Smart Pixels: In-pixel AI for on-sensor data filtering
Abstract
We present a smart pixel prototype readout integrated circuit (ROIC) designed in CMOS 28 nm bulk process, with in-pixel implementation of an artificial intelligence (AI) / machine learning (ML) based data filtering algorithm designed as proof-of-principle for a Phase III upgrade at the Large Hadron Collider (LHC) pixel detector. The first version of the ROIC consists of two matrices of 256 smart pixels, each 2525 m in size. Each pixel consists of a charge-sensitive preamplifier with leakage current compensation and three auto-zero comparators for a 2-bit flash-type ADC. The frontend is capable of synchronously digitizing the sensor charge within 25 ns. Measurement results show an equivalent noise charge (ENC) of 30e and a total dispersion of 100e The second version of the ROIC uses a fully connected two-layer neural network (NN) to process information from a cluster of 256 pixels to determine if the pattern corresponds to highly desirable high-momentum particle tracks for selection and readout. The digital NN is embedded in-between analog signal processing regions of the 256 pixels without increasing the pixel size and is implemented as fully combinatorial digital logic to minimize power consumption and eliminate clock distribution, and is active only in the presence of an input signal. The total power consumption of the neural network is 300 W. The NN performs momentum classification based on the generated cluster patterns and even with a modest momentum threshold, it is capable of 54.4\% - 75.4\% total data rejection, opening the possibility of using the pixel information at 40MHz for the trigger. The total power consumption of analog and digital functions per pixel is 6 W per pixel, which corresponds to 1 W/cm staying within the experimental constraints.
Cite
@article{arxiv.2406.14860,
title = {Smart Pixels: In-pixel AI for on-sensor data filtering},
author = {Benjamin Parpillon and Chinar Syal and Jieun Yoo and Jennet Dickinson and Morris Swartz and Giuseppe Di Guglielmo and Alice Bean and Douglas Berry and Manuel Blanco Valentin and Karri DiPetrillo and Anthony Badea and Lindsey Gray and Petar Maksimovic and Corrinne Mills and Mark S. Neubauer and Gauri Pradhan and Nhan Tran and Dahai Wen and Farah Fahim},
journal= {arXiv preprint arXiv:2406.14860},
year = {2024}
}
Comments
IEEE NSS MIC RSTD 2024