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Implementation of monolithic 3D integrated TiO memristor-based neural network for high-performance in-memory computing

Yongsu An, Dowon Kim, Young Ran Park, Jung Sun Eo, Mingyu Kim, Donghyeok Kim, Hyeon Bin Kim, Byung‐Geun Lee, Gunuk Wang

2025Nano Energy15 citationsDOIOpen Access PDF

Abstract

The monolithic three-dimensional (M3D) integration of memristor arrays with silicon transistors facilitates energy-efficient parallel data processing and attains high-density arrays, representing a breakthrough approach for in-memory computing systems. In this study, we designed and fabricated a 1-kbit M3D integration of TiO x memristor (1 M) and the transmission gate-inverter circuit comprising of four MOSFETs as a transistor-selector (1TS), confirming both operational voltage range and current levels between 1 M and 1TS are well aligned. The designed 1TS efficiently eradicates voltage drops and substantially alleviates sneak current due to its high ON/OFF ratio of 7.18 × 10 7 , providing robust binary inputs with lower power consumption . Essential synaptic functions for 1-kbit 1 M and 1TS-1M arrays were validated, demonstrating consistent and robust LTP and LTD functions across 3000 pulses, with varying learning rates corresponding to the programming voltage schemes. Our 1-kbit 1TS-1M array architecture has the potential to be scaled to a 1.14 Tbit crossbar array without cell interference, becoming one of the largest M3D of memristor array configurations for in-memory computing and suggesting its capability to operate complex models. It demonstrates the viability of deploying a large-scale in-memory computing system efficient for accurately learning and recognizing complex tasks. This 1TS-1M array system achieved up to 79.47 % and 84.89 % recognition accuracies for the CIFAR-10 and UTK face images dataset, respectively, even in the limited convolution and pooling layers in the convolution neural network (CNN).

Topics & Concepts

Materials scienceMemristorArtificial neural networkNeuromorphic engineeringNanotechnologyOptoelectronicsComputer architectureElectronic engineeringArtificial intelligenceComputer scienceEngineeringAdvanced Memory and Neural ComputingNeuroscience and Neural EngineeringFerroelectric and Negative Capacitance Devices