Advanced Intelligent Systems (Feb 2021)

Efficient Defect Identification via Oxide Memristive Crossbar Array Based Morphological Image Processing

  • Hee Sung Lee,
  • Yongmin Baek,
  • Qiubao Lin,
  • Joseph Minsu Chen,
  • Minseong Park,
  • Doeon Lee,
  • Sihwan Kim,
  • Kyusang Lee

DOI
https://doi.org/10.1002/aisy.202000202
Journal volume & issue
Vol. 3, no. 2
pp. n/a – n/a

Abstract

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Defect identification has been a significant task in various fields to prevent the potential problems caused by imperfection. There is great attention for developing technology to accurately extract defect information from the image using a computing system without human error. However, image analysis using conventional computing technology based on Von Neumann structure is facing bottlenecks to efficiently process the huge volume of input data at low power and high speed. Herein efficient defect identification is demonstrated via a morphological image process with minimal power consumption using an oxide transistor and a memristor‐based crossbar array that can be applied to neuromorphic computing. Using a hardware and software codesigned neuromorphic system combined with a dynamic Gaussian blur kernel operation, an enhanced defect detection performance is successfully demonstrated with about 104 times more power‐efficient computation compared to the conventional complementary metal‐oxide semiconductor (CMOS)‐based digital implementation. It is believed the back end of line (BEOL)‐compatible all‐oxide‐based memristive crossbar array provides the unique potential toward universal artificial intelligence of things (AIoT) applications where conventional hardware can hardly be used.

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