doc/v624/tmva101__Training_8py_source.html

## \file

## \ingroup tutorial_tmva

## \notebook -nodraw

## This tutorial show how you can train a machine learning model with any package

## reading the training data directly from ROOT files. Using XGBoost, we illustrate

## how you can convert an externally trained model in a format serializable and readable

## with the fast tree inference engine offered by TMVA.

##

## \macro_code

## \macro_output

##

## \date August 2019

## \author Stefan Wunsch


import ROOT

import numpy as np

import pickle


from tmva100_DataPreparation import variables


def load_data(signal_filename, background_filename):

    # Read data from ROOT files

    data_sig = ROOT.RDataFrame("Events", signal_filename).AsNumpy()

    data_bkg = ROOT.RDataFrame("Events", background_filename).AsNumpy()


    # Convert inputs to format readable by machine learning tools

    x_sig = np.vstack([data_sig[var] for var in variables]).T

    x_bkg = np.vstack([data_bkg[var] for var in variables]).T

    x = np.vstack([x_sig, x_bkg])


    # Create labels

    num_sig = x_sig.shape[0]

    num_bkg = x_bkg.shape[0]

    y = np.hstack([np.ones(num_sig), np.zeros(num_bkg)])


    # Compute weights balancing both classes

    num_all = num_sig + num_bkg

    w = np.hstack([np.ones(num_sig) * num_all / num_sig, np.ones(num_bkg) * num_all / num_bkg])


    return x, y, w


if __name__ == "__main__":

    # Load data

    x, y, w = load_data("train_signal.root", "train_background.root")


    # Fit xgboost model

    from xgboost import XGBClassifier

    bdt = XGBClassifier(max_depth=3, n_estimators=500)

    bdt.fit(x, y, w)


    # Save model in TMVA format

    ROOT.TMVA.Experimental.SaveXGBoost(bdt, "myBDT", "tmva101.root")

ROOT::RDataFrame
ROOT's RDataFrame offers a high level interface for analyses of data stored in TTrees,...
Definition RDataFrame.hxx:42