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Furukawa, K.

Paper Title Page
TPPA16 Development of the Software Tools Using Python for EPICS-Based Control System 120
 
  • K. Furukawa, J.-I. Odagiri, N. Yamamoto, T. T. Nakamura
    KEK, Ibaraki
 
  In the commissioning phase of accelerators, many application programs are built and modified frequently by nonexpert programmers. Scripting language such as Python is suitable for such quick development. Since EPICS Channel Access interface library in Python was developed in KEKB accelerator control system, many programs has been written in Python. We have been developing, providing some tools and libraries for Python programming. Some of the recent developments in KEK are reported, and possible applications are also discussed.  
TPPA28 PLC-Based Beam Charge Interlock System for Radiation Safety in the KEKB Injector Linac 149
 
  • K. Furukawa, M. Satoh, T. Suwada, E. Kadokura
    KEK, Ibaraki
 
  A new PLC-based beam-charge interlock system is under development for radiation safety at the KEKB injector linac. This system restricts a prescribed amount of integrated beam charges passing through at several locations along the linac for machine protection, and it also monitors the amount of integrated beam charges injecting to four different storage rings (KEKB e+ & e- storage rings, PF, PF-AR) at the linac beam switchyard. The beam charges delivered from an electron gun are measured with the PLC-based beam-charge interlock system. This system comprises wall-current monitors, beam-charge integration circuits, and a PLC-based control system. This system generates and sends beam abort signals directly to another radiation safety control system with hard-wire cables when the amount of the integrated beam charges is beyond the prescribed threshold level. In this report we describe the new design of the PLC-based beam-charge interlock system, and especially several software developments and performances implemented on the PLC are described.  
TPPA31 Redundant EPICS IOC in PC-based Unix-like Environment 158
 
  • M. R. Clausen, G. Liu, B. Schoeneburg
    DESY, Hamburg
  • K. Furukawa
    KEK, Ibaraki
  • A. Kazakov
    GUAS/AS, Ibaraki
 
  Redundant EPICS IOC is being actively developed at DESY in order to achieve high availability. Current development focuses on VME vxWorks environment for cryogenics controls. However, many facilities use PC-architecture and unix-like systems as Linux and FreeBSD. These facilities require high availability and redundancy as well. So this paper will describe the implementation of EPICS redundant IOC in PC-based environment with Linux and FreeBSD. This work will be done by porting Redundancy Monitor Task (RMT) and Continuous Control Executive (CCE). RMT is responsible to make a decision when to fail-over; it is rather independent and may be used in a wide range of applications. In the future it can be employed in caGateway to add redundancy. CCE is aimed to synchronize two RSRV-based IOC servers.  
TOPB04 Control System of the KEKB Accelerator Complex 268
 
  • A. Akiyama, N. Kamikubota, T. T. Nakamura, J.-I. Odagiri, M. Satoh, T. Suwada, N. Yamamoto, K. Furukawa
    KEK, Ibaraki
 
  The KEKB asymmetric electron-positron collider complex consists of 8-GeV Linac, high-energy and low-energy rings. Some of the resources were inherited from the previous TRISTAN project, and also they are shared with Photon Factory and PF-AR light sources. In order to realize the long lifespan of the system de-facto and international standard technologies were employed since the early stage, which have been efficiently operated. Several gateway methods were implemented to integrate heterogeneous sub-systems, which are gradually converted into EPICS. Scripting languages are employed for higher-level applications. The ever-evolving control system has enabled flexible and reliable beam operations at KEKB throughout the long period.  
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WOAB04 Web-Based Electronic Operation Log System – Zlog System 299
 
  • K. Furukawa, T. T. Nakamura, T. Obina, M. Satoh, N. Yamamoto
    KEK, Ibaraki
  • T. Nakamura, K. Yoshii
    MELCO SC, Tsukuba
 
  A Zope-based electronic operation logging system, named Zlog system, has been used since January 2004 at the KEKB and PF-AR accelerator facilities at KEK. Zope* is a Web content management system, which is based on several open source software components like Python and Postgresql. It enabled us to develop our Zlog in a short period, because the Zope system includes a development framework for Web application server. Zlog was introduced also to J-PARC/KEK-JAEA and RIBF/RIKEN, based on the experiences at KEKB and PF-AR. Zlog was proved to be quite portable even under different computer architectures. Zlog at KEKB accumulates about 1.5 million event entries so far, and images taken during the operation can be stored and viewed as well with entries. In this paper, we describe the present status and component details of the Zlog system.

* http://www.zope.org/

 
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WPPB37 Fast BPM DAQ System Using Windows Oscilloscope-based EPICS IOC 469
 
  • K. Furukawa, T. Suwada, M. Satoh
    KEK, Ibaraki
  • T. Kudou, S. Kusano
    MELCO SC, Tsukuba
  • J. W. Wang
    USTC, Hefei, Anhui
 
  The non-destructive beam position monitor (BPM) is an indispensable diagnostic tool for the stable beam operation. In the KEK linac, approximately nineteen BPMs with the strip-line type electrodes are used for the beam orbit measurement and orbit feedback. In addition, some of them are also used for the beam energy feedback loops. The current DAQ system consists of the digital oscilloscopes and the VME computers. They are connected with the GPIB, and a signal from each electrode is analyzed with a predetermined response function once per second by a VME computer that is connected to the upper-layer control servers via Ethernet. The KEKB injector linac is planned to be upgraded to perform the simultaneous injection for 4-rings. In this operation mode, a fast DAQ system is strongly required. In the current system, maximum DAQ rate is strictly limited by the oscilloscope performance, and it should be improved for the 50-Hz measurement. For these reasons, we made the decision to replace the current DAQ system with the fast digital oscilloscope. In this paper, we will present the system description of the new DAQ system, and the detailed result of the performance test will be presented.