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Physical Computing With No Clock to Implement the Gaussian Pyramid of SIFT Algorithm

lib:9cd0b4c359cc2fe6 (v1.0.0)

Authors: Yi Li,Qi Wei,Fei Qiao,Huazhong Yang
ArXiv: 1408.2289
Document:  PDF  DOI 
Abstract URL: http://arxiv.org/abs/1408.2289v1


Physical computing is a technology utilizing the nature of electronic devices and circuit topology to cope with computing tasks. In this paper, we propose an active circuit network to implement multi-scale Gaussian filter, which is also called Gaussian Pyramid in image preprocessing. Various kinds of methods have been tried to accelerate the key stage in image feature extracting algorithm these years. Compared with existing technologies, GPU parallel computing and FPGA accelerating technology, physical computing has great advantage on processing speed as well as power consumption. We have verified that processing time to implement the Gaussian pyramid of the SIFT algorithm stands on nanosecond level through the physical computing technology, while other existing methods all need at least hundreds of millisecond. With an estimate on the stray capacitance of the circuit, the power consumption is around 670pJ to filter a 256x256 image. To the best of our knowledge, this is the most fast processing technology to accelerate the SIFT algorithm, and it is also a rather energy-efficient method, thanks to the proposed physical computing technology.

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