First Author: Xin Li

Correspondence Author: Qiang He,Hao Tong

Co-author: Xiangshui Miao

Journal: IEEE Electron Device Letters

Included Journals: SCI

Discipline: Engineering

First-Level Discipline: Electronic Science And Technology

Document Type: J

Key Words: Resistance,Programming,Crystallization,Threshold voltage,Switches,Phase change memory,Phase change materials

Abstract: Phase change materials, which has been focused on the non-volatile memory field, show the possibility to carry out data storage and computing in the same physical location. However, the resistance drift behavior of phase change memory has been a huge barrier not only to traditional binary memory application for a long time, but to multi-level storage and therefore the neural network computing. Here, a bipolar programming scheme is exploited to achieve drift-reduced intermediate states and convolutional neural network (CNN) computations in Ge2Sb2Te5 (GST) based memory cells. Experiments show that the resistance drift phenomena under bipolar programming have been reduced. Furthermore, the impact of bipolar operation on CNN for inference is investigated. This work provides effective means for implementing phase change neuromorphic processor with enhanced stability.