Enabling the next generation of Keck AO with the real time controller upgrade

Eduardo Marin; Jason C.Y. Chin; Sylvain Cetre; Peter Wizinowich; Sam Ragland; Ed Wetherell; Avinash Surendran; Antonin Bouchez; Jacques Robert Delorme; Scott Lilley; James Lyke; Maxwell Service; Kevin Tsubota; Carlos Correia; Marcos van Dam; Roberto Biasi; Christian Pataunar; Dietrich Pescoller; Karl Glazebrook; Andrew Jameson; Will Gauvin; Francois Rigaut; Damien Gratadour; Julien Bernard

doi:10.1117/12.3016792

Enabling the next generation of Keck AO with the real time controller upgrade

Eduardo Marin^*, Jason C.Y. Chin, Sylvain Cetre, Peter Wizinowich, Sam Ragland, Ed Wetherell, Avinash Surendran, Antonin Bouchez, Jacques Robert Delorme, Scott Lilley, James Lyke, Maxwell Service, Kevin Tsubota, Carlos Correia, Marcos van Dam, Roberto Biasi, Christian Pataunar, Dietrich Pescoller, Karl Glazebrook, Andrew JamesonWill Gauvin, Francois Rigaut, Damien Gratadour, Julien Bernard

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Citation (Scopus)

Abstract

The Real Time Controllers (RTCs) for the W. M. Keck Observatory Adaptive Optics (AO) systems have been upgraded from a Field Programmable Gate Array (FPGA) to a Graphics Processing Unit (GPU) based solution. The previous RTCs, operating since 2007, had reached their limitations after upgrades to support new hardware including an Infra-Red (IR) Tip/Tilt (TT) Wave Front Sensor (WFS) on Keck I and a Pyramid WFS on Keck II. The new RTC, fabricated by a Microgate-led consortium with SUT leading the computation engine development, provides a flexible platform that improves processing bandwidth and allows for easier integration with new hardware and control algorithms. Along with the new GPU-based RTC, the upgrade includes a new hardware Interface Module (IM), new OCAM2K EMCCD cameras, and a new Telemetry Recording Server (TRS). The first system upgrade to take advantage of the new RTC is the Keck I All-sky Precision Adaptive Optics (KAPA) Laser Tomography AO (LTAO) system, which uses the larger and more sensitive OCAM2K EMCCD camera, tomographic reconstruction from four Laser Guide Stars (LGS), and improvements to the IR TT WFS. On Keck II the new RTC will enable a new higher-order Deformable Mirror (DM) as part of the HAKA (High order Advanced Keck Adaptive optics) project, which will also use an EMCCD camera. In the future, the new RTC will allow the possibility for new developments such as the proposed ‘IWA (Infrared Wavefront sensor Adaptive optics) system. The new RTC saw first light in 2021. The Keck I system was released for science observations in late 2023, with the Keck II system released for science in early 2024.

Original language	English
Title of host publication	Adaptive Optics Systems IX
Editors	Kathryn J. Jackson, Dirk Schmidt, Elise Vernet
Publisher	SPIE
ISBN (Electronic)	9781510675179
DOIs	https://doi.org/10.1117/12.3016792
Publication status	Published - 2024
Event	Adaptive Optics Systems IX 2024 - Yokohama, Japan Duration: 16 Jun 2024 → 22 Jun 2024

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	13097
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	Adaptive Optics Systems IX 2024
Country/Territory	Japan
City	Yokohama
Period	16/06/24 → 22/06/24

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10.1117/12.3016792

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Marin, E., Chin, J. C. Y., Cetre, S., Wizinowich, P., Ragland, S., Wetherell, E., Surendran, A., Bouchez, A., Delorme, J. R., Lilley, S., Lyke, J., Service, M., Tsubota, K., Correia, C., van Dam, M., Biasi, R., Pataunar, C., Pescoller, D., Glazebrook, K., ... Bernard, J. (2024). Enabling the next generation of Keck AO with the real time controller upgrade. In K. J. Jackson, D. Schmidt, & E. Vernet (Eds.), Adaptive Optics Systems IX Article 1309760 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 13097). SPIE. https://doi.org/10.1117/12.3016792

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title = "Enabling the next generation of Keck AO with the real time controller upgrade",

abstract = "The Real Time Controllers (RTCs) for the W. M. Keck Observatory Adaptive Optics (AO) systems have been upgraded from a Field Programmable Gate Array (FPGA) to a Graphics Processing Unit (GPU) based solution. The previous RTCs, operating since 2007, had reached their limitations after upgrades to support new hardware including an Infra-Red (IR) Tip/Tilt (TT) Wave Front Sensor (WFS) on Keck I and a Pyramid WFS on Keck II. The new RTC, fabricated by a Microgate-led consortium with SUT leading the computation engine development, provides a flexible platform that improves processing bandwidth and allows for easier integration with new hardware and control algorithms. Along with the new GPU-based RTC, the upgrade includes a new hardware Interface Module (IM), new OCAM2K EMCCD cameras, and a new Telemetry Recording Server (TRS). The first system upgrade to take advantage of the new RTC is the Keck I All-sky Precision Adaptive Optics (KAPA) Laser Tomography AO (LTAO) system, which uses the larger and more sensitive OCAM2K EMCCD camera, tomographic reconstruction from four Laser Guide Stars (LGS), and improvements to the IR TT WFS. On Keck II the new RTC will enable a new higher-order Deformable Mirror (DM) as part of the HAKA (High order Advanced Keck Adaptive optics) project, which will also use an EMCCD camera. In the future, the new RTC will allow the possibility for new developments such as the proposed {\textquoteleft}IWA (Infrared Wavefront sensor Adaptive optics) system. The new RTC saw first light in 2021. The Keck I system was released for science observations in late 2023, with the Keck II system released for science in early 2024.",

keywords = "Adaptive Optics, Keck, Real Time Controller, Wavefront Sensor",

author = "Eduardo Marin and Chin, {Jason C.Y.} and Sylvain Cetre and Peter Wizinowich and Sam Ragland and Ed Wetherell and Avinash Surendran and Antonin Bouchez and Delorme, {Jacques Robert} and Scott Lilley and James Lyke and Maxwell Service and Kevin Tsubota and Carlos Correia and {van Dam}, Marcos and Roberto Biasi and Christian Pataunar and Dietrich Pescoller and Karl Glazebrook and Andrew Jameson and Will Gauvin and Francois Rigaut and Damien Gratadour and Julien Bernard",

note = "Publisher Copyright: {\textcopyright} 2024 SPIE.; Adaptive Optics Systems IX 2024 ; Conference date: 16-06-2024 Through 22-06-2024",

year = "2024",

doi = "10.1117/12.3016792",

language = "English",

series = "Proceedings of SPIE - The International Society for Optical Engineering",

publisher = "SPIE",

editor = "Jackson, {Kathryn J.} and Dirk Schmidt and Elise Vernet",

booktitle = "Adaptive Optics Systems IX",

address = "United States",

}

Marin, E, Chin, JCY, Cetre, S, Wizinowich, P, Ragland, S, Wetherell, E, Surendran, A, Bouchez, A, Delorme, JR, Lilley, S, Lyke, J, Service, M, Tsubota, K, Correia, C, van Dam, M, Biasi, R, Pataunar, C, Pescoller, D, Glazebrook, K, Jameson, A, Gauvin, W, Rigaut, F, Gratadour, D & Bernard, J 2024, Enabling the next generation of Keck AO with the real time controller upgrade. in KJ Jackson, D Schmidt & E Vernet (eds), Adaptive Optics Systems IX., 1309760, Proceedings of SPIE - The International Society for Optical Engineering, vol. 13097, SPIE, Adaptive Optics Systems IX 2024, Yokohama, Japan, 16/06/24. https://doi.org/10.1117/12.3016792

Enabling the next generation of Keck AO with the real time controller upgrade. / Marin, Eduardo; Chin, Jason C.Y.; Cetre, Sylvain et al.
Adaptive Optics Systems IX. ed. / Kathryn J. Jackson; Dirk Schmidt; Elise Vernet. SPIE, 2024. 1309760 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 13097).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Chin, Jason C.Y.

AU - Cetre, Sylvain

AU - Wizinowich, Peter

AU - Ragland, Sam

AU - Wetherell, Ed

AU - Surendran, Avinash

AU - Bouchez, Antonin

AU - Delorme, Jacques Robert

AU - Lilley, Scott

AU - Lyke, James

AU - Service, Maxwell

AU - Tsubota, Kevin

AU - Correia, Carlos

AU - van Dam, Marcos

AU - Biasi, Roberto

AU - Pataunar, Christian

AU - Pescoller, Dietrich

AU - Glazebrook, Karl

AU - Jameson, Andrew

AU - Gauvin, Will

AU - Rigaut, Francois

AU - Gratadour, Damien

AU - Bernard, Julien

PY - 2024

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N2 - The Real Time Controllers (RTCs) for the W. M. Keck Observatory Adaptive Optics (AO) systems have been upgraded from a Field Programmable Gate Array (FPGA) to a Graphics Processing Unit (GPU) based solution. The previous RTCs, operating since 2007, had reached their limitations after upgrades to support new hardware including an Infra-Red (IR) Tip/Tilt (TT) Wave Front Sensor (WFS) on Keck I and a Pyramid WFS on Keck II. The new RTC, fabricated by a Microgate-led consortium with SUT leading the computation engine development, provides a flexible platform that improves processing bandwidth and allows for easier integration with new hardware and control algorithms. Along with the new GPU-based RTC, the upgrade includes a new hardware Interface Module (IM), new OCAM2K EMCCD cameras, and a new Telemetry Recording Server (TRS). The first system upgrade to take advantage of the new RTC is the Keck I All-sky Precision Adaptive Optics (KAPA) Laser Tomography AO (LTAO) system, which uses the larger and more sensitive OCAM2K EMCCD camera, tomographic reconstruction from four Laser Guide Stars (LGS), and improvements to the IR TT WFS. On Keck II the new RTC will enable a new higher-order Deformable Mirror (DM) as part of the HAKA (High order Advanced Keck Adaptive optics) project, which will also use an EMCCD camera. In the future, the new RTC will allow the possibility for new developments such as the proposed ‘IWA (Infrared Wavefront sensor Adaptive optics) system. The new RTC saw first light in 2021. The Keck I system was released for science observations in late 2023, with the Keck II system released for science in early 2024.

AB - The Real Time Controllers (RTCs) for the W. M. Keck Observatory Adaptive Optics (AO) systems have been upgraded from a Field Programmable Gate Array (FPGA) to a Graphics Processing Unit (GPU) based solution. The previous RTCs, operating since 2007, had reached their limitations after upgrades to support new hardware including an Infra-Red (IR) Tip/Tilt (TT) Wave Front Sensor (WFS) on Keck I and a Pyramid WFS on Keck II. The new RTC, fabricated by a Microgate-led consortium with SUT leading the computation engine development, provides a flexible platform that improves processing bandwidth and allows for easier integration with new hardware and control algorithms. Along with the new GPU-based RTC, the upgrade includes a new hardware Interface Module (IM), new OCAM2K EMCCD cameras, and a new Telemetry Recording Server (TRS). The first system upgrade to take advantage of the new RTC is the Keck I All-sky Precision Adaptive Optics (KAPA) Laser Tomography AO (LTAO) system, which uses the larger and more sensitive OCAM2K EMCCD camera, tomographic reconstruction from four Laser Guide Stars (LGS), and improvements to the IR TT WFS. On Keck II the new RTC will enable a new higher-order Deformable Mirror (DM) as part of the HAKA (High order Advanced Keck Adaptive optics) project, which will also use an EMCCD camera. In the future, the new RTC will allow the possibility for new developments such as the proposed ‘IWA (Infrared Wavefront sensor Adaptive optics) system. The new RTC saw first light in 2021. The Keck I system was released for science observations in late 2023, with the Keck II system released for science in early 2024.

KW - Adaptive Optics

KW - Keck

KW - Real Time Controller

KW - Wavefront Sensor

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U2 - 10.1117/12.3016792

DO - 10.1117/12.3016792

M3 - Conference contribution

AN - SCOPUS:85206108732

T3 - Proceedings of SPIE - The International Society for Optical Engineering

BT - Adaptive Optics Systems IX

A2 - Jackson, Kathryn J.

A2 - Schmidt, Dirk

A2 - Vernet, Elise

PB - SPIE

T2 - Adaptive Optics Systems IX 2024

Y2 - 16 June 2024 through 22 June 2024

ER -

Enabling the next generation of Keck AO with the real time controller upgrade

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