Improving Parametric Neural Networks for High-Energy Physics (and Beyond)

Signal-background classification is a central problem in High-Energy Physics, that plays a major role for the discovery of new fundamental particles. A recent method -- the Parametric Neural Network (pNN) -- leverages multiple signal mass hypotheses as an additional input feature to effectively replace a whole set of individual classifier, each providing (in principle) the best response for a single mass hypothesis. In this work we aim at deepening the understanding of pNNs in light of real-world usage. We discovered several peculiarities of parametric networks, providing intuition, metrics, and guidelines to them. We further propose an alternative parametrization scheme, resulting in a new parametrized neural network architecture: the AffinePNN; along with many other generally applicable improvements. Finally, we extensively evaluate our models on the HEPMASS dataset, along its imbalanced version (called HEPMASS-IMB) we provide here for the first time to further validate our approach. Provided results are in terms of the impact of the proposed design decisions, classification performance, and interpolation capability as well.