VSD - Circuit Design & SPICE Simulations - Part 2

Overview

This is a follow-up course on my previous one "Circuit design and SPICE simulations - Part1"

It is a must, that you go through Part 1 of this course, to fully understand and apply using open source tools. This course will help you do some advanced quick SPICE simulations, while you analyze the behavior of your devices.

Physics of MOSFET
Run smart SPICE simulations on your own and test your own circuits
Get better understanding of Timing Analysis
Learn VLSI from scratch to advanced (this includes my other courses as well)

In this course we will cover:

Voltage Transfer Characteristics - SPICE simulations
Static behavior Evaluation : CMOS inverter Robustness
Switching Threshold
Noise margin
Power supply variation
Device variation

Objective

Introduction
Voltage Transfer Characteristics - SPICE simulations
- SPICE deck creation for CMOS inverter
- SPICE simulation for CMOS inverter
- SPICE deck for CMOS inverter (W/L)p = (W/L)n
- SPICE deck for CMOS Inverter (W/L)p = 2.5(W/L)n
- Model file Preview
- VTC - Quiz
Static behavior Evaluation : CMOS inverter Robustness - Switching Threshold
- Switching Threshold, Vm
- Analytical expresssion of Vm as a function of (W/L)p and (W/L)n
- Analytical expression of (W/L/)p and (W/L)n as a function of Vm
- Static and dynamic simulation of CMOS inverter
- Static and dynamic simulation of CMOS inverter with increased PMOS width
- Applications of CMOS inverter in clock network and STA
- Switching threshold quiz
Static behavior Evaluation : CMOS inverter Robustness - Noise Margin
- Introduction to noise margin
- Noise margin voltage parameters
- Noise margin equation and summary
- Noise margin variation with respect to PMOS width
- Noise margin quiz
Static behavior Evaluation : CMOS inverter Robustness - Power supply variation
- Smart SPICE simulation for power supply variations
- Model file for power supply variation experiments Preview
- Advantages and disadvantages using low supply voltage
- Power supply variation quiz
Static behavior Evaluation : CMOS inverter Robustness - Device variation
- Sources of variation - Etching process
- Sources of variation - oxide thickness
- Smart SPICE simulation for device variations
- SPICE deck for device variation experiments
- Model file for device variation experiments
- Device variation quiz
Conclusion

Audience Profile

Anyone interested to know, what drives this $Billion VLSI industry
Anyone looking to do some practical and hands-on work on SPICE simulations
Any professional already doing Static Timing Analysis and wants to go into details of delay models
Anyone looking to stay for a long time in VLSI domain

Prerequisites

Basic understanding on Industiral physical design flow, clock tree synthesis and static timing analysis to get applications of this course
Even if you are not aware of above one's, that's even better, you can start from scratch