Recent advances in artificial intelligence, coupled with increasing data bandwidth requirements, in applications such as video processing and high-resolution sensing, have created a growing demand for high computational performance under stringent energy constraints, especially for battery-powered and edge devices. To address this, we present a mixed-signal adiabatic capacitive neural network chip, designed in a 130nm CMOS technology, to demonstrate significant energy savings coupled with high image classification accuracy. Our dual-layer hardware chip, incorporating 16 single-cycle multiply-accumulate engines, can reliably distinguish between 4 classes of 8x8 1-bit images, with classification results over 95\%, within 2.7\% of an equivalent software version. Energy measurements reveal average energy savings between 2.1x and 6.8x, compared to an equivalent CMOS capacitive implementation.
@article{arxiv.2512.14642,
title = {An Energy-Efficient Adiabatic Capacitive Neural Network Chip},
author = {Himadri Singh Raghav and Sachin Maheshwari and Mike Smart and Patrick Foster and Alex Serb},
journal= {arXiv preprint arXiv:2512.14642},
year = {2026}
}
Comments
28 pages, 9 figures, 4 tables. This work has been submitted to Nature Communications for possible publication