HepSim

Repository with Monte Carlo simulations for particle physics

Nov 1, 2022, Higgs, WW, ZZ production at 240, 250 GeV (e+e-,mu+mu-)
Oct 27, 2022, Higgs, WW, ZZ production at 380 GeV
Oct 17, 2022: hs-tools was corrected for https
Sep 27, 2022: Interface improvements
Feb 01, 2022: Migration to ALCF's Eagle filesystem
Feb 14, 2021: ROOT6 support for Jas4pp program
Nov 25, 2020: Moving to a new web server.
Oct 22, 2020: Added OSG Connect storage (Snowmass21)
Aug 26, 2020: Radion model Wkk+gg.
June 5, 2020: Moving to a new (larger) web storage
May 21, 2020: Filtered 2-leptons in multijet QCD
Apr, 24, 2020: MG5/Pythia8 samples for KK+radion model
Feb 20, 2020: Several samples for dark QCD processes
Nov 28, 2019: DOI (Digital Object Identifier) by OSTI DOE (see osti.gov)
Apr 15, 2019: Moving to Globus (Petrel)
Sep.10 2018: Zprime/DM event samples
Mar.15 2018: Charged Higgs event samples
Sep,22 2017: Z+Higgs → nunu+XX event samples
Sep,15 2017: Higgs → mu+mu- event samples
Sep,10 2017: rfull059 tag with improved tracking strategy
Aug.25, 2017: rfull300 for the DPF (ATLAS/CMS -like) detector
Aug.7, 2017: J/Psi and Upsilon(S1) event samples for ep 45 GeV
Jun.29, 2017: rfull058 tag with improved tracking strategy from D.Blyth
Jun.20, 2017: rfull057 tag with alternative tracking strategy from D.Blyth
Jun.9, 2017: Reprocessing rfull009 - rfull015 tags after correcting timing problem in SLIC. Using modifications for low-memory footprint
Jun.9, 2017: Reprocessing rfull009 - rfull015 tags after correcting timing problem in SLIC. Using modifications for low-memory footprint
May.16, 2017: Production of rfull056 using SiEIC(v5) detector for EIC
Apr.30, 2017: CLIC 3 TeV e+e- samples using Pythia8
Apr.20, 2017: Started production of ep 35 GeV samples
Apr.13, 2017: New rfull015 with Geant10.3p1 using SiFCC(v7)
Apr.3, 2017: rfull054 and rfull055 using SiEIC(v4) detector
Feb.3, 2017: CLIC event samples for e+e- at 380 GeV. Link to events
Feb.1, 2017: Updated rfull053 using SiEIC(v3) detector including track timing
Nov.12, 2016: Production of rfull053 using SiEIC(v3) detector for EIC
Nov.2, 2016: Production of rfull101 using SiCEPC(v2) detector for CEPC
Nov.2, 2016: Production of Higgs+V for different CM energies (8-100 TeV pp)
Oct.31,2016: Production of rfull052 using SiEIC(v2) detector for EIC
Oct.14, 2016: Production of rfast005 for FCC-hh (pp 100 TeV) using Delphes-3.3.3
Sep.23, 2016: Production of rfull051 using SiEIC(v1) detector for EIC
Sep.15, 2016: Z'(5 TeV) to different channels using several SiFCC(v7) geometries
Aug.28, 2016: rfull010, rfull011, rfull012and rfull013 for SiFCC(v7) using HCAL cells from 1 to 20 cm
Aug.11, 2016: Production of rfull009 for 100 TeV (pp) with SiFCC-hh (v7) detector using new Pandora
Aug.9, 2016: OSG grid pack with new (fast) PandoraPFA from J.Marshall
Jul.27, 2016: Simulation of SiFCC-hh (v7) detector for 100 TeV (pp) (rfull008)
Jul.24, 2016: Inclusive jets (100 TeV pp) tev100_qcd_pythia8_ptall
Jul.13, 2016: Increase in statistics for ttbar+b (13 TeV pp) to 2.1 ab-1 tev13_mg5_ttbar_bjet
Jun.20, 2016: Samples with single and double K-long for calorimeter studies. See KL samples
May 19, 2016: Creating rfull007 for the SiFCC-hh (v5) detector with coarse HCAL granularity
May 19, 2016: Re-processing rfull006 for SiFCC-hh (v4) after fixing endcap.
Apr 8, 2016: H+ttbar (MG5) for 13 TeV (pp) (link)
Apr 3, 2016: A new tag for fast simulation of 14 TeV (pp) (rfast004)
Mar.29, 2016: Simulation of SiFCC-hh (v4) detector for 100 TeV (pp) (rfull006)
Mar.26, 2016. All data sources were redirected to OSG due to a problem at ANL
Mar.9, 2016: Fast simulation of ttbar+N jet process (pp, 14 TeV, MG5) (link)
Mar.4, 2016: Full simulation of SiFCC-hh (v3) detector for 100 TeV (pp) (rfull005)
Feb.5, 2016: Single particles for ITK studies (ATLAS phase II upgrade) (link)
Feb.1, 2016: Z' with M=10,20,40 TeV decaying to qqbar, ttbar, WW for full simulations (link)
Jan.19, 2016: 10 TeV Z' using a full simulation with 40 and 64 HCAL layers (link)
Jan.14, 2016: TTbar+N jet process (pp, 14 TeV, MG5) (link)
Jan.06, 2016: Heavy Higgs simulation (mu+mu-, 5 TeV) (link)
Dec.17, 2015: Full SiD detector simulation of Zprime (10 TeV) to WW (link)
Dec.17, 2015: Heavy higgs simulation for pp at 100 TeV (link)
Dec.07, 2015: Full SiD detector simulation of Zprime to tautau (link)
Nov.25, 2015: Particle gun samples for detector performance studies (pgun)
Nov.18, 2015: Simulation of ttbar+bjet at 13,14,100 TeV (mg5_ttbar_bjet)
Nov.9, 2015: Full simulation for e+e- (250 GeV) for SiD-CC (rfull002)
Nov.6, 2015: Fast simulation of DIS events for EIC (141gev%rfast001)
Oct.22, 2015: DIS events at the EIC collider (141 GeV)
Oct.16, 2015: Delphes 3.3 fast simulation for ATLAS-like (13tev%rfast002) and CMS-like (13tev%rfast003) detectors. Same for 14 TeV.
Oct.16, 2015: b-tagging was corrected for the tag rfast002
Oct.15, 2015: Please update hs-toolkit.tgz
Oct.9, 2015: Delphes 3.3 simulation of pp events (100 TeV) using the FCC detector (rfast002)
Oct.6, 2015: Full simulation. e+e- events (250 GeV) for the SiD detector (rfull001)
Sep.27, 2015: Fast simulation. e+e- events (250 GeV) for the ILD detector (rfast001)

# HepSim script using DataMelt http://jwork.org/dmelt
# Part of =HepMC= : https://atlaswww.hep.anl.gov/asc/hepsim/
# S.Chekanov (ANL)
from java.lang import *
from proto import FileMC   # import FileMC
from java.util import ArrayList 
from hep.physics.vec import BasicHepLorentzVector 
from jhplot.utils import FileList
from java.awt import Color,Font
from jhplot import  HPlot,P1D,HLabel,H1D
from jhplot.io import HBook
from hephysics.particle import LParticle 
from hep.physics.jet import DurhamJetFinder
from hepsim import HepSim
import sys

url="";  Nfiles=2 # 2 files to process for checking 
default_www="http://mc.hep.anl.gov/asc/hepsim/events/ee/250gev/pythia8_higgs_bbar/"
if len(sys.argv)>1:
   if sys.argv[1].startswith("http"):
              flist=HepSim.getList(sys.argv[1])
              url=sys.argv[1]
   else:     # from local directory 
       flist=FileList.get(sys.argv[1],"promc")
   if (len(sys.argv)>2): TotalEvents=int(sys.argv[2])
else:
   url=default_www; flist=HepSim.getList(url)
if len(flist)==0: print "Error: No input file!"; sys.exit(0)
else: print "Found "+str(len(flist))+" files. Nr files to process= ",Nfiles

# print "Print analyse list=",flist

fjet=DurhamJetFinder(0.01) # DurhamJet with y_cut=0.01 

h1= H1D("PT(jet)",50,10,200.)  
h2= H1D("Rapidity(jet)",50,-5,5.)
#h1.doc()               # check its methods

cross=0; nev=0;  # Nfiles=len(flist)
for m in range(Nfiles):             # loop over all files in this list    
   file=FileMC(url+flist[m])        # get input file
   header = file.getHeader()
   un=float(header.getMomentumUnit()) # conversion units
   lunit=float(header.getLengthUnit())
   if m==0:
       print "ProMC v=",file.getVersion(), "E(varint)=",un,"L(varint)t=",lunit 
   for i in range(file.size()):
      nev=nev+1
      if (nev%500==0): print "Event=",nev 
      eve = file.read(i)
      pa = eve.getParticles()   # particle information
      ve = eve.getEvent()       # event information
      particles=ArrayList() # list of particles 
      for j in range(pa.getPxCount()): 
        if (pa.getStatus(j)==1):     # stable
           px=pa.getPx(j)/un         # pX
           py=pa.getPy(j)/un         # pY
           pz=pa.getPz(j)/un         # pZ
           e= pa.getEnergy(j)/un     # energy
           mass= pa.getMass(j)/un    # mass
           p=BasicHepLorentzVector(e,px,py,pz)
           particles.add(p) # add particle to the list 
      fjet.setEvent(particles)
      alljets=[] # make a new list with jets 
      for j in range(fjet.njets()):
         # print "Jet=",i," Nr of particles in jet =",fjet.nParticlesPerJet(i) 
         pjet=fjet.jet(j)   # make  HepLorentzVector
         ee=pjet.t()  # magnitude
         p3=pjet.v3() # 3-vector  
         pl=LParticle(p3.x(),p3.y(),p3.z(),ee) # convert to a class with convinient kenematics 
         alljets.append(pl)  
      for j in range(len(alljets)):
          jet=alljets[j]
          h1.fill(jet.perp())
          h2.fill(jet.rapidity())
 
   stat = file.getStat()
   cross=stat.getCrossSectionAccumulated()
   erro=stat.getCrossSectionErrorAccumulated();
   file.close()

lumi=nev/cross;
print "Lumi=%.3e pb"%lumi
print "Total cross section (pb)=",cross
c1 = HPlot("=HepSim=",600,600,1,2)
c1.visible(True)
# c1.setAutoRange()
# c1.setLogScale(1,True)
c1.setMarginLeft(100)
c1.setNameX("p_{T} [GeV]")
c1.setNameY("d σ / d p_{T} [pb/GeV]")
c1.setRange(0,200,0.0, 0.015)

Z=h1.getDividedByBinWidth()
Z.scale(1.0/lumi)
xsec1=P1D(Z)
xsec1.setErr(1)       # show errors
xsec1.setColor(Color.blue)
c1.draw(Z)
# c1.draw(xsec1)
# h1.toTable() 

l1=HLabel("Durham jets  σ=%.3e pb"%cross, 0.3, 0.75, "NDC")
l1.setFont(Font("Helvetica", Font.PLAIN, 14))
c1.add(l1)
l2=HLabel("=HepSim=",0.4,0.87, "NDC")
l2.setColor(Color.gray)
l2.setFont(Font("Helvetica", Font.PLAIN, 14))
c1.add(l2)

# plot rapidity
c1.cd(1,2)
c1.setNameX("Rapidity")
c1.setNameY("Events")
c1.setMarginLeft(100)
c1.setAutoRange()
c1.setRangeX(-5,5)
c1.draw(h2)

# create file/image using name of the file
name="output"
if len(sys.argv[0])>0: name=sys.argv[0].replace(".py","")
file=HBook(name+".jdat","w"); print name+".jdat created"
file.write(xsec1)
file.close()
c1.export(name+".svg");    print name+".svg created"
# xsec.toFile(name+".txt");  print name+".txt created"
# sys.exit(0)