自编码
计算机科学
卷积神经网络
压缩(物理)
图像(数学)
图像压缩
人工智能
计算机数据存储
模式识别(心理学)
深度学习
图像处理
计算机硬件
材料科学
复合材料
作者
Yulin Feng,Yizhou Zhang,Zheng Zhou,Peng Huang,Lifeng Liu,Xiaoyan Liu,Jinfeng Kang
标识
DOI:10.1038/s41467-024-45312-0
摘要
The exponential growth of various complex images is putting tremendous pressure on storage systems. Here, we propose a memristor-based storage system with an integrated near-storage in-memory computing-based convolutional autoencoder compression network to boost the energy efficiency and speed of the image compression/retrieval and improve the storage density. We adopt the 4-bit memristor arrays to experimentally demonstrate the functions of the system. We propose a step-by-step quantization aware training scheme and an equivalent transformation for transpose convolution to improve the system performance. The system exhibits a high (>33 dB) peak signal-to-noise ratio in the compression and decompression of the ImageNet and Kodak24 datasets. Benchmark comparison results show that the 4-bit memristor-based storage system could reduce the latency and energy consumption by over 20×/5.6× and 180×/91×, respectively, compared with the server-grade central processing unit-based/the graphics processing unit-based processing system, and improve the storage density by more than 3 times.
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