Digital IC Design Workshop |
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Course Description:
This course is designed to provide senior students with in-depth analysis and design capability required for state-of-the-art digital integrated circuits.
In this course, we focuse on the design and analysis of digital integrated circuits. Students are introduced to techniques for designing low-power and high-performance digital integrated circuits in deep submicron CMOS technologies. Topics covered in the course include MOS field effect transistor characteristics, CMOS technology, dc and transient analysis of inverters, combinational logic gates, noise margin, propagation delay, power dissipation, transistor sizing, interconnect properties and buffering, low-power design techniques, bi-stable circuits, latches and registers, dynamic circuits, and semiconductor memories.
Topics:
This course is designed to provide senior students with in-depth analysis and design capability required for state-of-the-art digital integrated circuits.
In this course, we focuse on the design and analysis of digital integrated circuits. Students are introduced to techniques for designing low-power and high-performance digital integrated circuits in deep submicron CMOS technologies. Topics covered in the course include MOS field effect transistor characteristics, CMOS technology, dc and transient analysis of inverters, combinational logic gates, noise margin, propagation delay, power dissipation, transistor sizing, interconnect properties and buffering, low-power design techniques, bi-stable circuits, latches and registers, dynamic circuits, and semiconductor memories.
Topics:
- Basic theory and characteristics of MOS devices
- Circuit models and computer-aided analysis of MOS circuits
- Design of the basic MOS digital inverter
- Design with MOS static and dynamic circuits
- MOS memories
- Programmable logic arrays
- I/O circuit design
- BICMOS circuits