1 Some validation of AlpGen and TopRex Stan Bentvelsen Feb 18 th, 2004
P 2 Resume of Matching NLO calculations of QCD process with parton shower MC simulation Fully exclusive events generated Hard emissions treated as in NLO Soft emissions handled by MC shower (Herwig) No ‘double counting’ between these two Running in ATLAS: Create event file using ‘runNLO’ program (extern) Contains kinematic of hard NLO process Interface to Herwig via McAtNLO_i
P 3 Release Herwig_i Points to herwig6.504 Excellent – this is needed for heavy gauge boson production in McAtNlo Bug: problem with ‘timel’ routine; herwig job cannot be longer than 1000 CPU seconds McAtNlo_i Interface outdated and buggy - need to be updated to comply to MCATNLO vsn 2.3 (or 2.2) Inputini.F Initmcatnlo.F Works fine for top-production Does not work for events with W,Z (JPR=13,14) and others? Private version working against 6.5.0
P 4 Resume: Weights Weights: ±w ‘unweighted’ events, up to a sign! (practically weight ±1) Efficient event generation possible NLO distributions (without MC showering) are non- physical 86.5%13.5% tt production cross section MCatNLO:842 pb HERWIG: 458 pb PYTHIA:490 pb (nb: no consistent pdf’s!) ‘standard’ tt production process -1706
P 5 Resume: Comparison to LO generators All distributions normalised to 1 Pt(tt system) Herwig & MCatNLO agree at low Pt, At large Pt MCatNLO ‘harder’ PYTHIA completely off Same distribution on linear scale
P 6 MCATNLO practicalities Event Weights Stored in HepMC::GenEvent weight() Not being picked up by Atlfast My private AtlfastAlgs::StandardNtupleMaker is getting weights from herwig common (uh! Ugly!) Event files What is granularity of event files? How many events in one file? Who is making these for DC2?
P 7 Unit conversion External MCATNLO file Units in GeV Conversion Conversion to MeV done in filling HepMC common block Atlfast Not updated to MeV yet Not been able to fully check MCATNLO with Atlfast in Jet-finding, thresholds, etc: need modification of StandardOptions values
P 8 AlpGen ‘multiparton’ generator Many hard processes – with extra n-jets (‘light jets’) E.g.: tt+n-jets, W+n-jets Exact (LO) matrix element Alpgen generates file with hard scattering External files To be fed into Herwig/Pythia shower MC’s GNU compiler bug, noticeable in optimized complex number arithmetic. To be safe, use optimization flag, -O2 (default for AlpGen version v1.4) Works fine under gcc 2.96
P 9 AlpGen in Somewhat confusing structure: Package AlpGen_i Is not updated to Alpgen V1.3 What is the status of this package? Package Herwig_i Interface to AlpGen files in routine atoher_65.F Called via UPINIT Has been updated to Alpgen v 1.3 (excellent!) Can the AlpGen_i package be deleted from release?
P 10 Alpgen: tt+1jet Inputs M top =175 1 extra light jet Jet: P t >10, | | 0.4 Initial grid 3 * Events: Produced 60 samples Production Un-weighting to single lepton (e, , ) decay Effective : 293 pb events generated ( generation efficiency) 18.1% (351000) events pass first selection E T miss >20 GeV, lepton (e, ) P t >20 and >=4 jets P t >40 Example run in AlpGen
P 11 AlpGen tt+1-jet production tt-system alpgen affected by extra gluon Previously problems, now solved! Histograms normalized to unity Extra jet: Pt-min = 10 GeV |η| < 2.5 R>0.4 Alpgen looks ok!
P 12 W+jets background Most important background for top: W+n jets Leptonic decay of W, and n=4 extra jets In Pythia only relevant process: qq’ W (+q(g) ) No ‘hard’ matrix element for 4 extra jets I.e.: 3 or 4 extra jets need to be generated by Shower Fragmentation+ Decays Detector response+ Reconstruction has NLO qq’ W+X No ‘hard’ matrix element for 4 extra jets Generated 350k events, only 1 event passed first selection lepton (e, ) P t >20 and >=4 jets P t >40 Alpgen has ‘hard’ matrix element for 4 extra jets
P 13 NIKHEF data processing facility Due to small generation efficiencies in Alpgen: Use local NIKHEF LCG grid Currently 30% of total LCG grid This will change soon Total 240 CPU’s Mix of PIII: 0.8, 1.2, 2.0 and 2.6 GHz machines AlpGen jobs running! Total submitted jobs: 2303 Total GHzHrs (equivalent hours on 1 GHz machine): (!) AlpGen jobs take lot of CPU
P 14 Alpgen: W+4jets Un-weighting to W lepton (e, , ) decay Production 1 Effective : 4390 pb unweighted events generated ( efficiency) 2.57% (2784) events pass first top selection Production 2 Effective : 2430 pb unweighted events generated ( efficiency) 3.41% (13002) events pass first selection W+4 extra light jets Jet: Pt>10, | | 0.3 No lepton cuts Initial grid: *3 Events: 150·106 Jobs: 198 W+4 extra light jets Jet: Pt>10, | | 0.4 No lepton cuts Initial grid: *3 Events: 150·106 Jobs: 98
P 15 Top signal + background Luminosity: 10 pb -1 signal Alpgen1 sample Luminosity: 150 pb -1 signal Alpgen2 sample
P 16 TopRex generator Request from top-group to include TopRex Relevant top physics: Handling of spin-correlations in top-decays Simulation of single-top processes Rare top decays, processes, FCNC,… Showering and decay handled by Pythia Used in many (fortran based) Top analyses Used by CMS Slabospitsky, Sonnenschein
P 17 TopRex generator 2 packages: External/TopRex Pointer to toprex installation in /afs/cern.ch/atlas/offline/toprex “out of the box” toprex installation Perhaps need some cosmetic update (dir structure) Generators/TopRex_i Interface package ala Pythia_i “toprex.dat” file to select process, switches, etc All this is available and working and checked against release Tbd: linking against GENSER version of Pythia Can we have this available for DC2 ??
P 18 TopRex Motivation: Study top-spin correlations Need detailed simulation to check these subtle effects
P 19 Summary MCATNLO Update interface to vsn 2.2/2.3 Make sure weights are handled correctly AlpGen All in place – if AlpGen_i package removed CPU demanding event generation TopRex All is there – need to be injected in Atlas software. Urgent requests from top-group Logistics of externally generated event files