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.
Microelectronics majors are suitable for:
Microelectronics is a highly comprehensive frontier discipline, which includes semiconductor device physics, integrated circuit technology, design and test of integrated circuits and systems, etc. It involves electromagnetism, quantum mechanics, thermodynamics and statistical physics, solid state physics, material science, electronic circuits, signal processing, computer-aided design, testing and processing, graph theory, chemistry and many other fields.
Microelectronics is a rapidly developing discipline, and its development direction is high integration, low power consumption, high performance and high reliability. The development direction of information technology is multimedia (intelligence), networking and personalization. The system is required to collect and store multimedia information, process and transmit these information accurately and reliably at a very high speed, and display useful information in time or for control.
Microelectronics has a strong permeability, and the combination with other disciplines has produced a series of new interdisciplinary subjects. Micro-electro-mechanical systems and biochips are the representatives in this field, and they are emerging technologies with broad application prospects.
Extended data:
Graduates should have the following knowledge and abilities.
1. Master the basic theory and knowledge of mathematical models and physical equations.
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.
Baidu encyclopedia-microelectronics major
Baidu encyclopedia-micro-electrons