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Flexible Active Crossbar Arrays Using Amorphous Oxide Semiconductor Technology toward Artificial Neural Networks Hardware

Maria Pereira, Jonas Deuermeier, Cátia Figueiredo, Ângelo Santos, Guilherme Carvalho, Vítor Grade Tavares, Rodrigo Martins, Elvira Fortunato, Pedro Barquinha, Asal Kiazadeh

2022Advanced Electronic Materials27 citationsDOIOpen Access PDF

Abstract

Abstract Memristor crossbar arrays can compose the efficient hardware for artificial intelligent applications. However, the requirements for a linear and symmetric synaptic weight update and low cycle‐to‐cycle (C2C) and device‐to‐device variability as well as the sneak‐path current issue have been delaying its further development. This study reports on a thin‐film amorphous oxide‐based 4×4 1‐transistor 1‐memristor (1T1M) crossbar. The a‐IGZO crossbar is built on a flexible polyimide substrate, enabling IoT and wearable applications. In the novel framework, the thin‐film transistor and memristor are fabricated at the same level, with the same processing steps and sharing the same materials for all layers. The 1T1M cells show linear and symmetrical plasticity characteristic with low C2C variability. The memristor performs like an analog dot product engine and vector–matrix multiplications in the 4×4 crossbars is demonstrated experimentally, in which the sneak‐path current issue is successfully suppressed, resulting in a proof‐of‐concept for a cost‐effective, flexible artificial neural networks hardware.

Topics & Concepts

Crossbar switchNeuromorphic engineeringMemristorMaterials scienceTransistorArtificial neural networkPath (computing)Computer scienceComputer hardwareVoltageElectronic engineeringElectrical engineeringEngineeringArtificial intelligenceProgramming languageTelecommunicationsAdvanced Memory and Neural ComputingTransition Metal Oxide NanomaterialsFerroelectric and Negative Capacitance Devices
Flexible Active Crossbar Arrays Using Amorphous Oxide Semiconductor Technology toward Artificial Neural Networks Hardware | Litcius