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首页> 外文期刊>Fusion technology >ARCHTECTURE PLAN OF THE REAL-TIME DIAGNOSTIC SIGNALS ACQUISITION SYSTEM TOWARD JT-60SA PROJECT
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ARCHTECTURE PLAN OF THE REAL-TIME DIAGNOSTIC SIGNALS ACQUISITION SYSTEM TOWARD JT-60SA PROJECT

机译:面向JT-60SA项目的实时诊断信号采集系统的体系结构计划

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摘要

For a steady state operation of JT-60SA, a plasma feedback control using various diagnostic sensor signals plays an essential role. To realize this, Real-Time Diagnostic Signals acquisition System, RTDS, which utilizes PC-based real-time OS "INtime", has been under consideration toward JT-60SA project. Real-Time Processor, RTP in JT-60 data processing system, which utilized a WS-based computer with realtime UNIX, was becoming increasingly difficult to maintain, manage, and improve due to the aging of the system and the limited capability of the CPU. To solve these problems and assess the feasibility of introducing clustered architecture, a prototype had been developed with the existing RTP and a VxWorks computer at hand. Its effectiveness as the architecture of the next RTDS was verified on JT-60U experiments, but the actual RTDS will employ PC-based "INtime" system, which consist of a general-purpose personal computer and a real-time operating system "INtime". Moreover, long-pulse experiments of more than 400 s will be planned in JT-60SA project. Therefore, real time monitoring will be required as an essential function that displays acquired diagnostic signals in real- time during long-pulse experiment. This function will also be realized by utilizing the RTDS.
机译:对于JT-60SA的稳态运行,使用各种诊断传感器信号的等离子体反馈控制起着至关重要的作用。为了实现这一目标,正在考虑将实时诊断信号采集系统RTDS应用于JT-60SA项目,该系统利用基于PC的实时操作系统“ INtime”。 JT-60数据处理系统中的实时处理器(RTP)使用带有实时UNIX的基于WS的计算机,由于系统的老化和CPU的能力有限,它变得越来越难以维护,管理和改进。 。为了解决这些问题并评估引入群集体系结构的可行性,已经开发了一个原型,其中带有现有的RTP和一台VxWorks计算机。 JT-60U实验证明了其作为下一个RTDS架构的有效性,但实际的RTDS将采用基于PC的“ INtime”系统,该系统由通用个人计算机和实时操作系统“ INtime”组成。此外,JT-60SA项目将计划进行400 s以上的长脉冲实验。因此,将需要实时监控作为一项基本功能,该功能可在长脉冲实验期间实时显示采集的诊断信号。也可以通过利用RTDS实现此功能。

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  • 来源
    《Fusion technology》 |2011年第2期|p.496-500|共5页
  • 作者

    Shinya Sakata; Taiji Yamaguchi; Toru Sugimura; Toshiharu Kominato; Yoichi Kawamata; Toshiyuki Totsuka; Minoru Sato; Michiharu Sueoka; Osamu Naito;

  • 作者单位

    Japan Atomic Energy Agency, Naka Fusion Research Establishment, 801-1, Mukouyama,Naka-shi, Ibaraki-ken 311-0193, Japan;

    Japan Atomic Energy Agency, Naka Fusion Research Establishment, 801-1, Mukouyama,Naka-shi, Ibaraki-ken 311-0193, Japan;

    Japan Atomic Energy Agency, Naka Fusion Research Establishment, 801-1, Mukouyama,Naka-shi, Ibaraki-ken 311-0193, Japan;

    Japan Atomic Energy Agency, Naka Fusion Research Establishment, 801-1, Mukouyama,Naka-shi, Ibaraki-ken 311-0193, Japan;

    Japan Atomic Energy Agency, Naka Fusion Research Establishment, 801-1, Mukouyama,Naka-shi, Ibaraki-ken 311-0193, Japan;

    Japan Atomic Energy Agency, Naka Fusion Research Establishment, 801-1, Mukouyama,Naka-shi, Ibaraki-ken 311-0193, Japan;

    Japan Atomic Energy Agency, Naka Fusion Research Establishment, 801-1, Mukouyama,Naka-shi, Ibaraki-ken 311-0193, Japan;

    Japan Atomic Energy Agency, Naka Fusion Research Establishment, 801-1, Mukouyama,Naka-shi, Ibaraki-ken 311-0193, Japan;

    Japan Atomic Energy Agency, Naka Fusion Research Establishment, 801-1, Mukouyama,Naka-shi, Ibaraki-ken 311-0193, Japan;

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