1. General-Education and Required Courses
Courses in this module are divided into general education courses and general required courses, and students must complete at least 59 credits of the courses in this module. For the general education part, students may choose from the general education courses offered by the university and must complete at least 14 credits of them. The general required courses include English, mathematics, ideological and political education, sports, military knowledge, and computer science, and student must complete 45 credits of these courses.
2. Specialty Courses
Courses in this module are divided into disciplinary platform courses and specialty core courses. For basic credit requirements of different specialties, please refer to the corresponding specialty’s teaching program. For the electronic information science and technology major, the basic credit requirement is 55. For the microelectronic science and engineering major and the communication engineering major, it is both 52. For the integrated circuit design major, it is 50.
3. Elective Courses
Courses in this module include specialty electives, cross-specialty electives, courses on employment and entrepreneurship, and public electives. Students must complete no less than 32 credits of courses in this module.
4. Outstanding Engineers’ Class
Students enrolled in this class can choose electives from the Outstanding Engineers’ Class, and the credits earned are counted for the credits on Elective Courses.
5. Requirements for Graduation and Degree
Students can graduate if they have been enrolled for 4 years, have completed all general-education and required courses, disciplinary platform courses and specialty core courses as required, have earned 150 credits and have successfully passed the defense of the graduation thesis/graduation design (8 credits).
The Structure of Undergraduate Courses for the Electronic Information Science and Technology Major | |||||||
First Year | Second Year | Third Year | Fourth Year | ||||
Advanced Mathematics (Calculus 1 & 2) | Advanced Mathematics (Linear Algebra) | Methods of Mathematical Physics (exit course) | Cryptography and Information Security | Strategies for Entrepreneurship and Development of IT Enterprises | Fundamentals of Compiling | Graduation Thesis | |
Probability and Stochastic Processes (exit course) | Digital Image and Digital Video Processing | Computer Vision | |||||
College Physics (1 & 2) (entry course) | College Physics 3 (exit course) | Quantum Physics and Quantum Communication (exit course) | Electromagnetic Field Theory and Microwave Technology (exit course) | Computing Methods | Radio Frequency and Microwave Circuit Design | ||
Circuit Analysis (entry course) | Analog Circuit (entry course) | Signals and Systems (entry course) | Digital Signal Processing (exit course) | Automatic Control Theory | Analog Integrated Circuit 1 | Weak Signal Detection | |
Programming | Foundations of Computer Science 1 (exit course) | Digital System 1 (exit course) | Foundations of Computer Science 2 (exit course) | Digital System 2 (exit course) | Digital Integrated Circuit 1 | ||
Circuit AnalysisExperiments (access course) | High Frequency Circuit (exit course) | C++ and Object-Oriented Programming | Database Principles | ||||
College PhysicsExperiments (entry course) | Analog Circuit Experiments (entry course) | Digital System Experiments 1 (exit course) | High Frequency Circuit Experiments(exit course) | Microwave Measurement & Experiment (exit course) | Motor and Control Experiments | ||
Math | Physics | Foundations of Specialty | Computer Science | Experiments | Specialty | Specialized Courses | Employment and Entrepreneurship |
The Structure of Undergraduate Courses for the Communication Engineering Major, the School of Electronics | |||||||
First Year | Second Year | Third Year | Fourth Year | ||||
Advanced Mathematics (Calculus 1 & 2) | Advanced Mathematics (Linear Algebra) | Methods of Mathematical Physics (exit course) | Cryptography and Information Security | Strategies for Entrepreneurship and Development of IT Enterprises | Graduation Thesis | ||
Probability and Stochastic Processes (exit course) | Electromagnetic Field Theory and Microwave Technology (exit course) | Radio Frequency and Microwave Circuit Design | |||||
College Physics (1 & 2) (entry course) | College Physics 3 | Quantum Physics and Quantum Communication | Satellite Communications | ||||
Circuit Analysis (entry course) | Analog Circuit (entry course) | Signals and Systems (entry course) | Digital Signal Processing (exit course) | Principles of Communication (exit course) | Data Communication (exit course) | Multimedia Communication Systems | |
Analog Circuit Experiments (entry course) | Digital Systems 1 (exit course) | Mobile Communication (exit course) | Weak Signal Detection | ||||
Programming | Foundations of Computer Science 1 (exit course) | Foundations of Computer Science 2 | C++ and Object-Oriented Programming | Database Principles | |||
College PhysicsExperiments (entry course) | Circuit AnalysisExperiments (entry course) | Digital System Experiments 1 (exit course) | Principles of Communication Experiments (exit course) | Microwave Measurement & Experiment (exit course) | Motor and Control Experiments | ||
Math | Physics | Foundations of Specialty | Computer Science | Experiments | Specialty | Specialized Courses | Employment and Entrepreneurship |
The Structure of Undergraduate Courses for the Microelectronics Major | |||||||
First Year | Second Year | Third Year | Fourth Year | ||||
Advanced Mathematics (Calculus 1 & 2) | Advanced Mathematics (Linear Algebra) | Methods of Mathematical Physics (exit course) | Cryptography and Information Security | Strategies for Entrepreneurship and Development of IT Enterprises | Leading-Edge Microelectronics and Photoelectron (lectures) | Graduation Thesis | |
Probability and Stochastic Processes (exit course) | Electromagnetic Field Theory and Microwave Technology (exit course) | Semiconductor Materials and Device Characterization | Wide Bandgap Semiconductor | ||||
College Physics (1 & 2) (entry course) | College Physics 3 | Quantum Physics and Quantum Communication | Microelectronics Processing (exit course) | Closed Beta Technology of Integrated Circuit | |||
Circuit Analysis (entry course) | Analog Circuit (entry course) | Signals and Systems (entry course) | Digital Signal Processing (exit course) | Semiconductor Physics (exit course) | Fundamentals of Semiconductor Devices (exit course) | Advanced Processing of Integrated Circuit | |
Analog Circuit Experiments (entry course) | Digital System 1 (exit course) | Foundations of Computer Science 2 | |||||
Programming (entry course) | Foundations of Computer Science 1 (exit course) | High Frequency Circuit | C++ and Object-Oriented Programming | Digital Integrated Circuit 1 | Fundamentals of Vacuum Technique and Thin-Film Materials | ||
College PhysicsExperiment (entry course) | Circuit AnalysisExperiments (entry course) | Digital System 1 Experiments (exit course) | Leading-Edge Information Electronics Experiments 1 | Solid State Physics | Semiconductor Photoelectronic Technology | Motor and Control Experiments | |
Math | Physics | Foundations of Specialty | Computer Science | Experiments | Specialty | Specialized Courses | Employment and Entrepreneurship |
The Structure of Undergraduate Courses for the Integrated Circuit Design Major, School of Microelectronics | |||||||
First Year | Second Year | Third Year | Fourth Year | ||||
Advanced Mathematics (Calculus 1 & 2) | Advanced Mathematics (Linear Algebra) | Integrated Circuit Project Management | Strategies for Entrepreneurship and Development of IT Enterprises | Leading-edge Microelectronics and Photoelectron (lectures) | Graduation Thesis | ||
Probability and Stochastic Processes (exit course) | Microelectronics Processing (exit course) | Advanced Integrated Circuit Processing | |||||
College Physics (1 & 2) (entry course) | College Physics 3 | Quantum Physics and Quantum Communication | Semiconductor Physics and Devices (exit course) | Closed Beta Technology of Integrated Circuit | Radio Frequency Integrated Circuit | ||
Circuit Analysis (entry course) | Analog Circuit (exit course) | Signals and Systems (entry course) | Digital Signal Processing (exit course) | Electromagnetic Field Theory and Microwave Technology (exit course) | Reliability and Characterization Technique of Microelectronics Devices | Integrated Circuit Back-End Design | |
Digital System 1 (exit course) | Integrated Circuit DFT | ||||||
Programming (entry course) | Foundations of Computer Science 1 (exit course) | Foundations of Computer Science 2 | Analog Integrated Circuit 1 (exit course) | Analog Integrated Circuit 2 (experiments included) (also for graduate students) | SoC Principles (also for graduate students) | ||
College PhysicsExperiments (entry course) | Circuit AnalysisExperiments (entry course) | Digital System 1 Experiments (exit course) | Leading-Edge Information Electronics Experiments 1 | Digital Integrated Circuit 1 (experiments included) (exit course) | Digital Integrated Circuit 2 (experiments included) (also for graduate students) | VLSI Digital Signal Processing (also for graduate students) | |
Analog Circuit Experiments (entry course) | Semiconductor Photoelectronic Technology | Practical Training in Integrated Circuit Engineering Projects | |||||
Math | Physics | Foundations of Specialty | Computer Science | Experiments | Specialty | Specialized Courses | Employment and Entrepreneurship |
