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 EE203:  Advanced Digital Integrated Circuits
                   Berkeley 高級數字集成電路視頻課程
Instructor: Professor Jan Rabaey
(27講 ¥75)

        Advanced Digital Integrated Circuits 是UC Berkekey 研究生課程,共27講,每講80分鐘左右;課程視頻全為.rm格式,同時有與視頻課程內容配套的完整的課程講義;有了課程講義讓您的學習更有效,在潛移默化中提高專業(yè)知識和英語能力。
        加州大學伯克萊分校(UC Berkeley)作為世界一流大學,有著世界頂級的大師,所設課程也都是精品中的精品,緊跟最新科技的進展。本站推出的美國一流大學精品視頻課程套裝,讓您足不出戶就能一睹世界一流大學大師教學的風采;聆聽大師的聲音、拓展國際化的視野、與國際水平看齊、實現自我價值的提升。

 

 

Course Description:

        This course aims to convey a knowledge of advanced concepts of circuit design for digital VLSI components in state of the art MOS technologies. Emphasis is on the circuit design, optimization, and layout of either very high speed, high density or low power circuits for use in applications such as micro-processors, signal and multimedia processors, memory and periphery. Special attention will devoted to the most important challenges facing digital circuit designers today and in the coming decade, being the impact of scaling, deep submicron effects, interconnect, signal integrity, power distribution and consumption, and timing.
       This semester, extra focus will be given to the following topics: Low power and low-voltage, process variations and robustness, and memory design in the nano scale era. This will reflected in both the lectures and the preferred projects.
 

Textbooks:

       J. Rabaey, A. Chandrakasan, B. Nikolic, Digital Integrated Circuits: A Design Perspective , 2nd Edition, Prentice Hall, 2003.
Other books
        1. S. Narendra and A. Chandrakasan, "Leakage in Nanometer CMOS Technologies", Springer, 2006.
        2. B. Wong et al, "Nano-CMOS Circuit and Physical Design", Wiley, 2005.
        3. C. Piguet Ed, "Low Power Electronics Design," CRC Press, 2004.
        4. A. Chandrakasan, W. Bowhill, F. Fox, "Design of High-Performance Microprocessor Circuits", IEEE Press, 2001.
        5. W.J. Dally and J.W. Poulton, "Digital System Engineering", Cambridge University Press, 1998.
        6. K. Bernstein, et al, "High Speed CMOS Design Styles," Kluwer Academic Publishers, 1998.
        7. V.G. Oklobdzija, "High-Performance System Design: Circuits and Logic," IEEE Press, 1999.
        8. A. Chandrakasan and R. Brodersen, "Low-Power CMOS Design", IEEE Press, 1998.
 

Course Schedule

Lecture

Date

Lecture

1

Jan 18

Introduction + future prospects

2

Jan. 23

Scaling

3

Jan. 25

Transistor Modeling

4

Jan. 30

Delay models

5

Febr. 1

Optimization for speed

6

Febr. 8

Static and PT Logic

7

Febr. 13

Dynamic Logic

8

Febr. 15

Other high-speed logic

9

Febr. 22

Low power design (1)

10

Febr. 27

Low power design (2)

11

March 1

Voltage scaling

12

March 8

Dealing with leakage

13

March 13

Energy recovery

14

March 15

Ultra-Low Voltage

15

March 17

Power distribution

16

March 20

Process Variations

17

March 22

Process Variations

18

April 3

Timing concepts

19

April 5

Alternative timing

20

April 10

Clock distribution

21

April 12

Clock distribution (continued)

22

April 24

Memory (1)

23

April 26

Memory (2)

24

May 1

Arithmetic (1)

25

May 3

Arithmetic (2)

26

May 8

Test

27

May 9

Project Presentations (3 hours)

 

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