Los Angeles June 11,

RecoTracks Revisited.

Calibration of DT-MTCC data

Contents First section: pion and proton misidentification probabilities as Loose or Tight Muons. Measurements using Jet-triggered data (from run).

Quarkonium production, offline monitoring, alignment & calibration

Comparing RS RecoTracks to CTF RecoTracks

SCT Wafer Distortions (Bowing)

An Easy to Use Track Comparison Tool

Presentation transcript:

15-Apr-15 Muon HLT Meeting C. Diez L2 Muon Trigger Status Report: L2 seeding study B. de la Cruz, C. Diez (CIEMAT, Madrid) Muon HLT Meeting 17th April,

15-Apr-15 Muon HLT Meeting C. Diez L2 seeds reminder  Parameters from L1 muon candidates converted into seeds for L2 muon reco pt estimated at interaction point global position ( ,  ) of hit at second station (MB2/ME2) firing L1  A TSOS (L2 trajectory seed) is defined at the second station with this previous info and some initial errors assigned.  Great care needed, as info is not given at the same reference system  At this point, L2 pattern recognition starts Track parameters from seed propagated to innermost reachable muon chamber Forward pattern reco: navigation outward Bacward pattern reco: navigation inward 2  ,  ptpt MB1 MB2 MB3 MB4

15-Apr-15 Muon HLT Meeting C. Diez L2 Muon Trigger is already established but there may be still room for improvement optimizing the 2 step algorithm:  Pattern Recognition in the muon system and the tuning of the L2 parameters.  Study the L2 Seeding  Vector values : Evaluate pt,  at IP and second station  Errors : Study L1 resolution, compared to the default errors given in the seeding Motivation for the study 3

15-Apr-15 Muon HLT Meeting C. Diez  /RelValZMM/CMSSW_3_1_0_pre3_STARTUP_30X_v1/GEN-SIM-DIGI-RAW- HLTDEBUG (9000 evts) Rerun the trigger with the configuration which is implemented for CMSSW_3_1_X Tests on L2MuonSeedGenerator 4  Change L2 seed in RecoMuon/L2MuonSeedGenerator /src/L2MuonSeedGenerator.cc and check results comparing distributions of several variables (pt, eta, phi), their pulls and resolutions.RecoMuonL2MuonSeedGenerator /srcL2MuonSeedGenerator.cc

15-Apr-15 Muon HLT Meeting C. Diez Comparison: variables at Vtx-MB2 SimTracks (vtx)-SimHits(MB2)  At simulated level: Compare simulated p t,  given at the interaction point and in the second station (ZMuMu sample) 5 First approx.: shift in pt by a constant ~2 GeV (CSC), ~3 GeV (DT),

15-Apr-15 Muon HLT Meeting C. Diez Comparison p t Vtx-MB2 SimTracks (vtx)-SimHits(MB2) 6 No statistics for Pt > 60-70GeV Check the distributions for the available “RelValSingleMuPt1000” more bremmstrahlung losses at high Pt as expected Muon pt=1000GeV Pt vtx-MB2 vs  (at vtx) p t vtx-MB2 vs p t  (at vtx)

15-Apr-15 Muon HLT Meeting C. Diez Changed pt seed: Effect in L2 distribution 7  The effect is negligible (~0.3% in pt resolution)  It doesn´t seem worthy to further parametrise the shift (for this sample ZMuMu at least) Some examples of pulls, Pt resolution after rerunning the L2 trigger with the new seeds FastStepHelix + Refit with default pt seed

15-Apr-15 Muon HLT Meeting C. Diez L2 seed Errors 8 Default Errors:  Are they overstimated?  Check L1 resolution (L1 vs sim.) and take those values as seed error

15-Apr-15 Muon HLT Meeting C. Diez L1 resolution times smaller for CSC 2 times smaller~10 times smaller Resolution (L1-simulated) : p/pt,  Error(q/pt)=0.25 /pt (1/GeV) Error(  )=0.02 radError(  )=0.03 rad

15-Apr-15 Muon HLT Meeting C. Diez Effect in L2 distributions: Pulls 10 Same number of entries Sigma changes by less 0.1%  Not seen any remarkable effect: Just to check see if this change actually affects at all, we removed the “refit” (right plots)  The effect is a bit more visible, but still not important No ReFit

15-Apr-15 Muon HLT Meeting C. Diez Effect in L2 distributions: Resolution 11  Comparing resolution for the “default seeds”, changed pt and pt+new error estimation :  The resolution improves a bit for pt and , not for  with the “pt corrected”  Changing the seeds affects specially 

15-Apr-15 Muon HLT Meeting C. Diez Summary  Changes in the seeding with the L2 optimizations (FastSteppingHelixPropagator (bigger extrap. steps), Refit to the L2 muon track) do not affect significantly the resolution (in pt, ,  ) nor the pulls.  The errors studied don´t seem to be “too overestimated”  For the CMSSW_3_1_X release the useful samples are only RelVal samples (ZMM, SingleMu) available, not so big statistics, relatively small pt range available  Would it make sense to use other samples where there could be more muons, not back to back, etc? Ie. Min bias or pp->mu+X? 12