http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
KTM TOKAMAK OPERATION SCENARIOS SOFTWARE INFRASTRUCTURE
Pavlov, V.,Baystrukov, K.,Golobokov, Yu.,Ovchinnikov, A.,Mezentsev, A.,Merkulov, S.,Lee, A.,Tazhibayeva, I.,Shapovalov, G. Korean Nuclear Society 2014 Nuclear Engineering and Technology Vol.46 No.5
One of the largest problems for tokamak devices such as Kazakhstan Tokamak for Material Testing (KTM) is the operation scenarios' development and execution. Operation scenarios may be varied often, so a convenient hardware and software solution is required for scenario management and execution. Dozens of diagnostic and control subsystems with numerous configuration settings may be used in an experiment, so it is required to automate the subsystem configuration process to coordinate changes of the related settings and to prevent errors. Most of the diagnostic and control subsystems software at KTM was unified using an extra software layer, describing the hardware abstraction interface. The experiment sequence was described using a command language. The whole infrastructure was brought together by a universal communication protocol supporting various media, including Ethernet and serial links. The operation sequence execution infrastructure was used at KTM to carry out plasma experiments.
KTM Tokamak Operation Scenarios Software Infrastructure
V. PAVLOV,K. BAYSTRUKOV,YU. GOLOBOKOV,A. OVCHINNIKOV,A. MEZENTSEV,S. MERKULOV,A. LEE,I. TAZHIBAYEVA,G. SHAPOVALOV 한국원자력학회 2014 Nuclear Engineering and Technology Vol.46 No.5
One of the largest problems for tokamak devices such as Kazakhstan Tokamak for Material Testing (KTM) is theoperation scenarios’ development and execution. Operation scenarios may be varied often, so a convenient hardwareand software solution is required for scenario management and execution. Dozens of diagnostic and control subsystemswith numerous configuration settings may be used in an experiment, so it is required to automate the subsystemconfiguration process to coordinate changes of the related settings and to prevent errors. Most of the diagnostic andcontrol subsystems software at KTM was unified using an extra software layer, describing the hardware abstractioninterface. The experiment sequence was described using a command language. The whole infrastructure was brought together by a universal communication protocol supporting various media,including Ethernet and serial links. The operation sequence execution infrastructure was used at KTM to carry outplasma experiments.