ML4Jets2024

Towards Universal Unfolding using Denoising Diffusion

7 Nov 2024, 16:20

20m

Amphi Charpak

Unfolding & Inference

Speaker

Martin Klassen (Tufts University (US))

Description

Correcting for detector effects in experimental data, particularly through unfolding, is critical for enabling precision measurements in high-energy physics. However, traditional unfolding methods face challenges in scalability, flexibility, and dependence on simulations. We introduce a novel approach to multidimensional particle-wise unfolding using conditional Denoising Diffusion Probabilistic Models (cDDPM). Our method utilizes the cDDPM for a non-iterative, flexible posterior sampling approach, incorporating distribution moments as conditioning information, which exhibits a strong inductive bias that allows it to generalize to unseen physics processes without explicitly assuming the underlying distribution. Our results highlight the potential of this method as a step towards a ``universal'' unfolding tool that reduces dependence on truth-level assumptions.

Presentation materials

ML4Jets_cDDPM.pdf