Digital IC Design (August 2024): Difference between revisions

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Revision as of 08:48, 2 September 2024

  • First Semester AY 2024-2025
  • Course Credit: 4 units (3 units lecture, 1 unit lab)

Catalog Description

Fundamentals of MOSFETS. Technology and modelling. Scaling and limits of scaling. Design for deep-submicron CMOS – high speed. Design techniques for low power. Arithmetic circuits. Driving interconnect, high-speed signalling. Timing. Memory design. Design for testability.

Prerequisite: CoE 141 or equiv

Course Outline

Module Date Topic Resources Activity
1 3 Sep 2024 Introduction video Activity 1
2 10 Sep 2024 MOS Transistor and Technology Scaling video Installing the Tools
3 17 Sep 2024 CMOS Inverter and Delay models Inverter Activity 3
4 24 Sep 2024 CMOS Gates and Logical Effort CMOS Gates

Logical Effort

CMOS Gates Exercise
5 6 Nov 2023 Variability video

Security

6 13 Nov 2023 Low power design techniques Power video

Energy video

Lab Exercise on Variability
7 20 Nov 2023 Timing video Activity 7
27 Nov 2023 Declared Holiday
8 4 Dec 2023 Memory Design video Lab Exercise on Memory
9 11 Dec 2023 Subthreshold Memory
10 18 Dec 2023 One-on-one project discussions
8 Jan 2024 Finals

References

  • review of semiconductor fundamentals [EEE 41]
  • review of transistors and transistor circuits [EEE 51]
  • Book References
    • J. Rabaey. 2009. Low Power Design Essentials. Springer Publishing Company, Incorporated.
    • J. Rabaey, Chandrakasan, A,, Nikolic, B. 2004. Digital integrated circuits- A design perspective. Prentice Hall.
    • A. Chandrakasan, W. Bowhill, and F. Fox. 2000. Design of High-Performance Microprocessor Circuits. Wiley-IEEE Press
    • M. Alioto (ed), Enabling the Internet of Things: From Integrated Circuits to Integrated Systems, Springer 2017.
    • Neil Weste and David Harris. 2010. CMOS VLSI Design: A Circuits and Systems Perspective (4th. ed.). Addison-Wesley Publishing Company, USA.
  • Other References