"Chip" should actually be regarded as a research field that most electronic information majors will involve. "If you want to pick out the best match, it should be as follows:
Electronic information engineering-research on information acquisition and processing.
Electronic information engineering mainly studies the acquisition and processing of information, the design, development, application and integration of electronic equipment and information systems. It is a major integrating modern electronic technology, information technology and communication technology.
Electronic information engineering majors train senior engineers with basic knowledge and skills of electronic technology and information system, focusing on hardware circuit design and software programming in "information", mainly engaged in R&D, design, manufacture, application and management of various electronic complete sets of equipment, signal information systems and electronic information engineering.
Graduates can work in high-tech enterprises and research institutes in the fields of posts and telecommunications, finance, electric power, electronic information, computer software, etc., mainly engaged in the research and development, design, manufacture, application and management of various electronic complete sets of equipment, information systems and electronic information engineering.
The undergraduate mainly studies circuit analysis, electronic technology foundation, C language, information theory and coding, high-frequency electronic technology, communication technology, automatic detection technology, network and office automation technology, multimedia technology, electronic system design technology, electronic design automation (EDA) technology, signal and system, digital signal processing (DSP) technology, analog circuit, digital circuit, microcomputer principle, single chip microcomputer principle and application, ARM embedded system and so on.
Microelectronics Science and Engineering —— Brain Cells of Electronic Products
Microelectronics science and engineering is a new subject developed on the basis of physics, electronics, materials science, computer science, integrated circuit design and manufacturing, and ultra-clean, ultra-pure and ultra-fine processing technology.
Microelectronics science and engineering is an important branch and popular application of "Electronic Science and Technology". It mainly trains senior professionals who have a solid foundation in mathematics and physics, master extensive professional basic knowledge and basic experimental skills in microelectronics, circuits and systems, integrated circuits, etc., focus on the research and development of microelectronic chips, and can engage in scientific research and teaching, technology development, engineering design, production management and other work in microelectronics science and engineering.
Graduates can go to microelectronic integrated circuit manufacturing enterprises, integrated circuit design centers, digital communication and information science industries to engage in research and teaching, technology development, engineering design and production management of microelectronic science and microelectronic chips.
This undergraduate course mainly studies courses such as fundamentals and experiments of circuit analysis, analog circuits and experiments, C++ language, digital circuits and experiments, signals and systems and experiments, semiconductor physics and experiments, solid-state electronics, microelectronic devices, microelectronic integrated circuits, system-on-chip design, integrated circuit design and manufacturing, electronic design automation, integrated circuit CAD, and specialized experiments of microelectronic technology.
Optoelectronic Information Science and Engineering —— Technical Leader after Microelectronics
Optoelectronic information technology is a multidisciplinary integrated technology integrating optics, optoelectronics and microelectronics. It involves the radiation, transmission and detection of optical information, as well as the conversion, storage, processing and display of photoelectric information.
Optoelectronic information technology majors integrate optics and electro-optic information science, focusing on cultivating basic knowledge, basic theory and basic skills in photoelectric signal acquisition, optical communication, photoelectric information processing, optical storage, optical display, and photoelectric information application. Can be engaged in industries and departments related to industrial and agricultural production, national defense and military industry, biomedicine, environmental monitoring, culture and entertainment, scientific research and other fields, focusing on the design, manufacture and system-related products of photoelectric information technology.
Graduates can be engaged in the design, manufacture, development, application, research, teaching, management and marketing of photoelectric information technology and system-related products in industrial and agricultural production, national defense and military industry, biomedicine, environmental monitoring, culture and entertainment, scientific research and other related industries and departments.
This undergraduate course mainly studies circuit principle, analog electronic technology, digital electronic technology, communication principle, signal and system, digital signal processing, microcomputer principle and application, single chip microcomputer, software technology foundation, physical optics, applied optics, information optics, photoelectric information engineering, information processing foundation, photoelectric detection technology, modern optical measurement technology, sensor principle, laser technology, optical fiber communication, optoelectronics, digital image processing and other courses.