Graduate Programs
EECS offers both the master degree and the doctor degree in electronics and computer science and technology. The master degree program is a three-year research degree program. Students get their master degree upon the fulfillment of required course work and thesis as well as the completion of oral thesis defense with a success. The doctoral degree program normally requires three (for those with a master degree already) to five years study and research. Students receive their Ph.D. degree upon the fulfillment of required course work and dissertation work.
Master students can choose from 11 majors and in each major there are multiple research areas available, as follows:
Major |
Research Areas |
Microelectronics and Solid-state Electronics |
1) ULSI novel device and IC technology 2) Integrated circuit and system 3) Microelectromechanical system 4) Wide-bandgap semiconductor |
Physical Electronics |
1) Nanodevices and system integration 2) Processing, characterization and measurement of nanostructures 3) Nanodevice physics and simulation |
Circuits and Systems |
1) Analysis and design of circuits and systems 2) Theory and applications of nonlinear circuits |
Electromagnetic Wave and Microwave Engineering |
1) Microwave theory and techniques 2) Microwave, millimeter wave and terahertz electronics 3) Computational electromagnetics and its applications 4) Microwave and digital communications |
Quantum Electronics |
1) Quantum information and quantum optics 2) Cold atom physics and precise measurement 3) Principle and technology of laser 4) Nuclear magnetic resonance imaging technology |
Communication and Information System |
1) Optical fiber systems 2) Mobile communications 3) Space communications 4) Wireless communication systems and networking |
Signal and Information Processing |
1) Theory and technology of information processing 2) Theory and technology of signal processing |
Major |
Research Areas |
Computer Architecture |
1) Parallel processing 2) SOC (System-on-chip) design 3) Micro-processor design 4) Hardware-software co-design 5) Energy efficient storage system 6) Electronic Design Automation 7) Computer networks and distributed systems 8) Search engine and data mining 9) Cloud computing and big-data 10) High performance computing 11) System virtualization technology |
Computer Software and Theory |
1) Software engineering and software engineering environment 2) Pervasive computing 3) Operating system and middleware 4) Mobile and embedded software systems 5) Programming languages 6) Network and information security 7) Knowledge engineering 8) Database management systems 9) Data warehouse and data mining 10) Big-data analysis 11) Computational linguistics 12) Nature language processing 13) Algorithm design and analysis 14) Computing complexity 15) Bioinformatics 16) Concurrency theory and application 17) Parallel software and programming |
Computer Application Technology |
1) Information extraction and pattern recognition 2) Multimedia information processing 3) Data mining and big-data analysis 4) Computer graphics and virtual reality 5) Network and Information security 6) Computer vision 7) Media computing 8) Image and video analysis and recognition 9) Multimedia processor design 10) Database technology and application |
Intelligence Science and Technology |
1) Theories of Artificial Intelligence 2) Perception Mechanism 3) Machine Vision 4) Hearing, Speech, and Language Processing 5) Machine Learning and Robotics 6) Intelligent Systems |
Doctoral students can choose from 11 majors and in each major there are multiple research areas available as well, as follows:
Major |
Research Areas |
Microelectronics and Solid-state Electronics |
1) ULSI novel device and IC technology 2) Integrated circuit and system 3) Microelectromechanical system 4) Wide-bandgap semiconductor |
Physical Electronics |
1) Nanodevices and system integration 2) Processing, characterization and measurement of nanostructures 3) Nanodevice physics and simulation 4) Micro/nano biophotonics |
Circuits and Systems |
1) Analysis and design of circuits and systems 2) Theory and application of nonlinear circuits |
Electromagnetic Wave and Microwave Engineering |
1) Microwave and digital communications 2) Satellite navigation and positioning 3) High-resolution electromagnetic imaging and object identification 4) Microwave, millimeter wave and terahertz electronics 5) Computational electromagnetics and its application |
Quantum Electronics |
1) Quantum optics and quantum information 2) Cold atom physics and precise measurement 3) Principles and technology of laser 4) Principles and technology of atomic clock |
Communication and Information System |
1) Optical communication systems and networking 2) Micro/nano photonics 3) Fiber optical sensing and detecting 4) Wireless communications 5) Satellite communications & deep space communications 6) Mobile communication systems and networking 7) MIMO wireless communication systems 8) Mm-wave communications |
Signal and Information Processing |
1) Array signal processing 2) Signal processing in communications 3) Signal processing in information optics 4) Signal processing in acoustics 5) Signal processing and intelligent systems |
Major |
Research Areas |
Computer Architecture |
1) Parallel processing 2) Micro-processor architecture and design 3) Computer architecture 4) SOC(System-on-chip) design 5) Hardware-software co-design 6) Computer network and distributed systems 7) Mobile computing 8) High performance computing 9) Energy-efficient storage systems 10) Electronic design automation |
Computer Software and Theory |
1) Software engineering and software engineering environment 2) Intelligent software development methodology and technology 3) Self-adaptive software theory and technology 4) Operating system and middleware 5) Mobile and embedded software systems 6) Programing languages and models 7) Pervasive computing 8) Network and information security 9) Internet of things technology 10) Database management systems 11) Data warehouse and data mining 12) Cloud computing and big-data 13) Knowledge engineering 14) Nature language processing 15) Computer linguistics 16) Software formalization methods 17) Algorithm design and computation complexity 18) Bioinformatics 19) Parallel programming, analysis and verification |
Computer Application Technology |
1) Multimedia computing 2) Image and video analysis and recognition 3) Computer vision and digital visual arts 4) Multimedia processor design 5) Network and information security 6) Computer graphics and virtual reality 7) Network content extraction and pattern recognition 8) Nature language processing and Chinese computation 9) Large-scale machine intelligence and machine learning 10) Intelligent data analysis 11) Wireless network and mobile computing 12) Intelligent human-computer interaction and robot technology 13) Pattern recognition 14) Distributed storage technology |
Intelligence Science and Technology |
1) Theories of Artificial Intelligence 2) Perception Mechanism 3) Machine Vision 4) Hearing, Speech, and Language Processing 5) Machine Learning and Robotics 6) Intelligent Systems |
The school puts great efforts on student education, aiming at fostering qualified professionals in electronics and computer science and technology with great vision and responsibility. For that, the school is dedicated to providing rigorous academic trainings to students, broadening their horizons, fostering their sense of responsibility, and enhancing their executive capability. Over the years, the school has established a fairly mature system for educating graduate students. Research and education are well integrated here and students are one of the major forces for scientific innovation, as an example, six dissertations have been nominated for the National Outstanding Dissertation Award, one dissertation won the Beijing Outstanding Dissertation Award, and 7 dissertations won the Chinese Computer Federation Outstanding Dissertation Award.
