Data-driven Approximate Edge Detection using Flow-based Computing on Memristor Crossbars

Jodh S. Pannu, Sunny Raj, S. Fernandes, Sumit Kumar Jha, Dwaipayan Chakraborty, Sarah Rafiq, N. Cady
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引用次数: 4

Abstract

Detection of edges in images is an elementary operation in computer vision that can greatly benefit from an implementation with a low power-delay product. In this paper, we propose a new approach for designing nanoscale memristor crossbars that can implement approximate edge-detection using flow-based computing. Instead of the traditional Boolean approach, our methodology uses a ternary logic approach with three outcomes: True representing an edge, False that representing the absence of an edge, and Don’t Care that represents an ambivalent response. Our data-driven design approach uses a corpus of human-labeled edges in order to learn the concept of an edge in an image. A massively parallel simulated annealing search algorithm over 96 processes is used to obtain the design of the memristor crossbar for edge detection. We show that our approximate crossbar design is effective in computing edges of images on the BSD500 benchmark.
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基于流计算的忆阻器横条数据驱动近似边缘检测
图像边缘检测是计算机视觉中的一项基本操作,它可以从低功耗延迟产品的实现中受益匪浅。在本文中,我们提出了一种新的方法来设计纳米级记忆电阻横条,可以实现近似边缘检测基于流计算。与传统的布尔方法不同,我们的方法使用了三种结果的三元逻辑方法:True表示有边,False表示没有边,Don 't Care表示矛盾的响应。我们的数据驱动设计方法使用人工标记的边缘语料库来学习图像中边缘的概念。采用96次大规模并行模拟退火搜索算法,得到了用于边缘检测的忆阻交叉棒的设计。我们在BSD500基准上证明了我们的近似横杆设计在计算图像边缘方面是有效的。
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