High-Level Trigger Studies Darin Acosta University of Florida DOE/NSF Report on US CMS
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High-Level Trigger Studies Darin Acosta University of Florida DOE/NSF Report on US CMS Software and Computing DOE Germantown June 29, 2000 June 29, 2000 DOE/NSF USCMS Computing and Software Report. HLT Studies D. Acosta 1 CMS DAQ Architecture CMS has a multi-tiered trigger system: è L1 reduces rate from 40 MHz to 75 kHz p Custom hardware processes calorimeter and muon data to select electrons, photons, jets, muons, ET above threshold è L2, L3,… (HLT) reduces rate from 75 kHz to 100 Hz p Commercial CPU farm runs online programs to select physics channels HLT June 29, 2000 DOE/NSF USCMS Computing and Software Report. HLT Studies D. Acosta 2 DAQ / HLT Challenge è HLT selection algorithms must keep only 1 event out of 1000 p è Limited by ability to filter a L1 data sample which is already rich in physics DAQ bandwidth is finite p p Total event size is 1 MB, event rate is 75 kHz Bandwidth limited by switch and link technology First HLT milestone: Demonstrate that L2 can achieve 10X rate reduction using only 25% of the event data è Partial event reconstruction using only calorimeter and muon data June 29, 2000 DOE/NSF USCMS Computing and Software Report. HLT Studies D. Acosta 3 CMS Physics Groups Physics Reconstruction and Selection (PRS) groups were established by CMS in 1999: è Electron/Photon C. Seez è Muon U. Gasparini è Jet/Missing ET S. Eno è b/tau A. Caner p Overall coordination by P. Sphicas Charge is to evaluate the physics capability of CMS from L1 to offline US-CMS has substantial involvement in the Electron/Photon, Jet/MET and Muon groups è Focus of the Calorimeter, Endcap Muon, and TriDAS construction project communities June 29, 2000 DOE/NSF USCMS Computing and Software Report. HLT Studies D. Acosta 4 Context of Studies The L1 Trigger TDR is targeted for November, 2000 è Final design efficiencies and rates being determined The DAQ TDR is targeted for November, 2001 è Need to understand the rejection capability of the HLT triggers and the amount of data each step requires to validate possible hardware solutions A Physics TDR is targeted for 2003 è It was delayed to allow for the transition to object-oriented software In all cases, we need to validate the algorithms for the CMS physics plan, taking into account all possible backgrounds June 29, 2000 DOE/NSF USCMS Computing and Software Report. HLT Studies D. Acosta 5 HLT History First HLT milestone was set for November 1999, 6 months after the creation of the PRS groups Despite rapid progress, milestone was not met: è Growing pains: p è Learning curve: p è Many inexperienced users and developers tackling C++ Not enough time: p p p è First wide scale use of ORCA as a tool More validation needed of reconstruction software Endcap Muon software not completed HLT algorithms developed only at the last minute Insufficient manpower and resources HLT milestone postponed until July 21, 2000 June 29, 2000 DOE/NSF USCMS Computing and Software Report. HLT Studies D. Acosta 6 Recent Developments Transition from ORCA3 to ORCA4 è Full migration to Objectivity in place of Zebra files è Additional functionality p p Inclusion of endcap muon code (L1 and reconstruction) Correct handling of out-of-time b.x. in calorimeter Further validation tests Production of large simulated event samples è Why? σinel = 55 mb and L = 1034 (⇒ ⇒ 17.3 collisions/b.x.) è GEANT3 production at CERN, Italy, and U.S. (Caltech, UFlorida, UCDavis) è OO hit formatting and digitization done at CERN è p è 2 weeks for each on a large Linux PC farm Users access a User Federation p p June 29, 2000 All file/database details hidden from user Standard ntuples produced for physics groups DOE/NSF USCMS Computing and Software Report. HLT Studies D. Acosta 7 ORCA Production 2000 HEPEVT ntuples MB CMSIM MC Prod. Signal Zebra files with HITS Objectivity Database ORCA Digitization (merge signal and MB) Objectivity Database ORCA ooHit Formatter DOE/NSF USCMS Computing and Software Report. HLT Studies D. Acosta Mirrored Db’s HLT Grp Databases June 29, 2000 Objectivity Database Objectivity Objectivity Database ytivitcejbO Database esabataD (US, Russia, Italy..) Catalog import HLT Algorithms New Reconstructed Objects ORCA Prod. Catalog import 8 Data Sets e/γγ and Jet/MET groups: è 0.9 Mevt (0.8 TB) è Supplement 1999 Monte Carlo production 0.6 Mevt QCD dijet (various ET ranges) p H→ → bb, H→ → τ τ , SUSY, min. bias pile-up, single particle p Muon group: è 1.3 Mevt (1.3 TB) è Production redone in 2000 to update Pythia, endcap geometry, and event weighting 0.9 Mevt minimum bias events for rate and pile-up p H→ → ZZ → 4µ µ , H→ → WW → 2µ µ , W→ → µν , Z → µµ , single µ p CMS operations: è Expect 1000 TB/year HLT milestone is a 0.1% Mock Data Challenge! June 29, 2000 DOE/NSF USCMS Computing and Software Report. HLT Studies D. Acosta 9 Muon Physics Plan Improve PT resolution è Refit with vertex constraint using reconstructed hits è Extrapolate to outer tracker and refit Muon Rate Validate L1 trigger decision and use as a seed for muon reconstruction Apply isolation requirement è Extrapolate to calorimeter and sum energy in cone Effective PT Threshold U.S. physicists working on L1 and Reconstruction for EMU June 29, 2000 DOE/NSF USCMS Computing and Software Report. HLT Studies D. Acosta 10 Results: Single µ L1 Efficiency First look with ORCA4 Recoverable June 29, 2000 DOE/NSF USCMS Computing and Software Report. HLT Studies D. Acosta 11 Barrel/Endcap Overlap Region Must include ME2-ME3 tracks for redundancy, despite poor PT resolution Drift Tubes Cathode Strip Chambers June 29, 2000 We are learning from the simulation… DOE/NSF USCMS Computing and Software Report. HLT Studies D. Acosta 12 e / γ and Jet / MET Physics Plan Electrons: è Bremsstrahlung recovery (>½X0 of silicon tracker) è π0 rejection è Isolation è Track match and E/p cuts (L3) Jets: è Finer tower granularity è Improved jet axis è Energy calibration (non-linearity, pile-up) p All this improves the ET resolution MET: è Improve the ET resolution Taus: è Improve shape cuts June 29, 2000 DOE/NSF USCMS Computing and Software Report. HLT Studies D. Acosta 13 Jet Resol’n before & after Correction Cone R=0.5 No Pileup Cone R=0.5 Pileup Average for |η η| < 3 June 29, 2000 DOE/NSF USCMS Computing and Software Report. HLT Studies D. Acosta 14 Conclusions Closing in on HLT milestone for L2 performance è Expect results in mid – July è However, this is just a first pass at the code that will eventually run online. Will have to optimize, etc. The task is challenging and work intensive! è Production is finally complete, analysis is underway The HLT groups are driving (US)CMS software & computing Significant work performed by U.S. physicists in Endcap Muon, Jet/MET, and e/γγ groups è Could use even more manpower, since the “users” are often the code developers as well User facilities and software/computing support are essential for U.S. physicists to maintain the prominent role taken so far June 29, 2000 DOE/NSF USCMS Computing and Software Report. HLT Studies D. Acosta 15
