Real-Time Wiener Deconvolution for feature reconstruction in JUNO

L. Lastrucci; M. Grassi; A. Triossi; J. Hu; X. Jiang; R. Brugnera; A. Garfagnini; V. Cerrone; L. V. D'Auria; A. Gavrikov; R. M. Guizzetti; A. Serafini; G. Andronico; V. Antonelli; A. Barresi; D. Basilico; M. Beretta; A. Bergnoli; M. Borghesi; A. Brigatti; R. Bruno; A. Budano; B. Caccianiga; A. Cammi; R. Caruso; D. Chiesa; C. Clementi; C. Coletta; S. Dusini; A. Fabbri; G. Felici; G. Ferrante; M. G. Giammarchi; N. Giudice; N. Guardone; F. Houria; A. Islam; C. Landini; I. Lippi; L. Loi; P. Lombardi; F. Mantovani; S. M. Mari; A. Martini; L. Miramonti; M. Montuschi; M. Nastasi; D. Orestano; F. Ortica; A. Paoloni; L. Pelicci; E. Percalli; F. Petrucci; E. Previtali; G. Ranucci; A. C. Re; B. Ricci; A. Romani; C. Sirignano; M. Sisti; L. Stanco; E. Stanescu Farilla; V. Strati; M. D. C. Torri; C. Tuv\`e; C. Venettacci; G. Verde; L. Votano; G. Dong; J. Dong; L. Fan; S. Hou; Z. Ning; Y. Sun; Y. Wang; Z. Wang; X. Yan

arXiv:2603.25436·physics.ins-det·March 27, 2026

Real-Time Wiener Deconvolution for feature reconstruction in JUNO

L. Lastrucci, M. Grassi, A. Triossi, J. Hu, X. Jiang, R. Brugnera, A. Garfagnini, V. Cerrone, L. V. D'Auria, A. Gavrikov, R. M. Guizzetti, A. Serafini, G. Andronico, V. Antonelli, A. Barresi, D. Basilico, M. Beretta, A. Bergnoli, M. Borghesi, A. Brigatti, R. Bruno, A. Budano

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TL;DR

This paper introduces a real-time Wiener deconvolution algorithm optimized for FPGA implementation to enhance feature reconstruction in JUNO's neutrino detection, enabling efficient processing of high-volume data streams.

Contribution

The paper presents a novel FPGA-based Wiener deconvolution method tailored for real-time signal reconstruction in neutrino experiments, improving low-energy event detection.

Findings

01

Effective real-time processing with minimal latency

02

Enhanced detection of low-energy neutrino signals

03

Demonstrated high throughput on JUNO electronic hardware

Abstract

In particle physics, experiments generate substantial amounts of data that can be difficult to process without preliminary scaling. To avoid losing potentially crucial data, experimental collaborations are studying novel techniques for real-time data processing to extract features for further physics analysis. A common approach, especially in neutrino physics, is to use FPGAs for data acquisition and pre-processing. This paper presents an advanced Real-Time Wiener deconvolution algorithm designed to leverage the processing capabilities of the FPGA integrated into the readout boards of the Jiangmen Underground Neutrino Observatory (JUNO). The goal is to enable real-time reconstruction of the signal generated by photomultiplier tubes (PMTs) when neutrino interactions are detected. By exploiting online reconstruction of the signal generated by PMTs, we expect to improve the detection of…

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Taxonomy

TopicsNeutrino Physics Research · Particle physics theoretical and experimental studies · Particle Detector Development and Performance