The employment direction and prospects of microelectronics majors are as follows:
1. Employment direction:
The destination of graduates is besides applying for microelectronics, solid-state electronics, and communications. In addition to graduate students in disciplines such as computer science and computer science, students can also engage in the production, operation, technical management and development of electronic products in electronic information-related enterprises after graduation.
Mainly oriented to production enterprises and operating units related to integrated circuits and semiconductor manufacturing, engaged in the design, development, debugging, and testing of integrated circuits. Involving computers, household appliances, civilian electronic products, communication equipment, industrial automation equipment, national defense and military, medical equipment and other fields.
2. Employment prospects
Microelectronics has always been a popular application. The major of Microelectronics Science and Engineering mainly studies the design and manufacturing of new electronic devices and large-scale integrated circuits, computer-aided integrated circuit analysis, basic theories, new structures, manufacturing processes and testing technologies of various electronic devices, as well as the development of new integrated devices. .
The development of microelectronics in recent years has increased computer capabilities exponentially and greatly reduced hardware costs, thus greatly promoting the development of industry and the information industry. There are also contemporary hot research areas such as the research and application of lasers and sensor research, which are all within the scope of microelectronics or are closely related to it.
Basic business requirements for microelectronics science and engineering:
1. Have basic knowledge of mathematics and natural science required to engage in scientific research, engineering development and design in the field of electronic information;
2. Master the basic theories and technologies related to microelectronics science and engineering, and have basic computer theory, application and development capabilities; have systematic and professional-related engineering practice or scientific research training experience, and understand production processes, Equipment and manufacturing systems, and understand the development status and trends of this profession;
3. Be able to skillfully use commonly used electronic instruments and meters, have the initial ability to design and implement engineering experiments in the field of electronic information, and be able to analyze the experimental results Analysis; have the basic ability to analyze, propose solutions and solve theoretical or practical engineering problems in the field of electronic information, and can participate in the design, operation and maintenance of related systems.