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community:refhepsim_analysis [2015/09/15 19:53]
asc 		community:refhepsim_analysis [2016/04/28 15:24] (current)
asc [HepSim Analysis Primer]
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 For C++/ROOT, please refer [[asc:promc| ProMC web page]]. For C++/ROOT, please refer [[asc:promc| ProMC web page]].
  
-To ensure platform independence and a possibility to run programs using web browsers, validation programs are written in Jython, which is an implementation of the Python language on the Java platform.+To ensure platform independence and a possibility to run programs using web browsers [(Cross-platform validation and analysis environment for particle physics, S.V. Chekanov, I. Pogrebnyak, D. Wilbern, arXiv:1510.06638 http://arxiv.org/abs/1510.06638)], validation programs are written in Jython, which is an implementation of the Python language on the Java platform.
 Look at several links: Look at several links:
  
   * [[http://www.jython.org/jythonbook/en/1.0/| Jython book]]   * [[http://www.jython.org/jythonbook/en/1.0/| Jython book]]
-  * [[http://jwork.org/dmelt/wikidoc/doku.php?id=start| DMelt manual]]+  * [[http://jwork.org/dmelt/wikidoc/doku.php?id=start| DMelt manual (community version)]]
  
  
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   * "hs-ide file.py" command to launch the editor (from the hs-tools package)   * "hs-ide file.py" command to launch the editor (from the hs-tools package)
   * "hs-run file.py" command to run using a command-line ("batch mode", from the hs-tools package)   * "hs-run file.py" command to run using a command-line ("batch mode", from the hs-tools package)
 +  * [[http://atlaswww.hep.anl.gov/asc/jas4pp/| Jas4pp]]
   * [[http://jwork.org/dmelt/ |DMelt  IDE]]    * [[http://jwork.org/dmelt/ |DMelt  IDE]] 
  
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                  print "pT of a leading jet =",jets[0].perp()," GeV"                   print "pT of a leading jet =",jets[0].perp()," GeV" 
 </code> </code>
-To build anti-kT jets, we use [[http://jwork.org/dmelt/api/doc.php/hephysics/jet/JetN2|JetN2 clustering algorithm]] implemented in Java. It is a similar to FastJet N*N algorithm and typically shows +To build anti-kT jets, we use [[http://jwork.org/dmelt/api/doc.php/hephysics/jet/JetN2|JetN2 clustering algorithm]] implemented in Java. 
 +The description of this algorithm is given in [[http://arxiv.org/abs/1510.06638]]. 
 + It is a similar to FastJet N*N algorithm and typically shows 
 a performance similar to the C++ analogue. Tests indicate that the JetN2 clustering algorithm is about twice slower that C++, but by a factor 20 faster than the traditional N^3 jet clustering algorithms. You can find benchmarking results in [[https://github.com/chekanov/hepjet/|HepJet]] github repository. a performance similar to the C++ analogue. Tests indicate that the JetN2 clustering algorithm is about twice slower that C++, but by a factor 20 faster than the traditional N^3 jet clustering algorithms. You can find benchmarking results in [[https://github.com/chekanov/hepjet/|HepJet]] github repository.
 Look at a typical example of jet clustering in the [[http://atlaswww.hep.anl.gov/hepsim/code.php?item=88&code=qcd_pythia8_ptbins_jets.py| qcd_pythia8_ptbins_jets.py code]]. Look at a typical example of jet clustering in the [[http://atlaswww.hep.anl.gov/hepsim/code.php?item=88&code=qcd_pythia8_ptbins_jets.py| qcd_pythia8_ptbins_jets.py code]].
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 stored inside ProMC data files: stored inside ProMC data files:
  
-  * [[http://jwork.org/dmelt/api/doc.php/jhplot/HPlot | HPlot]] - simple canvas to show graphs +===== Histograms and plots ===== 
-  * [[http://jwork.org/dmelt/api/doc.php/jhplot/H1D | H1D]] - 1D histogram + 
-  * [[http://jwork.org/dmelt/api/doc.php/jhplot/H1D | H2D]] - 2D histogram +  * [[http://jwork.org/dmelt/api/doc.php/jhplot/HPlot|HPlot]] - canvas to show X-Y data and histograms in 2D 
-  * [[http://jwork.org/dmelt/api/doc.php/hephysics/hepsim/PromcUtil|PromcUtil]] convenient method to fill arrays with particles from ProMc files+  * [[http://jwork.org/dmelt/api/doc.php/jhplot/HPlot|HPlot3D]] - canvas to show X-Y-Z data and histograms in 3D 
 +  * [[http://jwork.org/dmelt/api/doc.php/jhplot/H1D|H1D]] - 1D histogram 
 +  * [[http://jwork.org/dmelt/api/doc.php/jhplot/H1D|H2D]] - 2D histogram 
 +  * [[http://jwork.org/dmelt/api/doc.php/jhplot/P1D|P1D]] - X-Y container with support of 2-level errors 
 + 
 +See also other math and graphics classes in the [[http://jwork.org/dmelt/api/doc.php/jhplot/package-summary | jhplot package]].  
 +===== Lorentz particles and Jets ===== 
 + 
 +  * [[http://jwork.org/dmelt/api/doc.php/hephysics/hepsim/PromcUtil|PromcUtil]] convenient method to fill arrays with particles from ProMC files
   * [[http://jwork.org/dmelt/api/doc.php/hephysics/particle/LParticle|LParticle]] a HEP particle with the Lorentz transformations   * [[http://jwork.org/dmelt/api/doc.php/hephysics/particle/LParticle|LParticle]] a HEP particle with the Lorentz transformations
   * [[http://jwork.org/dmelt/api/doc.php/hephysics/jet/FastParticle|FastParticle]] a HEP particles with precomputed Et2,Eta,Phi for jet algorithms.    * [[http://jwork.org/dmelt/api/doc.php/hephysics/jet/FastParticle|FastParticle]] a HEP particles with precomputed Et2,Eta,Phi for jet algorithms. 
-  * [[http://jwork.org/dmlt/api/doc.php/hephysics/jet/JetN2|JetN2]] recommended kt-type jet clustering algorithms (kT, anti-kT) implemented in Java using N^2 approach, similar to FastJet +  * [[http://java.freehep.org/freehep-physics/apidocs/hep/physics/vec/package-summary.html|Physics vectors]] typical HEP physics vectors the Lorentz transformations 
-  * [[http://jwork.org/dmelt/api/doc.php/hephysics/jet/SCJet|SCJet]] traditional kt-type jet clustering algorithms (kT, anti-kT) implemented in Java using N^3 approach.+  * [[http://jwork.org/dmelt/api/doc.php/hephysics/jet/JetN2|JetN2]] recommended kt-type jet clustering ng algorithms (kT, anti-kT, CA) implemented in Java using N^2 approach, similar to the FastJet algorithm. Recommended for hadron collisions 
 +  * [[http://jwork.org/dmelt/api/doc.php/hephysics/jet/SCJet|SCJet]] traditional kt-type jet clustering algorithms (kT, anti-kT) for pp implemented in Java using N^3 approach (slow)  
 +  * [[http://java.freehep.org/freehep-physics/apidocs/hep/physics/jet/package-summary.html|Jets and event shapes]] traditional jet algorithms and event shapes for e+e- (Geneva, Jade, Durham jets) 
      
      
 Java implementation of the longitudinally invariant kT and anti-kT clustering algorithms uses the E-scheme to combine particles (p1+p2) and Eta-Phi space (not Rapidity-Phi). Also, Cambridge/Aachen jets are supported.   [[https://github.com/chekanov/hepjet/|HepJet on github]] shows  benchmarks of the Java implementation of the anti-KT with the original FastJet package. Java implementation of the longitudinally invariant kT and anti-kT clustering algorithms uses the E-scheme to combine particles (p1+p2) and Eta-Phi space (not Rapidity-Phi). Also, Cambridge/Aachen jets are supported.   [[https://github.com/chekanov/hepjet/|HepJet on github]] shows  benchmarks of the Java implementation of the anti-KT with the original FastJet package.
  
-See also other classes in [[http://jwork.org/dmelt/api/doc.php/jhplot/package-summary | jhplot package summary]]. +
 You can build the standard kt-jets using [[http://jwork.org/dmelt/api/doc.php/hephysics/hepsim/PromcUtil | PromcUtil]], followed by the  You can build the standard kt-jets using [[http://jwork.org/dmelt/api/doc.php/hephysics/hepsim/PromcUtil | PromcUtil]], followed by the 
-[[http://jwork.org/dmelt/api/doc.php/hephysics/jet/KTjet | KTjet]] class. Also, look at the ProMC Java API that is used to store data:+[[http://jwork.org/dmelt/api/doc.php/hephysics/jet/KTjet | KTjet]] class.  
 + 
 +===== Working with ProMC files ===== 
 + 
 +Also, look at the ProMC Java API that is used to store data:
  
   * [[http://atlaswww.hep.anl.gov/asc/promc/doc/api/promc/io/ProMCHeaderFile.ProMCHeader.html | ProMCHeader]] for MC and [[http://atlaswww.hep.anl.gov/asc/promc/doc/api/pronlo/io/ProMCHeaderFile.ProMCHeader.html | ProMCHeader]] for NLO   * [[http://atlaswww.hep.anl.gov/asc/promc/doc/api/promc/io/ProMCHeaderFile.ProMCHeader.html | ProMCHeader]] for MC and [[http://atlaswww.hep.anl.gov/asc/promc/doc/api/pronlo/io/ProMCHeaderFile.ProMCHeader.html | ProMCHeader]] for NLO
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 information on event weights and uncertainties. information on event weights and uncertainties.
  
-The project uses the core of [[http://jwork.org/dmelt/|DMelt]] project and  the FreeHEP Java Libraries.+The project uses the community edition of [[http://jwork.org/dmelt/|DMelt]] project and  the FreeHEP Java Libraries.
  
  --- //[[[email protected]|Sergei Chekanov]] 2015/03/06 08:49//  --- //[[[email protected]|Sergei Chekanov]] 2015/03/06 08:49//
community/refhepsim_analysis.1442346799.txt.gz · Last modified: 2015/09/15 19:53 by asc

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