This set of videos is an introductory tutorial for integrated circuit layout design. It contains 7 lectures, mainly introducing the basic knowledge of layout design, matching technology, noise isolation technology, etc., hoping to help students or practitioners in related majors.
Total of 7 lessons9 hours and 28 minutes and 10 seconds
Total of 41 lessons1 days and 3 hours and 33 minutes and 31 seconds
The teaching goal of the advanced analog integrated circuit circuit design course for first-year graduate students in microelectronics: to cultivate the innovative thinking ability and practical ability of graduate students through a more in-depth explanation of the basics of analog integrated circuit design, and to lay the foundation for the later training of graduate students.
Total of 54 lessons1 days and 16 hours and 12 minutes and 22 seconds
The teaching content of the course is the basic theory and basic methods of VLSI design. Starting from the introduction of the mainstream technology of CMOS integrated circuits, the main technical foundations of VLSI design are introduced: CMOS device basics, combinational logic circuits, sequential logic circuits, and memory design.
Total of 70 lessons17 hours and 21 minutes and 24 seconds
This course is a core course for majors such as "Electronic Information Science and Technology" and "Microelectronics Science and Engineering". It comprehensively and systematically introduces the basic knowledge of microelectronics technology, focusing on individual chip manufacturing processes, including: epitaxy, thermal oxidation, diffusion, ion implantation, chemical vapor deposition, physical vapor deposition, photolithography, and etching. Metal interconnections, typical process integration, key process equipment, and future development trends of microelectronics processes are also introduced. Through the study of this course, students can have a comprehensive understanding of microelectronics process technology and lay a solid foundation for subsequent professional courses. It is also conducive to the improvement of students' professional quality.
Total of 110 lessons11 hours and 37 minutes and 37 seconds
Through the study of this course, students can master the basic theories of modern microelectronic devices and integrated circuit design. Be familiar with the actual structure, working principle, basic characteristics and applications of semiconductor devices; understand the intrinsic relationship between the macroscopic characteristics and microstructural parameters of the device; understand the composition, process and design methods, steps, rules and computer-aided design systems of integrated circuits, especially The principles and layout design of unit circuits; equip students with the theoretical foundation of modern microelectronic devices and integrated circuit design, and master the basic methods of design.
Total of 27 lessons19 hours and 38 minutes and 11 seconds
Understand the basic methods and technologies of today's integrated circuit design; master the basic structure, model and characteristics of MOS devices, master the principles of basic combinational logic circuits and sequential logic circuits; understand the basic process of microelectronic integrated circuit technology; understand the basic layout of integrated circuits ; Master the basic theory, qualitative and quantitative analysis methods, and design techniques of CMOS analog integrated circuits. Proficient in the basic theory, basic structure, and evaluation methods of digital integrated circuits. Finally, you will have the basic knowledge and basic methods to carry out integrated circuit design. Master the basic concepts, basic rules and basic analysis methods of integrated circuits, cultivate a way of thinking suitable for engineering disciplines, and improve logical thinking abilities.
Total of 73 lessons15 hours and 25 minutes and 19 seconds
"Digital Large Scale Integrated Circuit" is a basic course for graduate students in microelectronics that teaches the basic theory and knowledge of digital large scale integrated circuits. It is not only a core course for students majoring in microelectronics, but also a basic course for students majoring in power supply to learn digital integrated circuit design. The course focuses on nanometer and deep submicron CMOS process conditions, digital circuit principles and design techniques at the system level integration level, including the characteristics and models of devices and interconnect lines, key indicators and optimization methods of digital VLSI, and common logic Type, basic functional units, working principles and design methods of important on-chip subsystems (clock, power network), etc. By studying this course, you can understand how to use MOS tubes to implement complex digital chips, what are the differences between real digital integrated circuits and ideal digital circuits, and the speed, power consumption, robustness, cost, etc. of the chip. What factors are related to the characteristics and how to optimize them.
Total of 125 lessons1 days and 5 hours and 40 minutes and 56 seconds
Teacher maychang vividly told the story of the development history of integrated circuits, allowing us to calm down, quietly read history, use history as a mirror, understand the development of the current electronics industry, and be more creative in work and study.
Total of 1 lessons1 hours and 22 minutes and 33 seconds
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