Samples for validation of the simulation in view of production

Two different macro-sets are produced depending on what need to be validated

Generator phase: Physics samples

They are few signal channels and a list of people are responsible for looking at the files and reporting on the results, hence giving a green light before a production can be started.

For this set of samples the whole application chain needs to be run, Gauss → Boole → Brunel, and dst files produced.

For the first 10k events also the sim and digi files are kept.

The event samples are available from the new book-keeping that is accessible, for the time beeing, on linux by typing

lhcb_bkk
The sample ares in the MC 2008 folder. You will need to provide your grid certificate password when prompted.

List and status of requests (gen phase)

Last Update StatusSorted ascending Details
10 December 2008 Completed Request of 10-Nov-2008
15 January 2009 Completed Request of 15-Dec-2008
26 January 2009 Completed Request of 26-Jan-2009
2 March 2009 Completed Request of 16-Feb-2009

Reference samples

Sample DecFiles EvtType No. of events Responsible
Bs→J/ψ(μ+μ−)φ(Κ+Κ−) Bs_Jpsiphi,mm=CPV,DecProdCut.dec 13144002 50k Olivier Leroy
Bs→J/ψ(e+e−)φ(Κ+Κ−) Bs_Jpsiphi,ee=CPV,DecProdCut.dec 13154002 50k Olivier Leroy
B−→D(KSπ+π−)Κ− Bu_D0K,KSpipi=CPV,DecProdCut.dec 12165103 50k Jim Libby
B0→D−(K+π−π−)ρ+(π+π0) Bd_D-rho+=DecProdCut.dec 11164401 50k Jim Libby
Bs→Κ+Κ− Bs_K+K-=CPV,DecProdCut.dec 13102002 50k Vincenzo Vagnoni
Bs→μ+μ− Bs_mumu=DecProdCut.dec 13112001 50k Frederic Teubert
Bs→φγ Bs_phigamma=DecProdCut.dec 13102201 50k Vanya Belyaev
B0->K∗0(K+π−)μ+μ− Bd_Kstmumu=DecProdCut.dec 11114001 50k Mitesh Patel
Minimum bias minbias.dec 30000000 100k Raluca Muresan
J/ψ(1S))→μ+μ− incl_Jpsi,mm=DecProdCut 24142001 100k Wenbin Quian
ψ(2S))→μ+μ− incl_psi2S,mm=DecProdCut 28142001 100k Wenbin Quian
B0→π+π-π0 Bd_pipipi=CPV,DecProdCut.dec 11102402 50k Olivier Deschamps

Simulation phase: Particle-gun, min bias and b inclusive samples

They are particle guns samples and small min bias/b inclusive samples. The sub-detectors are responsible for looking at the files and reporting on the results, hence giving a green light before a production can be started.

For the particle guns Gauss → Boole need to be run and sim+digi files need to be kept.

For min bias and b inclusive samples Gauss → Boole → Brunel need to be run and sim, digi and dst files need to be kept.

The event samples are available from the new book-keeping that is accessible, for the time beeing, on linux by typing

lhcb_bkk
The sample ares in the MC-2008, MC-2008-HT, MC-2008-LT and MC-2008-QGSP folders. You will need to provide your grid certificate password when prompted.

List and status of requests (sim phase)

Last Update Status Details for each sample
11 December 2008 Completed Request of 28-Oct-2008
23 January 2009 Completed Request of 15-Dec-2008
16 February 2009 In progress Request of 16-Feb-2009

General reference samples

Sample EvtType No. of events Physics(list and cuts) Responsible
MinimumBias 30000000 5 K LHEP + EM option1 + DRay off + KineHT lhcb-gauss
5 K LHEP + EM option1 + DRay on + KineHT lhcb-gauss
5 K LHEP + EM option1 + DRay on + KineLT lhcb-gauss
5 K QGSP + EM option1 + DRay off + KineHT lhcb-gauss
Inclusive b 10000000 20 K LHEP + EM option1 + DRay off + KineHT lhcb-gauss
20 K LHEP + EM option1 + DRay on + KineHT lhcb-gauss
20 K LHEP + EM option1 + DRay on + KineLT lhcb-gauss
20 K QGSP + EM option1 + DRay off + KineHT lhcb-gauss

ParticleGun Reference samples

Sample: Type & Energy EvtType Physics(list and cuts) No. of events Responsible
           
pi+/pi- 0.1 GeV, 0.2 GeV, 0.4 GeV, 1 GeV, 5 GeV, 10 GeV, 16.8 GeV, 33.8 GeV, 50 GeV, 100 GeV, 120 GeV, 168 GeV 53230100, 53230200, 53230400, 53210001, 53210005, 53210010, 53210017, 53210034, 53210050, 53210100, 53210120, 53210168 LHEP + EM option1 + DRay off + KineHT 80 K for each energy and physics setting lhcb-gauss
LHEP + EM option1 + DRay on+ KineHT 80 K for each energy and physics setting lhcb-gauss
LHEP + EM option1 + DRay on+ KineLT 80 K for each energy and physics setting lhcb-gauss
           
e+/e- 0.1 GeV, 0.2 GeV, 0.4 GeV, 1 GeV, 5 GeV, 10 GeV, 16.8 GeV , 33.8 GeV , 50 GeV ,100 GeV, 120 GeV, 168 GeV 51230100, 51230200, 51230400, 51210001, 51210005, 51210010, 51210017, 51210034, 51210050, 51210100, 51210120, 51210168 LHEP + EM option1 + DRay off + KineHT 80 K for each energy lhcb-gauss
LHEP + EM option1 + DRay on+ KineHT 80 K for each energy lhcb-gauss
LHEP + EM option1 + DRay on+ KineLT 80 K for each energy lhcb-gauss
           
mu+/mu- 0.1 GeV, 0.2 GeV, 0.4 GeV, 1 GeV, 5 GeV, 10 GeV, 16.8 GeV , 33.8 GeV , 50 GeV ,100 GeV, 120 GeV, 168 GeV 52230100, 52230200, 52230400, 52210001, 52210005, 52210010, 52210017, 52210034, 52210050, 52210100, 52210120, 52210168 LHEP + EM option1 + DRay off + KineHT 50 K for each energy lhcb-gauss
LHEP + EM option1 + DRay on+ KineHT 50 K for each energy lhcb-gauss
LHEP + EM option1 + DRay on+ KineLT 50 K for each energy lhcb-gauss
           
K+/K- 0.1 GeV, 0.2 GeV, 0.4 GeV, 1 GeV, 5 GeV, 10 GeV, 16.8 GeV , 33.8 GeV , 50 GeV ,100 GeV, 120 GeV, 168 GeV 54230100, 54230200, 54230400, 54210001, 54210005, 54210010, 54210017, 54210034, 54210050, 54210100, 54210120, 54210168 LHEP + EM option1 + DRay off + KineHT 50 K for each energy lhcb-gauss
LHEP + EM option1 + DRay on+ KineHT 50 K for each energy lhcb-gauss
LHEP + EM option1 + DRay on+ KineLT 50 K for each energy lhcb-gauss
           
p/p~ 0.1 GeV, 0.2 GeV, 0.4 GeV, 1 GeV, 5 GeV, 10 GeV, 16.8 GeV , 33.8 GeV , 50 GeV ,100 GeV, 120 GeV, 168 GeV 55230100, 55230200, 55230400, 55210001, 55210005, 55210010, 55210017, 55210034, 55210050, 55210100, 55210120, 55210168 LHEP + EM option1 + DRay off + KineHT 50 K for each energy lhcb-gauss
LHEP + EM option1 + DRay on+ KineHT 50 K for each energy lhcb-gauss
LHEP + EM option1 + DRay on+ KineLT 50 K for each energy lhcb-gauss
           
J/Psi 20 GeV < E < 140 GeV 59010140 LHEP + EM option1 + DRay off + KineHT 50 K lhcb-gauss
LHEP + EM option1 + DRay on+ KineHT 50 K lhcb-gauss
LHEP + EM option1 + DRay on+ KineLT 50 K lhcb-gauss
           
pi+/pi- in calos 1 GeV, 5 GeV, 10 GeV, 16.8 GeV, 33.8 GeV, 50 GeV, 100 GeV, 120 GeV, 168 GeV 53200001, 53200005, 53200010, 53200017, 53200034, 53200050, 53200100, 53200120, 53200168 LHEP + EM option1 + DRay off + KineHT 50 K for each energy and physics setting lhcb-gauss
LHEP + EM option1 + DRay on+ KineHT 50 K for each energy and physics setting lhcb-gauss
LHEP + EM option1 + DRay on+ KineLT 50 K for each energy and physics setting lhcb-gauss
           
e- in calos 0.1 GeV, 0.2 GeV, 0.4 GeV, 1 GeV, 5 GeV, 10 GeV, 16.8 GeV , 33.8 GeV , 50 GeV ,100 GeV, 120 GeV, 168 GeV 51000001, 51000005, 51000010, 51000017, 51000034, 51000050, 51000100, 51000120, 50010168 LHEP + EM option1 + DRay off + KineHT 50 K for each energy lhcb-gauss
LHEP + EM option1 + DRay on+ KineHT 50 K for each energy lhcb-gauss
LHEP + EM option1 + DRay on+ KineLT 50 K for each energy lhcb-gauss
           
gamma in calos 0.1 GeV, 0.2 GeV, 0.4 GeV, 1 GeV, 5 GeV, 10 GeV, 16.8 GeV , 33.8 GeV , 50 GeV ,100 GeV, 120 GeV, 168 GeV 56000001, 56000005, 56000010, 56000017, 56000034, 56000050, 56000100, 56000120, 56010168 LHEP + EM option1 + DRay off + KineHT 50 K for each energy lhcb-gauss
LHEP + EM option1 + DRay on+ KineHT 50 K for each energy lhcb-gauss
LHEP + EM option1 + DRay on+ KineLT 50 K for each energy lhcb-gauss
           
pi0 in calos 0.1 GeV, 0.2 GeV, 0.4 GeV, 1 GeV, 5 GeV, 10 GeV, 16.8 GeV , 33.8 GeV , 50 GeV ,100 GeV, 120 GeV, 168 GeV 57000001, 57000005, 57000010, 57000017, 57000034, 57000050, 57000100, 57000120, 57010168 LHEP + EM option1 + DRay off + KineHT 50 K for each energy lhcb-gauss
LHEP + EM option1 + DRay on+ KineHT 50 K for each energy lhcb-gauss
LHEP + EM option1 + DRay on+ KineLT 50 K for each energy lhcb-gauss

Legenda for Physics (lists and cuts)

  • LHEP parameterised modeling of hadronic interactions (G4)
  • QGSP modeling using Quark Gluon String model for high energy hadronic interactions of protons, neutrons, pions, and Kaons. The high energy interaction creates an exited nucleus, which is passed to the precompound model modeling the nuclear de-excitation. (G4)
  • EM option1 EM processes using parameters optimised for better CPU performance at the cost slightly less precise physics (G4)
  • EM standard EM processes with default setting using standard parameters tuned for best physics performance (G4)
  • DRay off production cuts as follow: e- 10 km, e+ 5 mm, gamma 10 mm (G4)
  • DRay on production cuts as follow: e- 5 mm, e+ 5 mm, gamma 5 mm (G4)
  • KineHT tracking cuts (kinetic E) as follow: hadrons/mu+/mu- 10 MeV, e+/e-/gamma 1 MeV, others none (Gauss)
  • KineLT tracking cuts (kinetic E) as follow: hadrons/mu+/mu- 1 MeV, e+/e-/gamma 0.1 MeV, others none (Gauss)

-- Last edited: GloriaCorti - 12 Dec 2008

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Topic revision: r38 - 2009-03-02 - GloriaCorti
 
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