ESE 355 VLSI System Design

ESE 355 VLSI System Design

Description

The course will introduce techniques and tools for scalable VLSI design and analysis. The emphasis is on physical design and
on performance analysis. The course includes extensive lab experiments, a mini project, and hands-on usage of CAD tools.

Goals

Upon complition of this course, the students will be able to develop, layout and simulate fabricatable designs of VLSI building-blocks,
such as registers, arithmetic units, finite state machines, and medium-scale VLSI chips. Students will know to design digital circuits
optimized for timing, area and power constraints.

Course Syllabus

Course schedule

Text Books:

1. Jan Rabaey, A. Chandrakasan, B. Nikolic, "Digital Integrated Circuits: A Design Persepctive", Prentice Hall, 2003.

2. Neil Weste, K. Eshraghian, "Principles of CMOS VLSI Design: a Systems Perspective", Addison-Wesley, 2nd Edition, 1993.

Lecture Slides

Lecture 1 (week 1): Introduction to design of VLSI systems and circuits.
Lectures 2 (week 2): The MOSFET Transistor.
Lectures 3-4 (week 3): The CMOS Inverter.
Lecture 5 (week 4): Combinational Logic Gates (Static CMOS family) .
Lectures 6-8 (weeks 5, 6): Combinational Logic Gates. Pseudo-NMOS family. Pass transistor logic.
Lecture 9 (week 7): Layout techniques for complex gates.Dynamic logic.
Lectures 10-11 (weeks 9, 10): Design of Sequential Circuits.
Lecture 12 (week 10): Design for Testabiltiy.
Lecture 13 (week 11): Design of Sequential Circuits.
Lecture 14 (week 12): Arithmetic Building Blocks.
Lectures 15-16 (weeks 12, 13):Interconnect.
Lectures 17 (week 13):Timing Issues in Digital Circuits.
Lectures 18 (week 14):Self Timed Circuits.
Lectures 19-20 (weeks 14, 15): CAD for VLSI Design.

Lab Material & Mini Project Guidelines

HSPICE Quick Reference Manual (pick link to HSPICE "Quick" Reference Sheet).

MOSIS Design Rules.

SPICE Models for MOSIS technology.
Models for 0.5um. Models for 0.8um. Models for 1.5um. Models for 2.0um.

Magic Reference Manuals.
Tutorial 1 Tutorial 2 Tutorial 3 Tutorial 4 Tutorial 5 Tutorial 6 Tutorial 7 Tutorial 8
Tutorial 9 Tutorial 10 Tutorial 11 Tutorial 12

Office Hours:

Monday and Wednesday 12-2pm (Light Engineering Bldg. 261).

Exams

Midterm: March 7, 2003, 10:30-11:25am, Room: Javits 108.
Final exam: Exam week
Sample midterm exam (Spring 2002)
Sample final exam (Spring 2002)
Midterm 1. Problem 1. Solution
Midterm 1. Problem 2-1. Solution
Midterm 1. Problem 2-2. Solution
Midterm 1. Problem 2-3. Solution
Midterm 1. Problem 3. Solution

Grading

Final Grade = Homework1 * 0.05 + Homework2 * 0.1 + Homework3 * 0.1 + Homework4 * 0.1 +
Mid-term * 0.2 + Final * 0.2 + Mini Project * 0.2 +
Student portofolio * 0.05

Homeworks

Homework 1 (Starting date: Jan 31, 2003, Due date: Feb 10, 2003)
Homework 2 (Starting date: Feb 24, 2003, Due date: March 11, 2003)
Homework 3 (Starting date: March 12, 2003, Due date: March 31, 2003)
Homework 4 (Starting date: March 31, 2003, Due date: April 14, 2003)

If you want to share comments or anything else related to the class please send an e-mail to Alex Doboli . Last updated Jan 19 2003