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ROOT
Reference Guide |
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ROOT
Reference Guide |
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Files | |
| Bessel.C | |
  Show the different kinds of Bessel functions available in ROOT To execute the macro type in: | |
| Bessel.py | |
| Show the different kinds of Bessel functions available in ROOT To execute the macro type in: | |
| binomial.C | |
| tutorial illustrating the use of TMath::Binomial can be run with: | |
| BreitWigner.C | |
| Tutorial illustrating how to create a plot comparing a Breit Wigner to a Relativistic Breit Wigner | |
| ChebyshevPol.C | |
| Example of Chebyshev polynomials using new TFormula pre-defined definitions of chebyshev polynomials | |
| chi2test.C | |
| Example to use chi2 test for comparing two histograms One unweighted histogram is compared with a weighted histogram. | |
| CrystalBall.C | |
| Example of CrystalBall Function and its distribution (pdf and cdf) | |
| exampleFunction.py | |
| Example of using Python functions and input to numerical algorithm using the ROOT Functor class | |
| exampleFunctor.C | |
| Tutorial illustrating how creating a TF1 class using functor or class member functions | |
| exampleMultiRoot.C | |
| Example of using multiroot finder based on GSL algorithm. | |
| exampleTKDE.C | |
| Example of using the TKDE class (kernel density estimator) | |
| FeldmanCousins.C | |
| Example macro of using the TFeldmanCousins class in root. | |
| GammaFun.C | |
| Example showing the usage of the major special math functions (gamma, beta, erf) in ROOT To execute the macro type in: | |
| goftest.C | |
| GoFTest tutorial macro | |
| hlquantiles.C | |
| Demo for quantiles (with highlight mode) | |
| kdTreeBinning.C | |
| kdTreeBinning tutorial: bin the data in cells of equal content using a kd-tree | |
| Legendre.C | |
| Example of first few Legendre Polynomials | |
| Legendre.py | |
| Example of first few Legendre Polynomials. | |
| LegendreAssoc.C | |
| Example describing the usage of different kinds of Associate Legendre Polynomials To execute the macro type in: | |
| limit.C | |
| This program demonstrates the computation of 95 % C.L. | |
| mathBeta.C | |
| Test the TMath::BetaDist and TMath::BetaDistI functions | |
| mathcoreCDF.C | |
| Example describing how to use the different cumulative distribution functions in ROOT. | |
| mathcoreGenVector.C | |
| Example macro testing available methods and operation of the GenVector classes. | |
| mathcoreSpecFunc.C | |
| Example macro describing how to use the special mathematical functions taking full advantage of the precision and speed of the C99 compliant environments. | |
| mathcoreStatFunc.C | |
| Example macro showing some major probability density functions in ROOT. | |
| mathcoreStatFunc.py | |
| Example macro showing some major probability density functions in ROOT. | |
| mathcoreVectorCollection.C | |
| Example showing how to write and read a std vector of ROOT::Math LorentzVector in a ROOT tree. | |
| mathcoreVectorFloatIO.C | |
| Macro illustrating I/O with Lorentz Vectors of floats The dictionary for LorentzVector of float is not in the libMathCore, therefore is generated when parsed the file with CLING. | |
| mathcoreVectorIO.C | |
| Example of I/O of a mathcore Lorentz Vectors in a Tree and comparison with a TLorentzVector. | |
| mathGammaNormal.C | |
| Tutorial illustrating the use of TMath::GammaDist and TMath::LogNormal | |
| mathLaplace.C | |
| Test the TMath::LaplaceDist and TMath::LaplaceDistI functions | |
| mathmoreIntegration.C | |
| Example on the usage of the adaptive 1D integration algorithm of MathMore it calculates the numerically cumulative integral of a distribution (like in this case the BreitWigner) to execute the macro type it (you need to compile with AClic) | |
| mathStudent.C | |
| Tutorial illustrating the use of the Student and F distributions | |
| multidimSampling.C | |
| Example of sampling a multi-dim distribution using the DistSampler class NOTE: This tutorial must be run with ACLIC | |
| multivarGaus.C | |
| Tutorial illustrating the multivariate gaussian random number generation | |
| normalDist.C | |
| Tutorial illustrating the new statistical distributions functions (pdf, cdf and quantile) | |
| normalDist.py | |
| Tutorial illustrating the new statistical distributions functions (pdf, cdf and quantile) | |
| permute.C | |
| Tutorial illustrating the use of TMath::Permute can be run with: | |
| principal.C | |
| Principal Components Analysis (PCA) example | |
| principal.py | |
| Principal Components Analysis (PCA) example | |
| quantiles.C | |
| Demo for quantiles | |
| quasirandom.C | |
| Example of generating quasi-random numbers | |
| Rolke.C | |
| Example of the usage of the TRolke class The TRolke class computes the profile likelihood confidence limits for 7 different model assumptions on systematic/statistical uncertainties | |
| testrandom.C | |
| Performance test of all the ROOT random generator (TRandom, TRandom1, TRandom2 and TRandom3) Tests the generator TRandom3 against some ref values and creates a timing table against TRandom, TRandom1 and TRandom2. | |
| tStudent.C | |
| Example macro describing the student t distribution | |
| tStudent.py | |
| Example macro describing the student t distribution | |
| TSVDUnfoldExample.C | |
| Data unfolding using Singular Value Decomposition | |
| vavilov.C | |
| Test of the TMath::Vavilov distribution | |
