Speaker
Minyou Ye
(School of Nuclear Sciences and Technology)
Description
The design of the Chinese Fusion Engineering Test Reactor(CFETR) must integrate a great number of working documents and data from many groups, and distribute these materials to everyone in time, therefore, the parallel design work in different places could be properly managed, and the schedule, as well as the cost, could be ensured. An integration design platform has been built with this demand; all design groups will receive design requirements and share their progress on this platform, even directly work on it. In the 1stst stage of construction, for CFETR conceptual design, two main components are set up: 1) the project document management, including the project description, the sub-system requirement and conceptual design reports; 2) the engineering CAD/CAE design, including the 3D design tool like CATIA and multi-physics analysis tool like ANSYS; all the data are stored in a tree structure and a library is defined for easy search and summary, every single document and CAD/CAE file is linked to corresponding design branches to be traceable. A comprehensive system design code is being developed on this platform, which extends to multi-dimensional physical and engineering design of the CFETR; it has modular structure, and different functional modules are seamlessly connected. An advanced GPU-based cloud server cluster provides aremote design environment, which brings the virtual workstations to the designer’s desktop with local experience, and then the data is generated and stored directly on CFETR central servers. In the future, more components will be added to this platform including the physical design branch. The detail of integration design platform will be presented in this conference.
Co-authors
Minyou Ye
(School of Nuclear Sciences and Technology, University ofScience and Technology of China, Hefei, China)
Shifeng Mao
(School of Nuclear Sciences and Technology, University ofScience and Technology of China, Hefei, China)
Yuntao Song
(Institute of Plasma Physics, Chinese Academy of Sciences, Hefei, China)
Zhongwei Wang
(Institute of Plasma Physics, Chinese Academy of Sciences, Hefei, China)
