Many people say that if you want to get a job, you must go to further study. But what about the rest of the majors? For example, microelectronics science and engineering.
Microelectronics science and engineering can be roughly divided into three directions: design, devices, and materials. The general understanding of the direction is design. If it is not subdivided, microelectronics science and engineering can also be roughly divided into: digital, analog, radio frequency, EDA and other directions.
The content of this major is relatively rich, and its professional courses even include some professional courses in automation, information, computer and electronics. However, for most learners, it is unrealistic to want to learn every subject or every direction well. Therefore, students need to plan ahead and selectively complete the corresponding major courses. This is especially true in English, as professional papers are almost entirely in English.
How to learn this major well? The answer is, roll up from your freshman year. From the beginning of the freshman year, I participated in the teacher's research group, participated in the reading and discussion of professional papers in the freshman year, and participated in the major-related competitions from the freshman year.
Is this major easy to employ? Of course it's good, but it's only for graduate degree or higher. Undergraduate students basically only have the share of drawing maps. Therefore, if you are determined to study microelectronics-related majors, you must be prepared for further study.
Who is suitable or able to study this major? The answer is a solid foundation in mathematics and ability.