Hardware: Software:

Slides:

Advertisements

Similar presentations

Use of G EANT 4 in CMS AIHENP’99 Crete, April 1999 Véronique Lefébure CERN EP/CMC.

Advertisements

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

Efficiency of the L1 Trigger for SUSY Study performed by L. Boldizsár, P. Hidas KFKI Budapest J. Erö, M. Fierro, A. Jeitler, N. Neumeister, P. Porth, H.

1 The ATLAS Missing E T trigger Pierre-Hugues Beauchemin University of Oxford On behalf of the ATLAS Collaboration Pierre-Hugues Beauchemin University.

The CMS Trigger.

1  trigger optimization in CMS Tracker Giuseppe Bagliesi On behalf of  tracking group Workshop on B/tau Physics at LHC Helsinki, May 30 - June 1, 2002.

1 Rutherford Appleton Laboratory The 13th Annual International Conference on Supersymmetry and Unification of the Fundamental Interactions Durham, 2005.

J. Leonard, U. Wisconsin 1 Commissioning the Trigger of the CMS Experiment at the CERN Large Hadron Collider Jessica L. Leonard Real-Time Conference Lisbon,

1 Goals -Short term: – Finish merging the L1 trigger configuration files with the HLT. – When this is done, hopefully I will see that the signal increase.

Saclay, 04 / 11 / 2002 E. Perez 1 Simulation of the performances of the upgraded L1Cal  Short reminder  Performances (jets) (see Jovan’s talk for electron.

Top Trigger Strategy in ATLASWorkshop on Top Physics, 18 Oct Patrick Ryan, MSU Top Trigger Strategy in ATLAS Workshop on Top Physics Grenoble.

Update on H  studies Catalin and Tony FTK meeting, July 13, 2006.

FTK update H→  Tony, Catalin By speeding up/adding rejection at LVL2, we can have a higher rate coming in from LVL1. Therefore some of the LVL1 threshold.

General Trigger Philosophy The definition of ROI’s is what allows, by transferring a moderate amount of information, to concentrate on improvements in.

Global Trigger Upgrades for SLHC Vienna, Global Trigger Group A.Taurok, C.-E. Wulz SLHC Workshop, FNAL, 19 Nov

Tau Jet Identification in Charged Higgs Search Monoranjan Guchait TIFR, Mumbai India-CMS collaboration meeting th March,2009 University of Delhi.

Global Trigger H. Bergauer, K. Kastner, S. Kostner, A. Nentchev, B. Neuherz, N. Neumeister, M. Padrta, P. Porth, H. Rohringer, H. Sakulin, J. Strauss,

The CMS Level-1 Trigger System Dave Newbold, University of Bristol On behalf of the CMS collaboration.

Institute for Anything of the University of Everything Claudia-Elisabeth Wulz New Physics at the LHC C.-E. Wulz (Institute of High Energy Physics) 1 Institute.

1 Modelling parameters Jos Vermeulen, 2 June 1999.

Vienna Group Trigger Meeting CERN, 18 July 2006 Presented by Claudia-Elisabeth Wulz Global Muon Trigger Global.

Claudia-Elisabeth Wulz Institute for High Energy Physics Vienna Level-1 Trigger Menu Working Group CERN, 9 November 2000 Global Trigger Overview.

On-line Software Requirements for the Global Trigger, the Global Muon Trigger and the Barrel Muon Trigger Track Finder Claudia-Elisabeth Wulz & HEPHY Vienna.

Global Trigger H. Bergauer, L. Boldizsár, A. Jeitler, P. Hidas, K. Kastner, S. Kostner, N. Neumeister, M. Padrta, P. Porth, H. Rohringer, H. Sakulin, J.

News from Atlantis Event Display Qiang Lu, Mark Stockton, Juergen Thomas, Peter Watkins (Birmingham) Hans Drevermann (CERN) Andrew Haas (Columbia) Eric.

CMS Week Mumbai, Dec Claudia-Elisabeth Wulz Institute for High Energy Physics Vienna Level-1 Trigger Menus.

Claudia-Elisabeth Wulz Anton Taurok Institute for High Energy Physics, Vienna Trigger Internal Review CERN, 6 Nov GLOBAL TRIGGER.

Four Seas Conference Istanbul, 10 September 2004 Claudia-Elisabeth Wulz Institute for High Energy Physics, Vienna Fast Event Selection at CERN’s Large.

Claudia-Elisabeth Wulz Anton Taurok Institute for High Energy Physics, Vienna Hannes Sakulin CERN Annual Review CERN, 24 Sep Global Trigger Global.

Possibility of tan  measurement with in CMS Majid Hashemi CERN, CMS IPM,Tehran,Iran QCD and Hadronic Interactions, March 2005, La Thuile, Italy.

TDAQ Upgrade Software Plans John Baines, Tomasz Bold Contents: Future Framework Exploitation of future Technologies Work for Phase-II IDR.

IOP HEPP: Beauty Physics in the UK, 12/11/08Julie Kirk1 B-triggers at ATLAS Julie Kirk Rutherford Appleton Laboratory Introduction – B physics at LHC –

25 sep Reconstruction and Identification of Hadronic Decays of Taus using the CMS Detector Michele Pioppi – CERN On behalf.

Simone Gennai SNS, INFN-Pisa1 Radion searches in CMS A first look to  hh G. Dewhirst, L. Fano, S. Gennai, S. Nikitenko.

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.

DPF2000, 8/9-12/00 p. 1Richard E. Hughes, The Ohio State UniversityHiggs Searches in Run II at CDF Prospects for Higgs Searches at CDF in Run II DPF2000.

PESAsim – the e/  analysis framework Validation of the framework First look at a trigger menu combining several signatures Short-term plans Mark Sutton.

CMS Week Mumbai, Dec Claudia-Elisabeth Wulz Institute for High Energy Physics Vienna Level-1 Trigger Menus.

M. Gilchriese Basic Trigger Rates December 3, 2004.

Software offline tutorial, CERN, Dec 7 th Electrons and photons in ATHENA Frédéric DERUE – LPNHE Paris ATLAS offline software tutorial Detectors.

Update on WH to 3 lepton Analysis And Electron Trigger Efficiencies with Tag And Probe Nishu 1, Suman B. Beri 1, Guillelmo Gomez Ceballos 2 1 Panjab University,

STAR Collaboration Meeting, BNL – march 2003 Alexandre A. P. Suaide Wayne State University Slide 1 EMC Update Update on EMC –Hardware installed and current.

STAR Analysis Meeting, BNL – oct 2002 Alexandre A. P. Suaide Wayne State University Slide 1 EMC update Status of EMC analysis –Calibration –Transverse.

Software Tools for Layout Optimization (Fermilab) Software Tools for Layout Optimization Harry Cheung (Fermilab) For the Tracker Upgrade Simulations Working.

ATLAS and the Trigger System The ATLAS (A Toroidal LHC ApparatuS) Experiment is one of the four major experiments operating at the Large Hadron Collider.

Vienna Group Discussion Meeting on Luminosity CERN, 9 May 2006 Presented by Claudia-Elisabeth Wulz Luminosity.

Trigger Group of the Institute for High Energy Physics, Vienna presented by Claudia-Elisabeth Wulz CPT Week, Plenary Session CERN, 18 April 2002 GLOBAL.

Hardeep Bansil (University of Birmingham) on behalf of L1Calo collaboration ATLAS UK Meeting, Royal Holloway January 2011 Argonne Birmingham Cambridge.

L1 Global Muon Trigger Simulation Status URL of this presentation:

Level 1-2 Trigger Data Base development Current status and overview Myron Campbell, Alexei Varganov, Stephen Miller University of Michigan August 17, 2000.

A Fast Hardware Tracker for the ATLAS Trigger System A Fast Hardware Tracker for the ATLAS Trigger System Mark Neubauer 1, Laura Sartori 2 1 University.

10 January 2008Neil Collins - University of Birmingham 1 Tau Trigger Performance Neil Collins ATLAS UK Physics Meeting Thursday 10 th January 2008.

Generic Trigger List for MC Production Terry Wyatt. L3 Algorithms Meeting 11 th Sept overview of planned list tools/Filters in L3 technical section.

H Y P A T I A HYbrid Pupil’s Analysis Tool for Interactions in Atlas

CMS Trigger Upgrades Phase-I (1) Muon Trigger Upgrades: – CSCTF (CSC TrackFinder) – MPC (Muon Port Card) Calorimeter Trigger Upgrades: – HCAL TPG – Calorimeter.

Living Long At the LHC G. WATTS (UW/SEATTLE/MARSEILLE) WG3: EXOTIC HIGGS FERMILAB MAY 21, 2015.

ATLAS and the Trigger System The ATLAS (A Toroidal LHC ApparatuS) Experiment [1] is one of the four major experiments operating at the Large Hadron Collider.

Introduction to FCC Software FCC Istanbul 11 March, 2016 Alice Robson (CERN/UNIGE) on behalf of / with thanks to the FCC software group.

1 Plans for the Muon Trigger CSC Note. 2 Muon Trigger CSC Studies General performance studies and trigger rate evalution for the full slice Evaluation.

1 J. Varela, CMS Trigger, RT09, Beijing, May 2009 J. Varela IST/LIP Lisbon CMS Trigger Project Manager 16 th IEEE NPSS Real Time Conference May 10-15,

Sridhara Dasu115 April 2002 L1CaloTrigger Algorithms Sridhara Dasu University of Wisconsin Algorithms: Details, Updates and Simulation - 2 x cm -2.

David Lange Lawrence Livermore National Laboratory

ATLAS UK physics meeting, 10/01/08 1 Triggers for B physics Julie Kirk RAL Overview of B trigger strategy Algorithms – current status and plans Menus Efficiencies.

ATLAS Distributed Computing Tutorial Tags: What, Why, When, Where and How? Mike Kenyon University of Glasgow.

L1Calo Databases ● Overview ● Trigger Configuration DB ● L1Calo OKS Database ● L1Calo COOL Database ● ACE Murrough Landon 16 June 2008.

uGT 2016 operations and outlook for 2017

Particle detection and reconstruction at the LHC (IV)

G. Arnison et al., UA1 Collaboration

Global Muon Trigger Update

Presentation transcript:

Hardware: Software: Joint L1/PRS Workshop on Trigger for P-TDR CMS Week, CERN, 16 March 2005 Presented by Claudia-Elisabeth Wulz Level-1 Global Trigger

CMS Week, March 2005 C. - E. Wulz2 Global Trigger ORCA-Software - Based on work by M. Fierro and N. Neumeister Documentation:

CMS Week, March 2005 C. - E. Wulz3 Global Trigger Design trigger decision The trigger decision is taken by combining the trigger objects: Logic combinations of trigger objects sent by the Global Calorimeter Trigger and the Global Muon Trigger Best 4 isolated electrons/photonsE T, ,  Best 4 non-isolated electrons/photonsE T, ,  Best 4 jets in forward regionsE T, ,  Best 4 jets in central regionE T, ,  Best 4  -JetsE T, ,  Total E T  E T Total E T of all good jetsH T Missing E T E T missing,  (E T missing ) 12 jet multiplicities N jets (different E T thresholds and  -regions) Best 4 muonsp T, charge, , , quality, MIP, isolation Thresholds (p T, E T, N Jets ) Optional topological and other conditions (geometry, isolation, charge, quality) 128 flexible parallel running algorithms for physics are possible at one time. The trigger decision (Level-1-Accept) is a function of the 128 trigger algorithm bits, applying a predefined mask.

CMS Week, March 2005 C. - E. Wulz4 DAQ-TDR Low Luminosity Trigger Menu

CMS Week, March 2005 C. - E. Wulz5 Algorithm Trigger Condition Threshold (low luminosity) 0 Single muon pT > 14 GeV/c 1Di-muon pT > 3 GeV/c 2Single isolated e/  ET > 23 GeV (29 95% eff) 3Isolated 2e/2  ET > 12 GeV (17 95% eff) 42e/2  (isolated + non-isolated) ET > 19 GeV 51 muon + 1 isolated e/  pT > 5 GeV/c, ET > 15 GeV 6total transverse energy ET > 600 GeV 7missing transverse energy ET > 140 GeV 8 1 central jet ET > 177 GeV 9 1 forward jet ET > 177 GeV 10 1 tau jet ET > 93 GeV (86 95% eff) 11 2 central jets ET > 130 GeV 12 2 forward jets ET > 130 GeV 13 2 tau jets ET > 66 GeV (59 95% eff) 14 3 central jets ET > 86 GeV 15 3 forward jets ET > 86 GeV 16 3 tau jets ET > 40 GeV 17 4 central jets ET > 70 GeV 18 4 forward jets ET > 70 GeV 19 4 tau jets ET > 30 GeV 20 1 muon + 1 central jet pT > 5 GeV/c, ET > 30 GeV 21 1 muon + 1 forward jet pT > 5 GeV/c, ET > 30 GeV 22 1 muon + 1 tau jet pT > 5 GeV/c, ET > 25 GeV 23 1 muon + missing energy pT > 5 GeV/c, ET > 45 GeV 24 1 isolated e/  + 1 central jet ET > 21 GeV, ET > 45 GeV 25 1 isolated e/  + 1 forward jet ET > 21 GeV, ET > 45 GeV 26 1 isolated e/  + 1 tau jet ET > 14 GeV, ET > 52 GeV 27 1 isolated e/  + missing energy ET > 21 GeV, ET > 75 GeV 28 1 central jet + missing energy ET > 88 GeV, ET > 46 GeV 29 1 forward jet + missing energy ET > 88 GeV, ET > 46 GeV 30 1 tau jet + missing energy ET > 35 GeV, ET > 40 GeV Actual Low Luminosity Trigger Menu in ORCA

CMS Week, March 2005 C. - E. Wulz6 DAQ-TDR High Luminosity Trigger Menu

CMS Week, March 2005 C. - E. Wulz7 Item Trigger Condition Threshold (high luminosity) 0 Single muon pT > 20 GeV/c 1Di-muon pT > 5 GeV/c 2Single isol. e/  ET > 28 GeV (34 95% eff) 3Isolated 2e/2  ET > 14 GeV (19 95% eff) 42e/2  (isolated + non-isolated) ET > 19 GeV 51 muon + 1 isolated e/  pT > 7 GeV/c, ET > 17 GeV 6total transverse energy ET > 800 GeV 7missing transverse energy ET > 250 GeV 8 1 central jet ET > 250 GeV 9 1 forward jet ET > 250 GeV 10 1 tau jet ET > 106 GeV (101 95% eff) 11 2 central jets ET > 200 GeV 12 2 forward jets ET > 200 GeV 13 2 tau jets ET > 72 GeV (67 95% eff) 14 3 central jets ET > 110 GeV 15 3 forward jets ET > 110 GeV 16 3 tau jets ET > 70 GeV 17 4 central jets ET > 95 GeV 18 4 forward jets ET > 95 GeV 19 4 tau jets ET > 50 GeV 20 1 muon + 1 central jet pT > 14 GeV/c, ET > 40 GeV 21 1 muon + 1 forward jet pT > 14 GeV/c, ET > 40 GeV 22 1 muon + 1 tau jet pT > 12 GeV/c, ET > 30 GeV 23 1 muon + missing energy pT > 16 GeV/c, ET > 80 GeV 24 1 isolated e/  + 1 central jet ET > 25 GeV, ET > 52 GeV 25 1 isolated e/  + 1 forward jet ET > 25 GeV, ET > 52 GeV 26 1 isolated e/  + 1 tau jet ET > 20 GeV, ET > 57 GeV 27 1 isolated e/  + missing energy ET > 25 GeV, ET > 150 GeV 28 1 central jet + missing energy ET > 113 GeV, ET > 70 GeV 29 1 forward jet + missing energy ET > 113 GeV, ET > 70 GeV 30 1 tau jet + missing energy ET > 60 GeV, ET > 60 GeV Actual High Luminosity Trigger Menu in ORCA

CMS Week, March 2005 C. - E. Wulz8 Global Trigger options in ORCA Parameters Name Description Default L1GlobalTrigger:TriggerMenu Trigger menu lumi2x1033 L1GlobalTrigger:Mask Disable some L1 GT algos 0 (128 bits, "1" at bit nr. N disable algo nr. N) L1GlobalTrigger:InputMask Enable/Disable Trigger Object inputs 3 (Enable all inputs ==> InputMask = 3) (Disable Global Calorimeter Input only ==> InputMask = 2) (Disable Global Muon Input only ==> InputMask = 1) L1GlobalTrigger:Algorithm Adding one algorithm to the default ones "” e.g. The user can choose between these two trigger tables by setting a parameter in the.orcarc file: L1GlobalTrigger:TriggerMenu = lumi2x1033 or L1GlobalTrigger:TriggerMenu = lumi1034

CMS Week, March 2005 C. - E. Wulz9 Current Setup Tool WriteThresholds # MU_xx Identifier for a Muon Particle block # EL_xx Identifier for a Electron/Gamma Particle block # IE_xx Identifier for a Isolated Electon/Gamma Particle block # CJ_xx Identifier for a Central Jet Particle block # FJ_xx Identifier for a Forward Jet Particle block # TJ_xx Identifier for a Tau Jet Particle block # EM_xx Identifier for a Transverse Missing Energy Particle block # ET_xx Identifier for a Total Transverse Energy Particle block # JN_xx Identifier for a Jet Counting Particle block For istance, if you wish to require a lepton (muon or electron) plus Missing Energy, the algorithm looks like +MU_00+EM_02|+EL_00+EM_02; It is intended to change over to a tool using xml files as in HLT, which will include also the possibility of topological conditions. A trigger algorithm is a logical combination of different Particle Condition blocks. A tool exists to set up algorithms and thresholds, based on these blocks:

CMS Week, March 2005 C. - E. Wulz10 Adding algorithms 1. Adding one algorithm to the default trigger table using the L1GlobalTrigger:Algorithm parameter in.orcarc file L1GlobalTrigger:Algorithm = +MU_00+EM_02|+EL_00+EM_02; 2. cvs co Data/TriggerData/L1GlobalTrigger and create a new subdirectory (e.g. mytrigger). Provide an ASCII file (named "trigger_menu.dat") in this directory, one algorithm description per line; white lines and comment lines (preceded by "#") are allowed. Provide the corresponding threshold files which can be created with the application WriteThresholds. Finally you have to specify the new trigger table in your.orcarc file: L1GlobalTrigger:TriggerMenu = mytrigger For PTDR studies more algorithms exploiting the full potential of the Global Trigger should be put in. Thresholds should also be updated if feasible.

CMS Week, March 2005 C. - E. Wulz11 Summary The basic Global Trigger ORCA software exists. There is still work to be done to expand the trigger menu possibilities, to switch to xml based input and to fix a few bugs at the same time. Thresholds and algorithms should be updated for the PTDR.