Digital Electronics and Circuits Fall 2021
Feipei Lai 賴飛羆 3366-4924 flai@ntu.edu.tw CSIE 419,
Lecture: Monday, 14:20-16:10, Wednesday, 14:20-15:10
Web site:
Online class:
https://meet.google.com/vjx-tbzk-gdc
Outline:
1. Introduction to Electronics (2 weeks)
2. Solid-State Electronics (2 weeks)
3. Solid-State Diodes and Diode Circuits (2 weeks)
4. Field-Effect Transistors (2 weeks)
5. Digital Electronics (3 weeks)
6. CMOS Logic Design (3 weeks)
7. MOS Memory and Storage Circuits (2 weeks)
Textbook:
1. Microelectronic Circuit Design, by Jaeger and Blalock, McGraw Hill fifth edition
Teaching Assistant:
王馨 (r09945067@ntu.edu.tw)
Grade:
Mid-term (2021/11/22) 25%
Final Exam (2021/1/10) 25%
Homework 25%
Quiz 25%
Reading assignment: IEEE Computer Magazine
It's Time to Redefine Moore's Law Again
Date of Publication: 06 February 2017 DOI: 10.1109/MC.2017.34
The familiar story of Moore's law is actually inaccurate. This article corrects the story, leading to different projections for the future. Moore's law is a fluid idea whose definition changes over time. It thus doesn't have the ability to "end," as is popularly reported, but merely takes different forms as the semiconductor and computer industries evolve.
Moore's law is the observation that the number of transistors in a dense integrated circuit doubles approximately every two years. The observation is named after Gordon Moore, the co-founder of Fairchild Semiconductor and Intel, whose 1965 paper described a doubling every year in the number of components per integrated circuit, and projected this rate of growth would continue for at least another decade. In 1975, looking forward to the next decade, he revised the forecast to doubling every two years.