GPU accelerated holography for multimode fiber applications

Martin Plöschner, Tomas Cizmar

    Research output: Chapter in Book/Report/Conference proceedingConference contribution

    Abstract

    We demonstrate a compact GPU accelerated digital holography system for beam-shaping applications at the end of multimode fibre. The complete control of phase and amplitude on phase-only SLM is achieved through GPU implemented Gerchberg-Saxton and Yang-Gu algorithms. The GPU implementation is two orders of magnitude faster than the CPU implementation which allows video-rate image control at the distal end of the fiber virtually free of interference effects. We discuss the implementation of the algorithms and possible applications of the technology for structured illumination imaging at the end of multimode fibre.

    Original languageEnglish
    Title of host publicationAdaptive Optics and Wavefront Control for Biological Systems
    EditorsThomas G. Bifano, Joel Kubby, Sylvain Gigan
    Place of PublicationBellingham
    PublisherSPIE-International Society for Optical Engineering
    Volume9335
    ISBN (Print)9781628414257
    DOIs
    Publication statusPublished - 2015
    EventSPIE Photonics West 2015: Adaptive Optics and Wavefront Control for Biological Systems - Moscone Center, San Francisco, United States
    Duration: 7 Feb 20159 Feb 2015
    http://spie.org/x112639.xml

    Publication series

    NameProceedings of SPIE
    PublisherSPIE
    Volume9335
    NameProgress in Biomedical Optics and Imaging
    PublisherSPIE
    Number33
    Volume16

    Conference

    ConferenceSPIE Photonics West 2015: Adaptive Optics and Wavefront Control for Biological Systems
    CountryUnited States
    CitySan Francisco
    Period7/02/159/02/15
    Internet address

    Fingerprint

    Holography
    Multimode fibers
    holography
    fibers
    Lighting
    Technology
    Program processors
    illumination
    interference
    Imaging techniques
    Fibers
    Graphics processing unit

    Keywords

    • beam shaping
    • digital holography
    • GPU
    • multimode fibre

    Cite this

    Plöschner, M., & Cizmar, T. (2015). GPU accelerated holography for multimode fiber applications. In T. G. Bifano, J. Kubby, & S. Gigan (Eds.), Adaptive Optics and Wavefront Control for Biological Systems (Vol. 9335). [933507] (Proceedings of SPIE; Vol. 9335), (Progress in Biomedical Optics and Imaging; Vol. 16, No. 33). Bellingham: SPIE-International Society for Optical Engineering. https://doi.org/10.1117/12.2079334
    Plöschner, Martin ; Cizmar, Tomas. / GPU accelerated holography for multimode fiber applications. Adaptive Optics and Wavefront Control for Biological Systems. editor / Thomas G. Bifano ; Joel Kubby ; Sylvain Gigan. Vol. 9335 Bellingham : SPIE-International Society for Optical Engineering, 2015. (Proceedings of SPIE). (Progress in Biomedical Optics and Imaging; 33).
    @inproceedings{92945c85c11a49fdaafbf841f63925aa,
    title = "GPU accelerated holography for multimode fiber applications",
    abstract = "We demonstrate a compact GPU accelerated digital holography system for beam-shaping applications at the end of multimode fibre. The complete control of phase and amplitude on phase-only SLM is achieved through GPU implemented Gerchberg-Saxton and Yang-Gu algorithms. The GPU implementation is two orders of magnitude faster than the CPU implementation which allows video-rate image control at the distal end of the fiber virtually free of interference effects. We discuss the implementation of the algorithms and possible applications of the technology for structured illumination imaging at the end of multimode fibre.",
    keywords = "beam shaping, digital holography, GPU, multimode fibre",
    author = "Martin Pl{\"o}schner and Tomas Cizmar",
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    Plöschner, M & Cizmar, T 2015, GPU accelerated holography for multimode fiber applications. in TG Bifano, J Kubby & S Gigan (eds), Adaptive Optics and Wavefront Control for Biological Systems. vol. 9335, 933507, Proceedings of SPIE, vol. 9335, Progress in Biomedical Optics and Imaging, no. 33, vol. 16, SPIE-International Society for Optical Engineering, Bellingham, SPIE Photonics West 2015: Adaptive Optics and Wavefront Control for Biological Systems, San Francisco, United States, 7/02/15. https://doi.org/10.1117/12.2079334

    GPU accelerated holography for multimode fiber applications. / Plöschner, Martin; Cizmar, Tomas.

    Adaptive Optics and Wavefront Control for Biological Systems. ed. / Thomas G. Bifano; Joel Kubby; Sylvain Gigan. Vol. 9335 Bellingham : SPIE-International Society for Optical Engineering, 2015. 933507 (Proceedings of SPIE; Vol. 9335), (Progress in Biomedical Optics and Imaging; Vol. 16, No. 33).

    Research output: Chapter in Book/Report/Conference proceedingConference contribution

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    T1 - GPU accelerated holography for multimode fiber applications

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    AU - Cizmar, Tomas

    PY - 2015

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    AB - We demonstrate a compact GPU accelerated digital holography system for beam-shaping applications at the end of multimode fibre. The complete control of phase and amplitude on phase-only SLM is achieved through GPU implemented Gerchberg-Saxton and Yang-Gu algorithms. The GPU implementation is two orders of magnitude faster than the CPU implementation which allows video-rate image control at the distal end of the fiber virtually free of interference effects. We discuss the implementation of the algorithms and possible applications of the technology for structured illumination imaging at the end of multimode fibre.

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    KW - digital holography

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    KW - multimode fibre

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    DO - 10.1117/12.2079334

    M3 - Conference contribution

    SN - 9781628414257

    VL - 9335

    T3 - Proceedings of SPIE

    BT - Adaptive Optics and Wavefront Control for Biological Systems

    A2 - Bifano, Thomas G.

    A2 - Kubby, Joel

    A2 - Gigan, Sylvain

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    Plöschner M, Cizmar T. GPU accelerated holography for multimode fiber applications. In Bifano TG, Kubby J, Gigan S, editors, Adaptive Optics and Wavefront Control for Biological Systems. Vol. 9335. Bellingham: SPIE-International Society for Optical Engineering. 2015. 933507. (Proceedings of SPIE). (Progress in Biomedical Optics and Imaging; 33). https://doi.org/10.1117/12.2079334