Microelectronics science and engineering graduates plan to apply for postgraduate studies in microelectronics, solid-state electronics, communications, computer science and other disciplines, and engage in the development and research in information science and technology fields such as integrated circuit manufacturing enterprises, integrated circuit design centers, communications and computers.
Engaged in industry:
After graduation, I mainly engaged in electronic technology, computer software, new energy and other industries, as follows:
1. Electronic technology/semiconductor/integrated circuit;
2. Computer software;
3. New energy sources;
4. Law;
5. Professional services (consulting, human resources, accounting).
Engaged in the post:
After graduation, I mainly worked as a patent agent, layout design engineer and electronic engineer, as follows:
1. patent agent;
2. Layout design engineer;
3. Electronic engineer;
4. Digital circuit design engineer;
5. Hardware engineer.
Master's ability in microelectronics science and engineering
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.
Further reading: which engineering majors have good employment prospects 1. Energy and power engineering
Energy and power engineering is devoted to the utilization of traditional energy and the development of new energy, as well as how to use energy more efficiently. Energy includes not only traditional energy sources such as water, coal and oil, but also new energy sources such as nuclear energy, wind energy and bioenergy, as well as hydrogen energy that will be widely used in the future. Power includes internal combustion engine, boiler, aero-engine, refrigeration and related test technology.
2. Mechanical engineering major
Mechanical engineering is an applied discipline that studies and solves all theoretical and practical problems in the development, design, manufacture, installation, operation and maintenance of various machinery based on related natural and technical sciences and combined with technical experience in production practice. Mechanical engineering is a first-class discipline and a field of engineering graduate education.
3. Industrial Engineering Major
This subject mainly focuses on the production process, aiming at improving labor productivity, ensuring quality and reducing costs, paying special attention to the study of human factors and giving full play to the role of input resources. In recent years, logistics engineering, virtual manufacturing, enterprise resource planning and human resource management have become research hotspots in this field.
4. Major in Materials Science and Engineering
The major of materials science and engineering is to study the composition, structure, processing technology, performance and application of materials. In modern science and technology, materials science is one of the three pillars of national economic development. The main professional directions are metal materials, inorganic nonmetallic materials, polymer materials, wear-resistant materials, surface strengthening, material processing engineering and so on.
5. Safety Engineering Major
Safety engineering is a comprehensive interdisciplinary subject, which can be engaged in safety technology and engineering, safety science and research, safety supervision and management, safety and health environment detection and monitoring, safety design and production, safety education and training, etc.