Abstract

Electro-holography is a promising display technology that can reconstruct a photorealistic three-dimensional (3D) movie; however, it is yet to be realized practically owing to the need for enormous calculation power. A special-purpose computer for electro-holography, namely HORN, has been studied for over 20 years as a means to solve this problem. The latest version of HORN, HORN-8, was developed using field programmable gate array (FPGA) technology. Initially, a circuit for amplitude-type electro-holography was implemented in HORN-8; however, implementation of phase-type electro-holography has remained an issue. In this paper, the development of new version of HORN-8 and its cluster system, which achieved a real-time reconstruction of a 3D movie with point clouds comprised of 32,000 points for phase-type electro-holography, was reported.

© 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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References

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2018 (1)

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

2017 (1)

T. Nishitsuji, T. Shimobaba, T. Kakue, and T. Ito, “Review of Fast Calculation Techniques for Computer-Generated Holograms With the Point-Light-Source-Based Model,” IEEE Trans. Ind. Inf. 13, 2447–2454 (2017).
[Crossref]

2016 (1)

T. Shimobaba, T. Kakue, and T. Ito, “Review of Fast Algorithms and Hardware Implementations on Computer Holography,” IEEE Trans. Ind. Inf. 12, 1611–1622 (2016).
[Crossref]

2015 (3)

2014 (3)

2012 (2)

Y. Ichihashi, R. Oi, T. Senoh, K. Yamamoto, and T. Kurita, “Real-time capture and reconstruction system with multiple GPUs for a 3D live scene by a generation from 4K IP images to 8K holograms,” Opt. Express 20, 21645–21655 (2012).
[Crossref] [PubMed]

T. Shimobaba, J. Weng, T. Sakurai, N. Okada, T. Nishitsuji, N. Takada, A. Shiraki, N. Masuda, and T. Ito, “Computational wave optics library for C++: CWO++ library,” Comput. Phys. Commun. 183, 1124–1138 (2012).
[Crossref]

2010 (1)

2009 (4)

2008 (2)

2006 (2)

2005 (1)

2002 (1)

T. Shimobaba, S. Hishinuma, and T. Ito, “Special-purpose computer for holography HORN-4 with recurrence algorithm,” Comput. Phys. Commun. 148(2), 160–170 (2002).
[Crossref]

2001 (1)

T. Shimobaba and T. Ito, “An efficient computational method suitable for hardware of computer-generated hologram with phase computation by addition,” Comput. Phys. Commun. 138, 44–52 (2001).
[Crossref]

2000 (1)

T. Shimobaba, N. Masuda, T. Sugie, S. Hosono, S. Tsukui, and T. Ito, “Special-purpose computer for holography HORN-3 with PLD technology,” Comput. Phys. Commun. 130(1), 75–82 (2000).
[Crossref]

1996 (1)

T. Ito, H. Eldeib, K. Yoshida, S. Takahashi, T. Yabe, and T. Kunugi, “Special-purpose computer for holography HORN-2,” Comput. Phys. Commun. 93(1), 13–20 (1996).
[Crossref]

1994 (1)

T. Ito, T. Yabe, M. Okazaki, and M. Yanagi, “Special-purpose computer HORN-1 for reconstruction of virtual image in three dimensions,” Comput. Phys. Commun. 82(2), 104–110 (1994).
[Crossref]

1993 (1)

M. E. Lucente, “Interactive computation of holograms using a look-up table,” J. Electron. Imaging 2, 28–34 (1993).
[Crossref]

1976 (1)

1948 (1)

D. Gabor, “A new microscopic principle,” Nature 161, 777–778 (1948).
[Crossref] [PubMed]

Abelem, A.

R. Gomes, W. Junior, E. Cerqueira, and A. Abelem, “A QoE Fuzzy Routing Protocol for Wireless Mesh Networks,” in Future Multimedia Networking (SpringerBerlin Heidelberg, 2010), pp. 1–12.

Akamatsu, T.

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

Arai, D.

Araki, H.

Cerqueira, E.

R. Gomes, W. Junior, E. Cerqueira, and A. Abelem, “A QoE Fuzzy Routing Protocol for Wireless Mesh Networks,” in Future Multimedia Networking (SpringerBerlin Heidelberg, 2010), pp. 1–12.

Chen, B.

Z.-Y. Pang, Z.-X. Xu, Y. Xiong, B. Chen, H.-M. Dai, S.-J. Jiang, and J.-W. Dong, “Hardware architecture for full analytical Fraunhofer computer-generated holograms,” Opt. Eng. 54, 095101 (2015).
[Crossref]

Chong, T.-C.

Dai, H.-M.

Z.-Y. Pang, Z.-X. Xu, Y. Xiong, B. Chen, H.-M. Dai, S.-J. Jiang, and J.-W. Dong, “Hardware architecture for full analytical Fraunhofer computer-generated holograms,” Opt. Eng. 54, 095101 (2015).
[Crossref]

Dong, J.-W.

Z.-Y. Pang, Z.-X. Xu, Y. Xiong, B. Chen, H.-M. Dai, S.-J. Jiang, and J.-W. Dong, “Hardware architecture for full analytical Fraunhofer computer-generated holograms,” Opt. Eng. 54, 095101 (2015).
[Crossref]

Dong, X.-B.

Eldeib, H.

T. Ito, H. Eldeib, K. Yoshida, S. Takahashi, T. Yabe, and T. Kunugi, “Special-purpose computer for holography HORN-2,” Comput. Phys. Commun. 93(1), 13–20 (1996).
[Crossref]

Endo, Y.

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

Gabor, D.

D. Gabor, “A new microscopic principle,” Nature 161, 777–778 (1948).
[Crossref] [PubMed]

Gomes, R.

R. Gomes, W. Junior, E. Cerqueira, and A. Abelem, “A QoE Fuzzy Routing Protocol for Wireless Mesh Networks,” in Future Multimedia Networking (SpringerBerlin Heidelberg, 2010), pp. 1–12.

Hirai, D.

N. Okada, D. Hirai, Y. Ichihashi, A. Shiraki, T. Kakue, T. Shimobaba, N. Masuda, and T. Ito, “Special-purpose computer HORN-7 with FPGA technology for phase modulation type electro-holography,” IDW/AD’12 Proc. Int. Display Workshops 3Dp–26 (2012).

Hirayama, R.

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

Hishinuma, S.

T. Shimobaba, S. Hishinuma, and T. Ito, “Special-purpose computer for holography HORN-4 with recurrence algorithm,” Comput. Phys. Commun. 148(2), 160–170 (2002).
[Crossref]

Hosono, S.

T. Shimobaba, N. Masuda, T. Sugie, S. Hosono, S. Tsukui, and T. Ito, “Special-purpose computer for holography HORN-3 with PLD technology,” Comput. Phys. Commun. 130(1), 75–82 (2000).
[Crossref]

Ichihashi, Y.

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

Y. Ichihashi, R. Oi, T. Senoh, K. Yamamoto, and T. Kurita, “Real-time capture and reconstruction system with multiple GPUs for a 3D live scene by a generation from 4K IP images to 8K holograms,” Opt. Express 20, 21645–21655 (2012).
[Crossref] [PubMed]

Y. Ichihashi, H. Nakayama, T. Ito, N. Masuda, T. Shimobaba, A. Shiraki, and T. Sugie, “HORN-6 special-purpose clustered computing system for electroholography,” Comput. Phys. Commun. 93, 13–20 (2009).

N. Okada, D. Hirai, Y. Ichihashi, A. Shiraki, T. Kakue, T. Shimobaba, N. Masuda, and T. Ito, “Special-purpose computer HORN-7 with FPGA technology for phase modulation type electro-holography,” IDW/AD’12 Proc. Int. Display Workshops 3Dp–26 (2012).

Ito, T.

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

T. Nishitsuji, T. Shimobaba, T. Kakue, and T. Ito, “Review of Fast Calculation Techniques for Computer-Generated Holograms With the Point-Light-Source-Based Model,” IEEE Trans. Ind. Inf. 13, 2447–2454 (2017).
[Crossref]

T. Shimobaba, T. Kakue, and T. Ito, “Review of Fast Algorithms and Hardware Implementations on Computer Holography,” IEEE Trans. Ind. Inf. 12, 1611–1622 (2016).
[Crossref]

T. Nishitsuji, T. Shimobaba, T. Kakue, D. Arai, and T. Ito, “Simple and fast cosine approximation method for computer-generated hologram calculation,” Opt. Express 23, 32465–32470 (2015).
[Crossref] [PubMed]

K. Murano, T. Shimobaba, A. Sugiyama, N. Takada, T. Kakue, M. Oikawa, and T. Ito, “Fast computation of computer-generated hologram using Xeon Phi coprocessor,” Comput. Phys. Commun. 185, 2742–2757 (2014).
[Crossref]

H. Niwase, N. Takada, H. Araki, H. Nakayama, A. Sugiyama, T. Kakue, T. Shimobaba, and T. Ito, “Real-time spatiotemporal division multiplexing electroholography with a single graphics processing unit utilizing movie features,” Opt. Express 22, 28052–28057 (2014).
[Crossref] [PubMed]

T. Shimobaba, J. Weng, T. Sakurai, N. Okada, T. Nishitsuji, N. Takada, A. Shiraki, N. Masuda, and T. Ito, “Computational wave optics library for C++: CWO++ library,” Comput. Phys. Commun. 183, 1124–1138 (2012).
[Crossref]

T. Nishitsuji, T. Shimobaba, T. Kakue, N. Masuda, and T. Ito, “Fast calculation of computer-generated hologram using the circular symmetry of zone plates,” Opt. Express 18, 19504–19509 (2010).

T. Shimobaba, N. Masuda, and T. Ito, “Simple and fast calculation algorithm for computer-generated hologram with wavefront recording plane,” Opt. Lett. 34, 3133–3135 (2009).
[Crossref] [PubMed]

Y. Ichihashi, H. Nakayama, T. Ito, N. Masuda, T. Shimobaba, A. Shiraki, and T. Sugie, “HORN-6 special-purpose clustered computing system for electroholography,” Comput. Phys. Commun. 93, 13–20 (2009).

N. Masuda, T. Ito, T. Tanaka, A. Shiraki, and T. Sugie, “Computer generated holography using a graphics processing unit,” Opt. Express 14, 603–608 (2006).
[Crossref] [PubMed]

T. Ito, N. Masuda, K. Yoshimura, A. Shiraki, T. Shimobaba, and T. Sugie, “Special-purpose computer HORN-5 for a real-time electroholography,” Opt. Express 13(6), 1923–1932 (2005).
[Crossref] [PubMed]

T. Shimobaba, S. Hishinuma, and T. Ito, “Special-purpose computer for holography HORN-4 with recurrence algorithm,” Comput. Phys. Commun. 148(2), 160–170 (2002).
[Crossref]

T. Shimobaba and T. Ito, “An efficient computational method suitable for hardware of computer-generated hologram with phase computation by addition,” Comput. Phys. Commun. 138, 44–52 (2001).
[Crossref]

T. Shimobaba, N. Masuda, T. Sugie, S. Hosono, S. Tsukui, and T. Ito, “Special-purpose computer for holography HORN-3 with PLD technology,” Comput. Phys. Commun. 130(1), 75–82 (2000).
[Crossref]

T. Ito, H. Eldeib, K. Yoshida, S. Takahashi, T. Yabe, and T. Kunugi, “Special-purpose computer for holography HORN-2,” Comput. Phys. Commun. 93(1), 13–20 (1996).
[Crossref]

T. Ito, T. Yabe, M. Okazaki, and M. Yanagi, “Special-purpose computer HORN-1 for reconstruction of virtual image in three dimensions,” Comput. Phys. Commun. 82(2), 104–110 (1994).
[Crossref]

N. Okada, D. Hirai, Y. Ichihashi, A. Shiraki, T. Kakue, T. Shimobaba, N. Masuda, and T. Ito, “Special-purpose computer HORN-7 with FPGA technology for phase modulation type electro-holography,” IDW/AD’12 Proc. Int. Display Workshops 3Dp–26 (2012).

Jiang, S.-J.

Z.-Y. Pang, Z.-X. Xu, Y. Xiong, B. Chen, H.-M. Dai, S.-J. Jiang, and J.-W. Dong, “Hardware architecture for full analytical Fraunhofer computer-generated holograms,” Opt. Eng. 54, 095101 (2015).
[Crossref]

Junior, W.

R. Gomes, W. Junior, E. Cerqueira, and A. Abelem, “A QoE Fuzzy Routing Protocol for Wireless Mesh Networks,” in Future Multimedia Networking (SpringerBerlin Heidelberg, 2010), pp. 1–12.

Kakue, T.

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

T. Nishitsuji, T. Shimobaba, T. Kakue, and T. Ito, “Review of Fast Calculation Techniques for Computer-Generated Holograms With the Point-Light-Source-Based Model,” IEEE Trans. Ind. Inf. 13, 2447–2454 (2017).
[Crossref]

T. Shimobaba, T. Kakue, and T. Ito, “Review of Fast Algorithms and Hardware Implementations on Computer Holography,” IEEE Trans. Ind. Inf. 12, 1611–1622 (2016).
[Crossref]

T. Nishitsuji, T. Shimobaba, T. Kakue, D. Arai, and T. Ito, “Simple and fast cosine approximation method for computer-generated hologram calculation,” Opt. Express 23, 32465–32470 (2015).
[Crossref] [PubMed]

K. Murano, T. Shimobaba, A. Sugiyama, N. Takada, T. Kakue, M. Oikawa, and T. Ito, “Fast computation of computer-generated hologram using Xeon Phi coprocessor,” Comput. Phys. Commun. 185, 2742–2757 (2014).
[Crossref]

H. Niwase, N. Takada, H. Araki, H. Nakayama, A. Sugiyama, T. Kakue, T. Shimobaba, and T. Ito, “Real-time spatiotemporal division multiplexing electroholography with a single graphics processing unit utilizing movie features,” Opt. Express 22, 28052–28057 (2014).
[Crossref] [PubMed]

T. Nishitsuji, T. Shimobaba, T. Kakue, N. Masuda, and T. Ito, “Fast calculation of computer-generated hologram using the circular symmetry of zone plates,” Opt. Express 18, 19504–19509 (2010).

N. Okada, D. Hirai, Y. Ichihashi, A. Shiraki, T. Kakue, T. Shimobaba, N. Masuda, and T. Ito, “Special-purpose computer HORN-7 with FPGA technology for phase modulation type electro-holography,” IDW/AD’12 Proc. Int. Display Workshops 3Dp–26 (2012).

Kim, E.-S.

Kim, S.-C.

Kunugi, T.

T. Ito, H. Eldeib, K. Yoshida, S. Takahashi, T. Yabe, and T. Kunugi, “Special-purpose computer for holography HORN-2,” Comput. Phys. Commun. 93(1), 13–20 (1996).
[Crossref]

Kurita, T.

Liang, X.

Lucente, M. E.

M. E. Lucente, “Interactive computation of holograms using a look-up table,” J. Electron. Imaging 2, 28–34 (1993).
[Crossref]

Masuda, N.

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

T. Shimobaba, J. Weng, T. Sakurai, N. Okada, T. Nishitsuji, N. Takada, A. Shiraki, N. Masuda, and T. Ito, “Computational wave optics library for C++: CWO++ library,” Comput. Phys. Commun. 183, 1124–1138 (2012).
[Crossref]

T. Nishitsuji, T. Shimobaba, T. Kakue, N. Masuda, and T. Ito, “Fast calculation of computer-generated hologram using the circular symmetry of zone plates,” Opt. Express 18, 19504–19509 (2010).

T. Shimobaba, N. Masuda, and T. Ito, “Simple and fast calculation algorithm for computer-generated hologram with wavefront recording plane,” Opt. Lett. 34, 3133–3135 (2009).
[Crossref] [PubMed]

Y. Ichihashi, H. Nakayama, T. Ito, N. Masuda, T. Shimobaba, A. Shiraki, and T. Sugie, “HORN-6 special-purpose clustered computing system for electroholography,” Comput. Phys. Commun. 93, 13–20 (2009).

N. Masuda, T. Ito, T. Tanaka, A. Shiraki, and T. Sugie, “Computer generated holography using a graphics processing unit,” Opt. Express 14, 603–608 (2006).
[Crossref] [PubMed]

T. Ito, N. Masuda, K. Yoshimura, A. Shiraki, T. Shimobaba, and T. Sugie, “Special-purpose computer HORN-5 for a real-time electroholography,” Opt. Express 13(6), 1923–1932 (2005).
[Crossref] [PubMed]

T. Shimobaba, N. Masuda, T. Sugie, S. Hosono, S. Tsukui, and T. Ito, “Special-purpose computer for holography HORN-3 with PLD technology,” Comput. Phys. Commun. 130(1), 75–82 (2000).
[Crossref]

N. Okada, D. Hirai, Y. Ichihashi, A. Shiraki, T. Kakue, T. Shimobaba, N. Masuda, and T. Ito, “Special-purpose computer HORN-7 with FPGA technology for phase modulation type electro-holography,” IDW/AD’12 Proc. Int. Display Workshops 3Dp–26 (2012).

Matsushima, K.

Mishina, T.

Murano, K.

K. Murano, T. Shimobaba, A. Sugiyama, N. Takada, T. Kakue, M. Oikawa, and T. Ito, “Fast computation of computer-generated hologram using Xeon Phi coprocessor,” Comput. Phys. Commun. 185, 2742–2757 (2014).
[Crossref]

Nakahara, S.

Nakayama, H.

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

H. Niwase, N. Takada, H. Araki, H. Nakayama, A. Sugiyama, T. Kakue, T. Shimobaba, and T. Ito, “Real-time spatiotemporal division multiplexing electroholography with a single graphics processing unit utilizing movie features,” Opt. Express 22, 28052–28057 (2014).
[Crossref] [PubMed]

Y. Ichihashi, H. Nakayama, T. Ito, N. Masuda, T. Shimobaba, A. Shiraki, and T. Sugie, “HORN-6 special-purpose clustered computing system for electroholography,” Comput. Phys. Commun. 93, 13–20 (2009).

Nishitsuji, T.

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

T. Nishitsuji, T. Shimobaba, T. Kakue, and T. Ito, “Review of Fast Calculation Techniques for Computer-Generated Holograms With the Point-Light-Source-Based Model,” IEEE Trans. Ind. Inf. 13, 2447–2454 (2017).
[Crossref]

T. Nishitsuji, T. Shimobaba, T. Kakue, D. Arai, and T. Ito, “Simple and fast cosine approximation method for computer-generated hologram calculation,” Opt. Express 23, 32465–32470 (2015).
[Crossref] [PubMed]

T. Shimobaba, J. Weng, T. Sakurai, N. Okada, T. Nishitsuji, N. Takada, A. Shiraki, N. Masuda, and T. Ito, “Computational wave optics library for C++: CWO++ library,” Comput. Phys. Commun. 183, 1124–1138 (2012).
[Crossref]

T. Nishitsuji, T. Shimobaba, T. Kakue, N. Masuda, and T. Ito, “Fast calculation of computer-generated hologram using the circular symmetry of zone plates,” Opt. Express 18, 19504–19509 (2010).

Niwase, H.

Oi, R.

Oikawa, M.

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

K. Murano, T. Shimobaba, A. Sugiyama, N. Takada, T. Kakue, M. Oikawa, and T. Ito, “Fast computation of computer-generated hologram using Xeon Phi coprocessor,” Comput. Phys. Commun. 185, 2742–2757 (2014).
[Crossref]

Okada, N.

T. Shimobaba, J. Weng, T. Sakurai, N. Okada, T. Nishitsuji, N. Takada, A. Shiraki, N. Masuda, and T. Ito, “Computational wave optics library for C++: CWO++ library,” Comput. Phys. Commun. 183, 1124–1138 (2012).
[Crossref]

N. Okada, D. Hirai, Y. Ichihashi, A. Shiraki, T. Kakue, T. Shimobaba, N. Masuda, and T. Ito, “Special-purpose computer HORN-7 with FPGA technology for phase modulation type electro-holography,” IDW/AD’12 Proc. Int. Display Workshops 3Dp–26 (2012).

Okano, F.

Okazaki, M.

T. Ito, T. Yabe, M. Okazaki, and M. Yanagi, “Special-purpose computer HORN-1 for reconstruction of virtual image in three dimensions,” Comput. Phys. Commun. 82(2), 104–110 (1994).
[Crossref]

Okui, M.

Pan, Y.

Pang, Z.-Y.

Z.-Y. Pang, Z.-X. Xu, Y. Xiong, B. Chen, H.-M. Dai, S.-J. Jiang, and J.-W. Dong, “Hardware architecture for full analytical Fraunhofer computer-generated holograms,” Opt. Eng. 54, 095101 (2015).
[Crossref]

Poon, T.-C.

Sakurai, T.

T. Shimobaba, J. Weng, T. Sakurai, N. Okada, T. Nishitsuji, N. Takada, A. Shiraki, N. Masuda, and T. Ito, “Computational wave optics library for C++: CWO++ library,” Comput. Phys. Commun. 183, 1124–1138 (2012).
[Crossref]

Senoh, T.

Shimobaba, T.

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

T. Nishitsuji, T. Shimobaba, T. Kakue, and T. Ito, “Review of Fast Calculation Techniques for Computer-Generated Holograms With the Point-Light-Source-Based Model,” IEEE Trans. Ind. Inf. 13, 2447–2454 (2017).
[Crossref]

T. Shimobaba, T. Kakue, and T. Ito, “Review of Fast Algorithms and Hardware Implementations on Computer Holography,” IEEE Trans. Ind. Inf. 12, 1611–1622 (2016).
[Crossref]

T. Nishitsuji, T. Shimobaba, T. Kakue, D. Arai, and T. Ito, “Simple and fast cosine approximation method for computer-generated hologram calculation,” Opt. Express 23, 32465–32470 (2015).
[Crossref] [PubMed]

H. Niwase, N. Takada, H. Araki, H. Nakayama, A. Sugiyama, T. Kakue, T. Shimobaba, and T. Ito, “Real-time spatiotemporal division multiplexing electroholography with a single graphics processing unit utilizing movie features,” Opt. Express 22, 28052–28057 (2014).
[Crossref] [PubMed]

K. Murano, T. Shimobaba, A. Sugiyama, N. Takada, T. Kakue, M. Oikawa, and T. Ito, “Fast computation of computer-generated hologram using Xeon Phi coprocessor,” Comput. Phys. Commun. 185, 2742–2757 (2014).
[Crossref]

T. Shimobaba, J. Weng, T. Sakurai, N. Okada, T. Nishitsuji, N. Takada, A. Shiraki, N. Masuda, and T. Ito, “Computational wave optics library for C++: CWO++ library,” Comput. Phys. Commun. 183, 1124–1138 (2012).
[Crossref]

T. Nishitsuji, T. Shimobaba, T. Kakue, N. Masuda, and T. Ito, “Fast calculation of computer-generated hologram using the circular symmetry of zone plates,” Opt. Express 18, 19504–19509 (2010).

T. Shimobaba, N. Masuda, and T. Ito, “Simple and fast calculation algorithm for computer-generated hologram with wavefront recording plane,” Opt. Lett. 34, 3133–3135 (2009).
[Crossref] [PubMed]

Y. Ichihashi, H. Nakayama, T. Ito, N. Masuda, T. Shimobaba, A. Shiraki, and T. Sugie, “HORN-6 special-purpose clustered computing system for electroholography,” Comput. Phys. Commun. 93, 13–20 (2009).

T. Ito, N. Masuda, K. Yoshimura, A. Shiraki, T. Shimobaba, and T. Sugie, “Special-purpose computer HORN-5 for a real-time electroholography,” Opt. Express 13(6), 1923–1932 (2005).
[Crossref] [PubMed]

T. Shimobaba, S. Hishinuma, and T. Ito, “Special-purpose computer for holography HORN-4 with recurrence algorithm,” Comput. Phys. Commun. 148(2), 160–170 (2002).
[Crossref]

T. Shimobaba and T. Ito, “An efficient computational method suitable for hardware of computer-generated hologram with phase computation by addition,” Comput. Phys. Commun. 138, 44–52 (2001).
[Crossref]

T. Shimobaba, N. Masuda, T. Sugie, S. Hosono, S. Tsukui, and T. Ito, “Special-purpose computer for holography HORN-3 with PLD technology,” Comput. Phys. Commun. 130(1), 75–82 (2000).
[Crossref]

N. Okada, D. Hirai, Y. Ichihashi, A. Shiraki, T. Kakue, T. Shimobaba, N. Masuda, and T. Ito, “Special-purpose computer HORN-7 with FPGA technology for phase modulation type electro-holography,” IDW/AD’12 Proc. Int. Display Workshops 3Dp–26 (2012).

Shiraki, A.

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

T. Shimobaba, J. Weng, T. Sakurai, N. Okada, T. Nishitsuji, N. Takada, A. Shiraki, N. Masuda, and T. Ito, “Computational wave optics library for C++: CWO++ library,” Comput. Phys. Commun. 183, 1124–1138 (2012).
[Crossref]

Y. Ichihashi, H. Nakayama, T. Ito, N. Masuda, T. Shimobaba, A. Shiraki, and T. Sugie, “HORN-6 special-purpose clustered computing system for electroholography,” Comput. Phys. Commun. 93, 13–20 (2009).

N. Masuda, T. Ito, T. Tanaka, A. Shiraki, and T. Sugie, “Computer generated holography using a graphics processing unit,” Opt. Express 14, 603–608 (2006).
[Crossref] [PubMed]

T. Ito, N. Masuda, K. Yoshimura, A. Shiraki, T. Shimobaba, and T. Sugie, “Special-purpose computer HORN-5 for a real-time electroholography,” Opt. Express 13(6), 1923–1932 (2005).
[Crossref] [PubMed]

N. Okada, D. Hirai, Y. Ichihashi, A. Shiraki, T. Kakue, T. Shimobaba, N. Masuda, and T. Ito, “Special-purpose computer HORN-7 with FPGA technology for phase modulation type electro-holography,” IDW/AD’12 Proc. Int. Display Workshops 3Dp–26 (2012).

Solanki, S.

Sugie, T.

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

Y. Ichihashi, H. Nakayama, T. Ito, N. Masuda, T. Shimobaba, A. Shiraki, and T. Sugie, “HORN-6 special-purpose clustered computing system for electroholography,” Comput. Phys. Commun. 93, 13–20 (2009).

N. Masuda, T. Ito, T. Tanaka, A. Shiraki, and T. Sugie, “Computer generated holography using a graphics processing unit,” Opt. Express 14, 603–608 (2006).
[Crossref] [PubMed]

T. Ito, N. Masuda, K. Yoshimura, A. Shiraki, T. Shimobaba, and T. Sugie, “Special-purpose computer HORN-5 for a real-time electroholography,” Opt. Express 13(6), 1923–1932 (2005).
[Crossref] [PubMed]

T. Shimobaba, N. Masuda, T. Sugie, S. Hosono, S. Tsukui, and T. Ito, “Special-purpose computer for holography HORN-3 with PLD technology,” Comput. Phys. Commun. 130(1), 75–82 (2000).
[Crossref]

Sugiyama, A.

K. Murano, T. Shimobaba, A. Sugiyama, N. Takada, T. Kakue, M. Oikawa, and T. Ito, “Fast computation of computer-generated hologram using Xeon Phi coprocessor,” Comput. Phys. Commun. 185, 2742–2757 (2014).
[Crossref]

H. Niwase, N. Takada, H. Araki, H. Nakayama, A. Sugiyama, T. Kakue, T. Shimobaba, and T. Ito, “Real-time spatiotemporal division multiplexing electroholography with a single graphics processing unit utilizing movie features,” Opt. Express 22, 28052–28057 (2014).
[Crossref] [PubMed]

Takada, N.

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

K. Murano, T. Shimobaba, A. Sugiyama, N. Takada, T. Kakue, M. Oikawa, and T. Ito, “Fast computation of computer-generated hologram using Xeon Phi coprocessor,” Comput. Phys. Commun. 185, 2742–2757 (2014).
[Crossref]

H. Niwase, N. Takada, H. Araki, H. Nakayama, A. Sugiyama, T. Kakue, T. Shimobaba, and T. Ito, “Real-time spatiotemporal division multiplexing electroholography with a single graphics processing unit utilizing movie features,” Opt. Express 22, 28052–28057 (2014).
[Crossref] [PubMed]

T. Shimobaba, J. Weng, T. Sakurai, N. Okada, T. Nishitsuji, N. Takada, A. Shiraki, N. Masuda, and T. Ito, “Computational wave optics library for C++: CWO++ library,” Comput. Phys. Commun. 183, 1124–1138 (2012).
[Crossref]

Takahashi, S.

T. Ito, H. Eldeib, K. Yoshida, S. Takahashi, T. Yabe, and T. Kunugi, “Special-purpose computer for holography HORN-2,” Comput. Phys. Commun. 93(1), 13–20 (1996).
[Crossref]

Tan, C.

Tanaka, T.

Tanjung, R. B. A.

Tsang, P. W. M.

Tsukui, S.

T. Shimobaba, N. Masuda, T. Sugie, S. Hosono, S. Tsukui, and T. Ito, “Special-purpose computer for holography HORN-3 with PLD technology,” Comput. Phys. Commun. 130(1), 75–82 (2000).
[Crossref]

Weng, J.

T. Shimobaba, J. Weng, T. Sakurai, N. Okada, T. Nishitsuji, N. Takada, A. Shiraki, N. Masuda, and T. Ito, “Computational wave optics library for C++: CWO++ library,” Comput. Phys. Commun. 183, 1124–1138 (2012).
[Crossref]

Xiong, Y.

Z.-Y. Pang, Z.-X. Xu, Y. Xiong, B. Chen, H.-M. Dai, S.-J. Jiang, and J.-W. Dong, “Hardware architecture for full analytical Fraunhofer computer-generated holograms,” Opt. Eng. 54, 095101 (2015).
[Crossref]

Xu, X.

Xu, Z.-X.

Z.-Y. Pang, Z.-X. Xu, Y. Xiong, B. Chen, H.-M. Dai, S.-J. Jiang, and J.-W. Dong, “Hardware architecture for full analytical Fraunhofer computer-generated holograms,” Opt. Eng. 54, 095101 (2015).
[Crossref]

Yabe, T.

T. Ito, H. Eldeib, K. Yoshida, S. Takahashi, T. Yabe, and T. Kunugi, “Special-purpose computer for holography HORN-2,” Comput. Phys. Commun. 93(1), 13–20 (1996).
[Crossref]

T. Ito, T. Yabe, M. Okazaki, and M. Yanagi, “Special-purpose computer HORN-1 for reconstruction of virtual image in three dimensions,” Comput. Phys. Commun. 82(2), 104–110 (1994).
[Crossref]

Yamamoto, K.

Yanagi, M.

T. Ito, T. Yabe, M. Okazaki, and M. Yanagi, “Special-purpose computer HORN-1 for reconstruction of virtual image in three dimensions,” Comput. Phys. Commun. 82(2), 104–110 (1994).
[Crossref]

Yatagai, T.

Yoon, J.-H.

Yoshida, K.

T. Ito, H. Eldeib, K. Yoshida, S. Takahashi, T. Yabe, and T. Kunugi, “Special-purpose computer for holography HORN-2,” Comput. Phys. Commun. 93(1), 13–20 (1996).
[Crossref]

Yoshimura, K.

Appl. Opt. (5)

Comput. Phys. Commun. (8)

K. Murano, T. Shimobaba, A. Sugiyama, N. Takada, T. Kakue, M. Oikawa, and T. Ito, “Fast computation of computer-generated hologram using Xeon Phi coprocessor,” Comput. Phys. Commun. 185, 2742–2757 (2014).
[Crossref]

T. Ito, T. Yabe, M. Okazaki, and M. Yanagi, “Special-purpose computer HORN-1 for reconstruction of virtual image in three dimensions,” Comput. Phys. Commun. 82(2), 104–110 (1994).
[Crossref]

T. Ito, H. Eldeib, K. Yoshida, S. Takahashi, T. Yabe, and T. Kunugi, “Special-purpose computer for holography HORN-2,” Comput. Phys. Commun. 93(1), 13–20 (1996).
[Crossref]

T. Shimobaba, N. Masuda, T. Sugie, S. Hosono, S. Tsukui, and T. Ito, “Special-purpose computer for holography HORN-3 with PLD technology,” Comput. Phys. Commun. 130(1), 75–82 (2000).
[Crossref]

T. Shimobaba, S. Hishinuma, and T. Ito, “Special-purpose computer for holography HORN-4 with recurrence algorithm,” Comput. Phys. Commun. 148(2), 160–170 (2002).
[Crossref]

Y. Ichihashi, H. Nakayama, T. Ito, N. Masuda, T. Shimobaba, A. Shiraki, and T. Sugie, “HORN-6 special-purpose clustered computing system for electroholography,” Comput. Phys. Commun. 93, 13–20 (2009).

T. Shimobaba and T. Ito, “An efficient computational method suitable for hardware of computer-generated hologram with phase computation by addition,” Comput. Phys. Commun. 138, 44–52 (2001).
[Crossref]

T. Shimobaba, J. Weng, T. Sakurai, N. Okada, T. Nishitsuji, N. Takada, A. Shiraki, N. Masuda, and T. Ito, “Computational wave optics library for C++: CWO++ library,” Comput. Phys. Commun. 183, 1124–1138 (2012).
[Crossref]

IEEE Trans. Ind. Inf. (2)

T. Nishitsuji, T. Shimobaba, T. Kakue, and T. Ito, “Review of Fast Calculation Techniques for Computer-Generated Holograms With the Point-Light-Source-Based Model,” IEEE Trans. Ind. Inf. 13, 2447–2454 (2017).
[Crossref]

T. Shimobaba, T. Kakue, and T. Ito, “Review of Fast Algorithms and Hardware Implementations on Computer Holography,” IEEE Trans. Ind. Inf. 12, 1611–1622 (2016).
[Crossref]

J. Electron. Imaging (1)

M. E. Lucente, “Interactive computation of holograms using a look-up table,” J. Electron. Imaging 2, 28–34 (1993).
[Crossref]

Nature (1)

D. Gabor, “A new microscopic principle,” Nature 161, 777–778 (1948).
[Crossref] [PubMed]

Nature Electronics (1)

T. Sugie, T. Akamatsu, T. Nishitsuji, R. Hirayama, N. Masuda, H. Nakayama, Y. Ichihashi, A. Shiraki, M. Oikawa, N. Takada, Y. Endo, T. Kakue, T. Shimobaba, and T. Ito, “High-performance parallel computing for next-generation holographic imaging,” Nature Electronics 1(4), 254–259 (2018).
[Crossref]

Opt. Eng. (1)

Z.-Y. Pang, Z.-X. Xu, Y. Xiong, B. Chen, H.-M. Dai, S.-J. Jiang, and J.-W. Dong, “Hardware architecture for full analytical Fraunhofer computer-generated holograms,” Opt. Eng. 54, 095101 (2015).
[Crossref]

Opt. Express (9)

N. Masuda, T. Ito, T. Tanaka, A. Shiraki, and T. Sugie, “Computer generated holography using a graphics processing unit,” Opt. Express 14, 603–608 (2006).
[Crossref] [PubMed]

Y. Ichihashi, R. Oi, T. Senoh, K. Yamamoto, and T. Kurita, “Real-time capture and reconstruction system with multiple GPUs for a 3D live scene by a generation from 4K IP images to 8K holograms,” Opt. Express 20, 21645–21655 (2012).
[Crossref] [PubMed]

H. Niwase, N. Takada, H. Araki, H. Nakayama, A. Sugiyama, T. Kakue, T. Shimobaba, and T. Ito, “Real-time spatiotemporal division multiplexing electroholography with a single graphics processing unit utilizing movie features,” Opt. Express 22, 28052–28057 (2014).
[Crossref] [PubMed]

X.-B. Dong, S.-C. Kim, and E.-S. Kim, “MPEG-based novel look-up table for rapid generation of video holograms of fast-moving three-dimensional objects,” Opt. Express 22, 8047–8067 (2014).
[Crossref] [PubMed]

T. Nishitsuji, T. Shimobaba, T. Kakue, N. Masuda, and T. Ito, “Fast calculation of computer-generated hologram using the circular symmetry of zone plates,” Opt. Express 18, 19504–19509 (2010).

Y. Pan, X. Xu, S. Solanki, X. Liang, R. B. A. Tanjung, C. Tan, and T.-C. Chong, “Fast CGH computation using S-LUT on GPU,” Opt. Express 17, 18543–18555 (2009).
[Crossref]

P. W. M. Tsang and T.-C. Poon, “Fast generation of digital holograms based on warping of the wavefront recording plane,” Opt. Express 23, 7667–7673 (2015).
[Crossref] [PubMed]

T. Ito, N. Masuda, K. Yoshimura, A. Shiraki, T. Shimobaba, and T. Sugie, “Special-purpose computer HORN-5 for a real-time electroholography,” Opt. Express 13(6), 1923–1932 (2005).
[Crossref] [PubMed]

T. Nishitsuji, T. Shimobaba, T. Kakue, D. Arai, and T. Ito, “Simple and fast cosine approximation method for computer-generated hologram calculation,” Opt. Express 23, 32465–32470 (2015).
[Crossref] [PubMed]

Opt. Lett. (1)

Other (2)

R. Gomes, W. Junior, E. Cerqueira, and A. Abelem, “A QoE Fuzzy Routing Protocol for Wireless Mesh Networks,” in Future Multimedia Networking (SpringerBerlin Heidelberg, 2010), pp. 1–12.

N. Okada, D. Hirai, Y. Ichihashi, A. Shiraki, T. Kakue, T. Shimobaba, N. Masuda, and T. Ito, “Special-purpose computer HORN-7 with FPGA technology for phase modulation type electro-holography,” IDW/AD’12 Proc. Int. Display Workshops 3Dp–26 (2012).

Supplementary Material (1)

NameDescription
» Visualization 1       Optically reconstructed movie of electro-holography created with HORN-8.

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Figures (10)

Fig. 1
Fig. 1 Appearance of the HORN-8 board
Fig. 2
Fig. 2 Cosine and Sine function approximation method
Fig. 3
Fig. 3 Block diagram of HORN-8
Fig. 4
Fig. 4 Block diagram of calculation FPGA
Fig. 5
Fig. 5 Signal flow diagram of the BPU
Fig. 6
Fig. 6 Signal flow diagram of the APU
Fig. 7
Fig. 7 Signal flow diagram of the CAU
Fig. 8
Fig. 8 Performance of the HORN-8 cluster system
Fig. 9
Fig. 9 Reconstructed images of CGHs: (a) Original point-cloud model (see Visualization 1), (b) Optically reconstructed images with CGH from the HORN-8 system, (c) and (d) numerically reconstructed images with CGH from the HORN-8 system and CPU with no approximation and double precision floating point calculation.
Fig. 10
Fig. 10 Comparison of the computational efficiency E

Tables (1)

Tables Icon

Table 1 Performance comparison between the HORN-8 board, CPU, and GPU

Equations (13)

Equations on this page are rendered with MathJax. Learn more.

U ( x α , y α ) = j = 1 N obj a j exp [ i 2 π p λ { x α j 2 + y α j 2 2 | z j | } ] ,
= j = 1 N obj exp [ i 2 π Θ ( x α j , y α j ) ] ,
s ( x α , y α ) = arg [ U ( x α , y α ) ] 2 π × b ,
Θ n = p 2 λ | z j | { ( X α j + n ) 2 + Y α j 2 } ,
X α j = X α x j , Y α j = Y α y j .
Θ n = Θ n 1 + Δ n 1 ,
Δ n 1 = Δ 0 + ( n 1 ) Γ ,
Δ 0 = p 2 λ | z j | ( 2 X α j + 1 ) ,
Γ = p λ | z j | .
c ( Θ s ) = { 0.25 Θ s ( Θ s 0 ) , 0.25 + Θ s ( Θ s < 0 ) ,
s ( Θ s ) = { 0.5 Θ s ( 0.5 Θ s < 0.25 ) . Θ s ( 0.25 Θ s < 0.25 ) , 0.5 Θ s ( 0.25 Θ s < 0.5 ) .
T horn = N obj × N hol f × P × C ,
E = T horn T total ,

Metrics