An Efficient In-Memory Computing Architecture for Image Enhancement in AI Applications

计算机科学 电阻随机存取存储器 分割 边缘计算 图像处理 人工智能 随机计算 计算机硬件 计算机工程 计算机体系结构 GSM演进的增强数据速率 人工神经网络 图像(数学) 电极 物理化学 化学
作者
Meriem Bettayeb,Fakhreddine Zayer,Heba Abunahla,Gabriele Gianini,Baker Mohammad
出处
期刊:IEEE Access [Institute of Electrical and Electronics Engineers]
卷期号:10: 48229-48241 被引量:20
标识
DOI:10.1109/access.2022.3171799
摘要

Random spray retinex (RSR) is an effective image enhancement algorithm owing to its effectiveness in improving the image quality. However, the computing complexity of the algorithm, the required hardware resources, and memory access hamper its deployment in many application scenarios, for instance, in IoT systems with limited hardware resources. With the rise of artificial intelligence (AI), the use of image enhancement has become essential for improving the performance of many emerging applications. In this paper, we propose the use of RSR as a preprocessing filter before the task of semantic segmentation of low-quality urban road scenes. Using the publicly available Cityscapes dataset, we compared the performance of a pre-trained deep semantic segmentation network on dark and noisy images with that of RSR preprocessed images. Our findings confirm the effectiveness of RSR in improving segmentation accuracy. In addition, to address the computational complexity and suitability of edge devices, we propose a novel and efficient implementation of RSR using resistive random access memory (RRAM) technology. This architecture provides highly parallel analog in-memory computing (IMC) capabilities. A detailed, efficient, and low-latency implementation of RSR using RRAM-CMOS technology is described. The design was verified using SPICE simulations with measured data from the fabricated RRAM and 65 nm CMOS technologies. The approach presented here represents an important step towards a low-complexity, real-time hardware-friendly architecture and the design of retinex algorithms for edge devices.
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