The Image Identification Application with HfO2-Based Replaceable 1T1R Neural Networks

This paper mainly studies the hardware implementation of a fully connected neural network based on the 1T1R (one-transistor-one-resistor) array and its application in handwritten digital image recognition. The 1T1R arrays are prepared by connecting the memristor and nMOSFET in series, and a single-layer and a double-layer fully connected neural network are established. The recognition accuracy of 8 x 8 handwritten digital images reaches 95.19%. By randomly replacing the devices with failed devices, it is found that the stuck-off devices have little effect on the accuracy of the network, but the stuck-on devices will cause a sharp reduction of accuracy. By using the measured conductivity adjustment range and precision data of the memristor, the relationship between the recognition accuracy of the network and the number of hidden neurons is simulated. The simulation results match the experimental results. Compared with the neural network based on the precision of 32-bit floating point, the difference is lower than 1%.

Automated summary

This paper studies the hardware implementation of a fully connected neural network based on the 1T1R array and its application in handwritten digital image recognition. Experimental and simulation analysis show the relationship between the recognition accuracy of the network and the number of hidden neurons. The results indicate that the network has high recognition accuracy and the impact of failed devices on accuracy is minimal.