This course covers (1) Silicon logic: logic design with MOSFETs, physical structure of CMOS integrated circuits, fabrication of CMOS integrated circuits, elements of physical design; (2) The logic-electronics interface: electrical characteristics of MOSFETs, electronic analysis of CMOS logic gates, designing high-speed CMOS logic networks, advanced techniques in CMOS logic circuits; (3) The design of VLSI systems: VLSI clocking and system design, reliability and testing of VLSI circuits.This course covers (1) Silicon logic: logic design with MOSFETs, physical structure of CMOS integrated circuits, fabrication of CMOS integrated circuits, elements of physical design; (2) The logic-electronics interface: electrical characteristics of MOSFETs, electronic analysis of CMOS logic gates, designing high-speed CMOS logic networks, advanced techniques in CMOS logic circuits; (3) The design of VLSI systems: VLSI clocking and system design, reliability and testing of VLSI circuits.
This is an introduction course in VLSI circuits. We will learn modern CMOS logic circuits, fabrication, and layout well as the system-level considerations. This course plans to cover silicon logic: logic design with MOSFETs, physical structure of CMOS integrated circuits, fabrication of CMOS integrated circuits, elements of physical design; the logic- electronics interface: electrical characteristics of MOSFETs, electronic analysis of CMOS logic gates, designing high-speed cMOS logic networks, advanced techniques in CMOS logic circuits; and the design of VLSI systems: VLSI clocking and system design, reliability and testing of VLSI circuits. Students are encouraged to read textbook materials in advance before attending each class and work through examples, exercises and problems after classes.
This is an introduction course in VLSI circuits. We will learn modern CMOS logic circuits, fabrication, and layout well as the system-level considerations. This course plans to cover silicon logic: logic design with MOSFETs, physical structure of CMOS integrated circuits, fabrication of CMOS integrated circuits, elements of physical design; the logic-electronics interface: electrical characteristics of MOSFETs, electronic analysis of CMOS logic gates, designing high-speed cMOS logic networks, advanced techniques in CMOS logic circuits; and the design of VLSI systems: VLSI clocking and system design, reliability and testing of VLSI circuits. Students are encouraged to read textbook materials in advance before attending each class and work through examples, exercises and problems after classes.
Introduction to VLSI circuits and systems
by John P. Uyemura
出版商: John Wiley & Sons, inc.
Chip design for submicro VLSI
by John P. Uyemura
出版商: Thomson
Modern VLSI design 4th
by Wayne Wolf
出版商: Pearson
Introduction to VLSI circuits and systems
by John P. Uyemura
Publisher: John Wiley & Sons, inc.
Chip design for submicro VLSI
by John P. Uyemura
Publisher: Thomson
Modern VLSI design 4th
by Wayne Wolf
Publisher: Pearson
| 評分項目 Grading Method | 配分比例 Grading percentage | 說明 Description |
|---|---|---|
| 平常成績平常成績 normal grades |
25 | |
| 小考小考 Quiz |
25 | |
| 期中考期中考 midterm exam |
25 | |
| 期末考期末考 final exam |
25 |
