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Multidimensional efficiency maps are commonly used in high-energy physics experiments to mitigate the limitations in the generation of large samples of simulated events. Binned efficiency maps are however strongly limited by statistics. We propose a neural network approach to learn ratios of local densities to estimate in an optimal fashion efficiencies as a function of a set of parameters. Graph neural network techniques are used to account for the high dimensional correlations between different physics objects in the event. We show in a specific toy model how this method is applicable to produce accurate multidimensional efficiency maps for heavy-flavor tagging classifiers in HEP experiments, including for processes on which it was not trained.

Efficiency Parameterization with Neural Networks / Di Bello, F. A.; Shlomi, J.; Badiali, C.; Frattari, G.; Gross, E.; Ippolito, V.; Kado, M.. - In: COMPUTING AND SOFTWARE FOR BIG SCIENCE. - ISSN 2510-2036. - 5:1(2021). [10.1007/s41781-021-00059-x]

Efficiency Parameterization with Neural Networks

Di Bello F. A.
;Frattari G.;Ippolito V.;Kado M.
2021

Abstract

Multidimensional efficiency maps are commonly used in high-energy physics experiments to mitigate the limitations in the generation of large samples of simulated events. Binned efficiency maps are however strongly limited by statistics. We propose a neural network approach to learn ratios of local densities to estimate in an optimal fashion efficiencies as a function of a set of parameters. Graph neural network techniques are used to account for the high dimensional correlations between different physics objects in the event. We show in a specific toy model how this method is applicable to produce accurate multidimensional efficiency maps for heavy-flavor tagging classifiers in HEP experiments, including for processes on which it was not trained.
2021
Fitting methods; Neural networks; Performance of high energy physics detectors
01 Pubblicazione su rivista::01a Articolo in rivista
Efficiency Parameterization with Neural Networks / Di Bello, F. A.; Shlomi, J.; Badiali, C.; Frattari, G.; Gross, E.; Ippolito, V.; Kado, M.. - In: COMPUTING AND SOFTWARE FOR BIG SCIENCE. - ISSN 2510-2036. - 5:1(2021). [10.1007/s41781-021-00059-x]
01a Articolo in rivista
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1561255
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