The BRADLEY DEPARTMENT of ELECTRICAL and COMPUTER ENGINEERING

Undergraduate PROGRAMS

Course Information

Description

Introduction to the design and layout of Very Large Scale Integrated Circuits (VLSI). Emphasis is placed on digital CMOS circuits. Static and dynamic properties of MOSFET devices, along with integrated circuit fabrication are examined. Computer-aided design tools are used to produce working integrated circuit designs.

Why take this course?

This course will provide students with the ability to design state-of-the-art digital CMOS circuits. The course introduces students to what is becoming a fundamental design technique. The ability to design integrated circuits or to at least be able to analyze other’s designs is becoming a necessity for many computer engineering students entering the work force or pursuing an advanced degree. In addition, this course allows students to see how physically to implement some of the designs or design techniques they have learned in other classes. This course is modeled after the existing course ECE 5545. This proposal presents a restructuring of 5545’s course content to make it appropriate for seniors. The content of 5545/46 is being revised to reflect the shifting of material into 4540.

Design Technical Elective for CPE; Technical Elective for EE

Prerequisites

Prerequisites: 2204 and 2504

Students are required to have the ability to analyzed electrical circuits using both AC and DC techniques (3204 or equivalent). In addition, students are required to have knowledge of fundamental digital design and knowledge of basic CAD tools and digital design (3504 or equivalent).

Major Measurable Learning Objectives

  • Predict the static behavior of digital CMOS systems
  • Predict the dynamic behavior of digital CMOS systems
  • Communicate effectively about the integrated circuit fabrication process
  • Model and simulate digital CMOS systems
  • Use CAD tools used in VLSI design work,
  • Design an integrated circuit.

Course Topics

Topic

Percentage of Course

CMOS DC Characteristics 20%
CMOS Fabrication 15%
CMOS AC Characteristics 20%
CMOS Layout and Design Rules 15%
Power, Charge Sharing, and Capacitance 15%
Design Style and Variations 15%