1. What do you major in microelectronics? Advanced mathematics, English, general physics, general physics and experiments, mathematical physics methods, theoretical physics (including introduction), modern physics experiments, solid physics, electronic circuits and experiments, microcomputer principles and experiments, data structures, semiconductor physics and experiments, analog electronic technology, digital electronic technology, integrated circuit design principles, integrated circuit CAD, semiconductor device physics, semiconductor physics. Computer principle and structure, electronic thin film material and technology, integrated circuit technology and experiment, computer control technology, modern communication technology, programmable logic circuit principle, integrated circuit EDA design technology, sensitive element and application, single chip microcomputer principle and application, microelectronics application experiment, microelectronics design experiment, advanced programming, ASIC design (application specific integrated circuit design), computer network and data communication, embedded operating system principle and design, etc.
2. Employment direction and prospect of microelectronics specialty in 2022. Employment prospect of microelectronics
Graduates should have the following knowledge and abilities:
1. Master the basic theories and knowledge of mathematics and physics;
2. Master the basic theories and knowledge of solid state physics, electronics and VLSI design and manufacturing, master the analysis and design methods of integrated circuits and other semiconductor devices, and have the basic ability to independently carry out layout design, device performance analysis and guide VLSI process flow;
3. Understand the general principles and knowledge of similar majors;
4. Familiar with the national electronic industry policy, domestic and foreign related intellectual property laws and regulations;
5. Understand the theoretical frontier, application prospect and latest development trend of VLSI and other new semiconductor devices, as well as the development of electronic industry;
6. Master the basic methods of information inquiry, document retrieval and obtaining relevant information by using modern information technology; Have the ability to design experiments, create experimental conditions, summarize, sort out and analyze experimental results, write papers and participate in academic exchanges.
Analysis on Employment Direction of Microelectronics
The main destination is to apply for graduate students in microelectronics, solid-state electronics, communications, computer science and other disciplines, and engage in the development and research of information science and technology fields such as integrated circuit manufacturers, integrated circuit design centers, communications and computers.
Cultivate science and engineering talents who have a solid mathematical foundation, master the basic theory and experimental technology of microelectronics, master the design methods and manufacturing processes of integrated circuits and integrated systems and other new semiconductor devices, be familiar with electronic technology and computer technology, and have certain scientific research and practical work ability.