A Reconfigurable Layered-Based Bio-Inspired Smart Image Sensor

2019 IEEE Computer Society Annual Symposium on VLSI (ISVLSI) Pub Date : 2019-07-01 DOI:10.1109/ISVLSI.2019.00039

Pankaj Bhowmik, Md Jubaer Hossain Pantho, S. Saha, C. Bobda

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Abstract

This paper presents a hardware architecture to extract features from an image using the concepts of bio-inspired computing and a method of converting sequential image processing to parallel computational processing units that can execute on the sensor. These computational units are oriented on vertically integrated hierarchical planes and enabled with a region based Attention Module which separates the Regions of Interest (ROIs) from the image. In each layer, the computational units work in parallel and introduce massive parallelism at the pixel level. At the same time, the design saves dynamic power by dynamically enabling and disabling the computational units which ensure high-performance and high-throughput. Moreover, the units are made reconfigurable to support a wide range of machine vision applications by forming a basic structure that is common to all operations and reconfigurable parts for a specific application. Our simulation result shows the design achieves 4.852X power savings on ROIs while processing at 465 Kfps with 800 MHz clock frequency.

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一种可重构分层生物智能图像传感器

本文提出了一种硬件架构，利用生物启发计算的概念从图像中提取特征，并提出了一种将顺序图像处理转换为可在传感器上执行的并行计算处理单元的方法。这些计算单元面向垂直集成的层次平面，并启用基于区域的注意力模块，该模块将感兴趣的区域(roi)从图像中分离出来。在每一层中，计算单元并行工作，并在像素级引入大量并行性。同时，该设计通过动态启用和禁用计算单元来节省动态功耗，确保高性能和高吞吐量。此外，这些单元是可重构的，通过形成一个对所有操作和特定应用的可重构部件通用的基本结构来支持广泛的机器视觉应用。我们的仿真结果表明，该设计在800 MHz时钟频率下以465 Kfps处理时，在roi上节省了4.85倍的功耗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 IEEE Computer Society Annual Symposium on VLSI (ISVLSI)

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