Acceleration of optical coherence tomography signal processing by multi-graphics processing units

Xiqi Li; Guohua Shi; Ping Huang; Yudong Zhang

doi:10.1142/s1793545814500102

Journal of Innovative Optical Health Sciences, Volume. 7, Issue 3, 1450010(2014)

Acceleration of optical coherence tomography signal processing by multi-graphics processing units

Xiqi Li1...2, Guohua Shi1,2, Ping Huang3, and Yudong Zhang12,* |Show fewer author(s)

Author Affiliations

¹The Key Laboratory on Adaptive Optics Chinese Academy of Sciences Chengdu 610209, P. R. China

²Institute of Optics and Electronics Chinese Academy of Sciences Chengdu 610209, P. R. China

³Department of Ophthalmology Peking University Third Hospital Beijing 100191, P. R. China

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References(14)

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[2] [2] L. An et al., "High speed spectral domain optical coherence tomography for retinal imaging at 500,000 A-lines per second," Biomed. Opt. Express 2 (10), 2770–2783 (2011).

[3] [3] C. Blatter et al., "Ultrahigh-speed non-invasive widefield angiography," J. Biomed. Opt. 17(7), 070505 (2012).

[4] [4] J. Xu, C. Zhang, J. Xu et al., 5 MHz all-optical sweptsource coherence tomography based on amplified dispersive Fourier transform, Novel Techniques in Microscopy, Waikoloa Beach, Hawaii, US, NW5B (2013).

[5] [5] K. Goda, A. Fard, O. Malik et al., "High-throughput optical coherence tomography at 800 nm," Opt. Express 20(18), 19612–19614 (2012).

[6] [6] NVIDIA CUDA. Available at http://developer. nvidia.com/object/cuda.html.

[7] [7] K. Zhang, J. U. Kang, "Real-time 4D signal processing and visualization using graphics processing unit on a regular nonlinear-k Fourier-domain OCT system," Opt. Express 18, 11772–11784 (2010).

[8] [8] Y. Jian, K. Wong, M. V. Sarunic, "Graphics processing unit accelerated optical coherence tomography processing at megahertz axial scan rate and high resolution video rate volumetric rendering," J. Biomed. Opt. 18(2), 026002 (2013).

[9] [9] C. Dorrer, N. Belabas, J.-P. Likforman, M. Joffre, "Spectral resolution and sampling issues in Fouriertransform spectral interferometry," J. Opt. Soc. Am. B 17, 1795–1802 (2000).

[10] [10] Y. Watanabe, S. Maeno, K. Aoshima, H. Hasegawa, H. Koseki, "Real-time processing for full-range Fourier-domain optical-coherence tomography with zero-filling interpolation using multiple graphic processing units," Appl. Opt. 49(25), 4756–4762 (2010).

[11] [11] K. Zhang, J. U. Kang, "Graphics processing unitbased ultrahigh speed real-time fourier domain optical coherence tomography," IEEE. Sel. Top. 8(4), 1270–1279 (2012).

[12] [12] Y. Zhang, X. Li, L. Wei, K. Wang, Z. Ding, G. Shi, "Time-domain interpolation for Fourier-domain optical coherence tomography," Opt. Lett. 34, 18490–1851 (2009).

[13] [13] X. Li, G. Shi et al., "Time-domain interpolation on graphics processing unit," J. Innov. Opt. Health Sci. 4(01), 89–95 (2011).

[14] [14] X. Li, G. Shi et al., "High-speed spectral domain optical coherence tomography signal processing with time-domain interpolation using graphics processing unit," J. Innov. Opt. Health Sci. 4(03), 325–335 (2011).

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Xiqi Li, Guohua Shi, Ping Huang, Yudong Zhang. Acceleration of optical coherence tomography signal processing by multi-graphics processing units[J]. Journal of Innovative Optical Health Sciences, 2014, 7(3): 1450010

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Paper Information

Received: Sep. 12, 2013

Accepted: Nov. 6, 2013

Published Online: Jan. 10, 2019

The Author Email: Zhang Yudong (ydzh_ioe@163.com)

DOI:10.1142/s1793545814500102

Topics

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