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SPring-8 beamline control system.

T Ohata1, H Konishi, H Kimura

  • 1Japan Synchrotron Radiation Research Institute (JASRI), Kamigori, Ako-gun, Hyogo 678-12, Japan.

Journal of Synchrotron Radiation
|July 21, 2004
PubMed
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The SPring-8 beamline control system enhances research by standardizing apparatus control for insertion devices (IDs) and interlock systems. This flexible, distributed system ensures reliable operation for collaborative synchrotron light source users.

Area of Science:

  • Synchrotron Radiation Science
  • Control Systems Engineering
  • Computer Networking

Background:

  • Third-generation synchrotron light sources require sophisticated control systems for components like insertion devices (IDs).
  • Ensuring the security and reliability of the storage ring and its integrated systems is paramount.
  • Advancements in networking and security technology necessitate flexible and robust control solutions.

Purpose of the Study:

  • To develop and implement a highly standardized and flexible beamline control system for the SPring-8 facility.
  • To integrate control of insertion devices, front ends, beam transport, and interlock systems.
  • To enhance the reliability and security of the synchrotron light source operations.

Main Methods:

  • Adoption of a standard model concept for the beamline control system.

Related Experiment Videos

  • Utilization of VME-bus (VME) for front-end control with RISC processor-based computers running LynxOS-based HP-RT.
  • Implementation of a distributed system linking VME systems and UNIX workstations (HP 9000 series) via a network.
  • Development of an independent interlock system to increase reliability.
  • Main Results:

    • A highly standardized control environment for collaborative researchers has been established.
    • The system successfully integrates control of critical components including insertion devices and interlock systems.
    • A reliable and flexible distributed control architecture has been realized, enabling operation from any workstation.

    Conclusions:

    • The implemented beamline control system provides a standardized, flexible, and reliable platform for operating advanced synchrotron light source facilities.
    • The integration of insertion device control and an independent interlock system significantly enhances operational security and efficiency.
    • The distributed system architecture facilitates seamless apparatus control for all users, promoting collaborative research.