I. Introduction

The first-level discipline of postgraduate training in our college is named electronic science and technology, and the two disciplines are named microelectronics and solid-state electronics. The research directions are as follows: micro/nano electronic devices and systems; Integrated circuits and systems; Integrated circuit technology and nano-machining technology; Physics and computer aided design of semiconductor devices; ; Nanoelectronics and quantum information technology. There are 27 postgraduate courses in our college; At present, the number of students in school: 85 doctoral students; Master students: 343 (including 243 masters in engineering). In 2009, * * * enrolled graduate students 136 (including doctoral students 19, engineering graduate students 26 and engineering graduate students 9 1 person); Graduate students 105 (doctor 14, master of engineering 22, master of engineering 69).

Second, the curriculum.

There are 27 postgraduate courses, and 23 courses have been opened this year. The details are as follows:

Of course not. : 7 10200 13 course name: progress in semiconductor device physics

Teacher: Xu Jun.

Description: Analysis of semiconductor complex energy band structure and crystal symmetry; Carrier scattering theory and strong field hot carrier transport: physics of short trench MOS devices: heterostructure physics and heterojunction devices: photoelectron effect and luminescence of semiconductors: amorphous semiconductors and devices.

Of course not. : 7 1020023 course name: digital LSI

Teacher: Zhou Runde

Description: the model and physical problems of VLSI small devices; The principle, structure and design method of MOS digital VLSI: time delay and various clock technologies in VLSI circuits: VLSI synchronous clock and asynchronous clock system; VLSI system design method of logic and memory, and parallel algorithm and architecture of VLSI.

Of course not. : 7 1020033 course name: analog VLSI

Teacher: Li Fule, Wang Zhihua.

Content Description: This course is a professional course after the undergraduate courses Analog Electronic Circuits and Analog Integrated Circuit Analysis and Design. The purpose is to learn the design rules and methods of analog integrated circuits, increase the manufacturability of the designed circuits, and improve the possibility of successful one-time design. The course content includes: device model and circuit simulation, analog integrated circuit unit, amplifier design, high performance amplifier, comparator, A/D and D/A conversion circuit, chip input and output, manufacturability and testability, layout and packaging, etc.

Of course not. : 7 1020043 Course Name: Advanced Synthesis of Digital VLSI System

Teacher: Wei Shaojun.

Description: VHDL language introduction, design flow, behavior description and simulation, behavior description and target structure matching, data channel design, controller design, test vector generation, system verification; Behavior design, data channel and controller design and optimization; Comprehensive VHDL description, operator scheduling, resource allocation, register optimization, control code generation, controller structure selection and state simplification.

Of course not. : 7 1020053 Course Name: Computer Aided Design of Integrated Circuits

Teachers: Yu Zhiping, Ye Zuochang

Description: The realization of RF circuit in silicon CMOS process. RF characteristics and models of deep submicron devices. Analysis and design of unit circuits (LNA, VCO, PLL, frequency synthesizer, power amplifier, etc.). ) RF transmitter and receiver. Related problems and solutions of substrate coupling and digital-analog RF hybrid circuit design.

Of course not. : 7 1020062 course name: integrated circuit manufacturing technology and equipment

Teacher: Wang Shuidi

Content abstract: The whole course begins with the process of pulling monocrystalline silicon, and tells about the new packaging of modern integrated circuits, so that students can understand the manufacturing process of integrated circuits other than circuit design. The key point is to explain in detail all kinds of single process technologies and related process equipment in integrated circuit manufacturing, and demonstrate the whole manufacturing process of a double-well CMOS inverter in the form of animation, so that students can intuitively understand the specific application of each single process. In view of the rapid development of MEMS technology, a special chapter introduces the application of IC manufacturing technology in MEMS device manufacturing. The course also briefly introduces the clean technology closely related to integrated circuit manufacturing, and finally briefly introduces some key technologies and technical difficulties of integrated circuits after entering the nano-era.

CourseNo.: 7 1020073 Course Name: RF CMOS Integrated Circuit Design

Teacher: Chi Baoyong

Abstract: Through the study of this course, students can basically master the structure of RF transceiver in wireless communication, the working principle, circuit analysis and design of high frequency and low noise amplifier, mixer, oscillator, voltage controlled oscillator and phase locked loop. The students received a complete training in RF integrated circuit design.

Method 1: Give lectures in class and use internationally recognized teaching materials. Teaching hours plan accounts for half of the total hours;

Method two, train students with design tools commonly used in the international integrated circuit industry;

Method 3: Each student will design one or several RF circuit modules.

Method 4: Strive to put the successfully designed RF circuit module into industrial assembly line, assembly line, packaging and testing.

Course number: 8 10200 12 Course name: VLSI network.

Teacher: Chen Zhiliang has stopped.

Description: VLSI networks, switched capacitor networks, continuous-time networks, artificial neural networks, fuzzy logic circuits and systems, as well as the current development level, trend and research focus of new switched current networks and high-performance DC-DC converters.

Of course not. : 802600 12 course name: integrated circuit design practice

Teacher: Li Fule

Abstract: Through a specific course project design, the full-custom design based on CMOS technology is realized, and the whole process training is carried out from the overall scheme and structure, circuit design and simulation, layout design and verification to tape-out testing.

Of course not. : 80260023 Course Name: Cryptography and Network Security

Teacher: Bai Guoqiang didn't open this year.

Content Description: Traditional encryption technology; Mathematical basis of cryptographic algorithm; Modern symmetric encryption technology (DES, AES, RC4); Asymmetric encryption methods and technologies (RSA, ECC); Password function setting and key management; Message authentication and hashing algorithm; Digital signature and authentication protocol; Network security protocol.

Of course not. : 702600 13 course name: digital integrated system design

Teacher: Zhang Chun

Content Description: This course takes hardware description language as design input means to teach the design method and advanced synthesis technology of digital integrated system. This course also teaches the principle and design technology of programmable devices, and cultivates practical ability through computer experiments.

Course number: 80260032 Course name: New micro-nano electronic materials and devices.

Teacher: Ren

Content Description: This course introduces the basic concepts, principles and methods of new micro-nano electronic materials and devices, combining with the international research frontiers. The main contents include: new dielectric materials and integrated devices, magnetoelectronic materials and devices, low-dimensional semiconductor materials and devices, molecular electronic materials and devices, etc.

Course number: 80260042 Course name: PLL design and clock/frequency generation.

Teacher: Li Yugen

Abstract: This course introduces the generation of PLL, and helps students to obtain the system perspective method and circuit design method of PLL for wired and wireless communication. The first half of the course will introduce the basic theoretical analysis and system circuit design method of PLL; The second half includes the introduction of materials used in different PLL applications, as well as more in-depth topics: frequency analysis, clock data recovery, delay locked loop, on-chip testability and its compensation, coupling problems in SoC design and future challenges. Coupling, testability and on-chip compensation are also very useful for SoC design and mixed-signal IC design.

Of course not. : 80260052 Course Name: Semiconductor Storage Technology

Teacher: Pan Liyang

Abstract: Semiconductor memory is an important research field and supporting technology in the development of microelectronics technology. This course aims to promote students to master the design and implementation methods of semiconductor memory and improve their comprehensive application ability by comprehensively explaining the basic theories, devices, circuits, process technologies and new storage technologies of various mainstream memories.

Of course not. : 80260062 Course Name: Embedded System Design and Practice

Teacher: Li

Abstract: With the development of information, intelligence and networking, embedded system has gained a broad development space, and has been applied to communication, industrial monitoring, national defense and military, transportation and communication, medical care and all aspects of people's daily life. This course comprehensively introduces the basic principles and practical methods of embedded system through teaching and course practice. Through classroom study and hands-on practice, students can fully grasp the basic knowledge of embedded system; Software and hardware co-design method; How to design a complex embedded system; Embedded operating system and low power design.

Of course not. : 8 1020022 course name: microprocessor structure and design

Teacher: Li Shuguo.

Description: A brief history of microprocessor development; Performance evaluation of microcomputer and microprocessor: instruction-level structure design and RISC technology; Design of data path and control unit; Pipeline technology; Storage management and cache design; The development trend of microprocessor.

Of course not. : 8 1020032 Course Name: Introduction to Testing Methodology of Large Scale Integrated Circuits

Teacher: Sun Yihe

Description: VLSI logic model and logic simulation, VLSI fault model and fault simulation, VLSI test generation method and test chart automatic generation, intelligent VLSI test method and test chart generation method, measurement and method of testability design, system-level fault modeling and test generation, and the formation scheme and approach of integrated CAI work center, etc.

Of course not. : 8 1020042 Course Name: Microelectronic Packaging Technology

Teacher: Cai Jian.

Brief introduction: the present situation and development trend of microelectronic packaging, the main performance indexes and electrical, thermal and thermodynamic design of packaging, the main manufacturing processes and materials used in integrated circuit packaging, the selection principles of integrated circuit packaging and the main failure modes of packaging, etc.

Of course not. : 8 1020052 course name: micron/nanotechnology physics was not offered this year.

Teacher: Liu Zewen.

Description: various technologies and physical principles related to the fabrication of micro/nano devices and structures, including anti-corrosion principle, optical lithography technology, physical process of ion beam, electron beam and X-ray formation and their interaction with substances, dry etching and etching principle.

Course number: 8 1020062 Course name: MEMS.

Teacher: Liu

Brief introduction: the composition, structure, basic principle, design method and manufacturing technology of MEMS, and several typical MEMS devices are introduced. Micro-integrated sensors, micro-actuators and micro-systems, and introduced the application of MEMS in information, biology, medicine, aerospace and other fields.

Of course not. : 8 1020082 course name: VLSI digital signal processing

Teacher: And Liu.

Abstract: Digital signal processing is the foundation of many applications, such as audio and video, communication, measurement, navigation, information security and so on. This course teaches the VLSI system implementation methods and technologies of various digital signal processing algorithms to guide the design of VLSI chips and realize speed-area-power consumption optimization.

CourseNo.: 8 1020 132 Course Name: Integrated Circuit Manufacturing and Production Management.

Teacher: Zhang Zhigang.

Content introduction: operation management; Technical management of integrated circuit production process; Integrated circuit production process management; Learning curve; Typical application of linear programming in operation management: actual integrated circuit production planning system; Introduction to quality management; Statistical process control (SPC); Process capability research; Supply chain management; Independent demand inventory system; Brief introduction of IC-cam system: virtual manufacturing of integrated circuits.

CourseNo.: 9 10200 12 Course Name: Latest Progress in Microelectronics.

Teachers: Liu, et al

Description: MOSFET device limits, ULSI technology, design and packaging topics, from microelectronics to nanoelectronics; Deep submicron integrated circuit design, digital signal processing and VLSI implementation; The structure, principle, manufacturing technology and typical devices of MEMS, fuzzy control principle, algorithm and hardware implementation; The latest architecture and parallel processing technology of microprocessor.

Course number: 80260032 Course name: New micro-nano electronic materials and devices.

Teacher: Ren

Content Description: The course content has two parts. Firstly, the basic theory and method of integrated ferroelectrics, including the structure and basic properties of ferroelectrics, materials and technology, device integration, testing and characterization. The second is the application of integrated ferroelectric, including ferroelectric memory, MEMS devices, high-frequency devices, infrared detectors and so on.

Of course not. : 8 1020 1 12 course name: nano-electronic devices

Teacher: Rebecca.

Introduction: introduction to nano-electronic devices; Principle and application of single electron transistor: principle and application of vibrating punch-through diode: electronic structure and application of carbon nanotubes: nano-machining technology-a bridge to the nano-world.

Course number: 8 1020 122 course name: CMOS integrated circuit manufacturing experiment.

Teacher: Liu Zhihong.

Content abstract: Through the study of this course, students can really gain practical opportunities from the original theoretical knowledge of semiconductors (integrated circuits). The purpose of integrating theory with practice is achieved in the self-practice and manufacture of CMOS integrated circuits. Objective: Using the above experimental equipment and 24-hour operation mechanism, each student can achieve the goal of making CMOS integrated circuits by himself. Finally, I have independent hands-on ability and analytical ability. Ensure that the adopted technology and equipment reach the current domestic technical level of 0.35-0.8 micron.

CourseNo.: 8 1020 142 Course Name: IC Design and Method.

Teacher: Zhang Chun

Description: This course aims to enable students to establish a complete concept of integrated circuit design technology and process, learn and understand integrated circuit design methods, and master integrated circuit design tools. Through the study and experiment of this course, the practical ability of integrated circuit design is cultivated.

Fourth, the thesis.

* * * 2 doctoral dissertations won prizes, 1 won the first prize of Tsinghua University Excellent Doctoral Dissertation; 1 article won the second prize of excellent doctoral dissertations in Tsinghua University, and 7 master's dissertations won excellent master's dissertations in Tsinghua University.

This can be found on the website of the Institute of Micro-Nano Electronics. If you are really interested, you can contact the teacher of Micro-Nano Electronics Research Institute directly by email, and the contact information can be found on the website.