A major impact on its & # 39; united tour! Pupils receive 0.7 nanometer crystalline materials – News – Rti Meadhanach Radio Station



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A major impact on its & # 39; united tour! Pupils receive 0.7 nanometer crystalline materials – News – Rti Meadhanach Radio Station

  • Time: 2018-11-21 11:32
  • News statement: Interview
  • Writer: Yang Wenjun

The TSMC expanded the process of 3 nm, and founding the research department of the university department of Wu Zhonglin's main materials. (Picture by Yang Wenjun)

TSMC is a 3 nm process development, and the Wu Zhonglin university physics department of research is a & n; get important materials! They have developed a blow successfully with one-atomic accumulation of about 0.7 nm, which is lighter and more efficient, and will meet the demand for a large amount of computing power required for artificial information teams and tools. It can be used regularly for one month.

Intelligent technology is rapidly growing and it's very easy to do. engage in 3nm boundaries for miniaturization of unified walks. So, as well as developing the basic structure of the transitors in integrated tours, scientists also have a & # 39; Looking for excellent corporate features and can be reduced to atomic levels, which are less than 1 nanometer of crystal content.

With the support of the Ministry of Science and Technology, the University of Cheng Kung National, and the Synchrotron National Indigenous Research Center, Wu Zhonglin, professor of the Physics Department at Chengdu University, and Chen Jiahao, Ph.D. at the Synchrotron Raw Research Center, carry on one series of atomic acne. Tungsten selenide (WSe) with about 0.7 nm and excellent logic distribution features2)Diode.

Wu Zhonglin said that the "two-dimensional monoatomic imagery" was born, as well as overcoming "Moore's Law", that is, replaceable repository in the & # 39; integrated tour, increasing 18 to 24 months. The limited, more stringent and more efficient estimate, which meets the demand for a large amount of computing power required for future AI teams and machine learning. He said: "(original sound) because it's fast enough, you can think that all drives can be accomplished on transistors or two-dimensional drinks.

Wu Zhonglin stressed that the "double-dimensional one-dimensional dimension" that is reduced to the boundary may have been compiled in a number of integrated integrated walks, they can be taken to reduce it significantly and the pace of work can be increased. It is expected to be higher than a current computer for a thousand times. Ten thousand times, and the energy needed is very small, and many calculations do not use too much energy, and & # 39; impact on energy saving. In the future, a mobile phone tax can be used consistently for one month. The study also featured in the Communications Communications Nature magazine in August this year.

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