CMOS Digital VLSI Design Lab

CMOS Digital VLSI Design Lab, available at $24.99, has an average rating of 3.95, with 37 lectures, 8 quizzes, based on 15 reviews, and has 125 subscribers.

You will learn about Fundamentals of MOSFET Characteristics Use of LTSpice for simulation CMOS Inverter Characteristics Static CMOS Combinational Logic Design Concepts and Simulation of Pass Transistor Logic Concepts and Simulation of Transmission Gate Ratioed Logic Implementation Dynamic CMOS Circuit Design Implementation of Sequential Logic Element 6T-SRAM Cell Simulation This course is ideal for individuals who are Undergraduate or Post Graduate Engineering students who have taken CMOS VLSI design course work in their universities or Begineers in CMOS VLSI Design particularly those who wants to start job or research in VLSI or Project enthusiastics who wish to learn circuit simulation or VLSI Digital Design Laboratory Instructors It is particularly useful for Undergraduate or Post Graduate Engineering students who have taken CMOS VLSI design course work in their universities or Begineers in CMOS VLSI Design particularly those who wants to start job or research in VLSI or Project enthusiastics who wish to learn circuit simulation or VLSI Digital Design Laboratory Instructors.

Enroll now: CMOS Digital VLSI Design Lab

Summary

Title: CMOS Digital VLSI Design Lab

Price: $24.99

Average Rating: 3.95

Number of Lectures: 37

Number of Quizzes: 8

Number of Published Lectures: 37

Number of Published Quizzes: 8

Number of Curriculum Items: 53

Number of Published Curriculum Objects: 53

Original Price: ?1,199

Quality Status: approved

Status: Live

What You Will Learn

Fundamentals of MOSFET Characteristics

Use of LTSpice for simulation

CMOS Inverter Characteristics

Static CMOS Combinational Logic Design

Concepts and Simulation of Pass Transistor Logic

Concepts and Simulation of Transmission Gate

Ratioed Logic Implementation

Dynamic CMOS Circuit Design

Implementation of Sequential Logic Element

6T-SRAM Cell Simulation

Who Should Attend

Undergraduate or Post Graduate Engineering students who have taken CMOS VLSI design course work in their universities

Begineers in CMOS VLSI Design particularly those who wants to start job or research in VLSI

Project enthusiastics who wish to learn circuit simulation

VLSI Digital Design Laboratory Instructors

Target Audiences

Undergraduate or Post Graduate Engineering students who have taken CMOS VLSI design course work in their universities

Begineers in CMOS VLSI Design particularly those who wants to start job or research in VLSI

Project enthusiastics who wish to learn circuit simulation

VLSI Digital Design Laboratory Instructors

This course is primarily designed for students who wants to learn fundamentals of MOSFET based digital circuit design through hands of experience. Course is designed in such a manner that learner demonstrate high level of learning from searching the literature from good resources like IEEE to analysis and design of circuits. Within the short duration of time, learner will learn to design building blocks of CMOS digital VLSI circuits and discuss tradeoffs in these circuits.  Focus is on problem solving skills through self learning. This course is taught using various simulation examples. Tool used for simulations is LTspice which students can download from Analog Devices website.

Every chapter is supported with quiz and assignment to track your progress. This course is recommended for the student who wants to join semiconductor industry or pursue higher studies in VLSI domain.

Course Curriculum

Chapter 1: MOSFET Characterisitcs

Lecture 1: Welcome to course: Introduction

Lecture 2: MOSFET Physics

Lecture 3: Simulation Tools and SPICE Modeling

Lecture 4: NMOS and PMOS Characterisitcs

Lecture 5: Simulation of NMOS and PMOS Characterisitcs using LTSPICE

Lecture 6: Conclusion

Chapter 2: CMOS Inverter

Lecture 1: Types of Inverter

Lecture 2: Resistive Load Inverter

Lecture 3: CMOS Inverter

Lecture 4: Simulation of Inverters using LTSpice

Lecture 5: Conclusion

Chapter 3: Static CMOS Combinational Logic

Lecture 1: CMOS NOR and CMOS NAND

Lecture 2: Simulation of CMOS NOR and CMOS NAND using LTspice

Lecture 3: Conclusion

Chapter 4: CMOS Logic Styles: Static, Pass and Transmission Gate

Lecture 1: Boolean Equation using Static CMOS

Lecture 2: Boolean Equation using Pass Transistor Logic

Lecture 3: Boolean Equation using Transmission Gate

Lecture 4: Simulation of Boolean Equation using LTspice

Lecture 5: Conclusion

Chapter 5: Ratioed Logic

Lecture 1: Pseudo NMOS Inverter

Lecture 2: Simulation of Pseudo NMOS Inverter

Lecture 3: Conclusion

Chapter 6: CMOS Logic Styles: Pseudo, Domino and C2MOS

Lecture 1: Voltage Bootstrapping

Lecture 2: Boolean Equation using Pseudo NMOS Logic

Lecture 3: Dynamic CMOS Logic, Cascading Issue and Domino Logic

Lecture 4: Charge Sharing

Lecture 5: Boolean Equation using C2MOS Logic

Lecture 6: Conclusion

Chapter 7: Clocked JK and D Flip-Flop

Lecture 1: CLocked JK Flip Flop

Lecture 2: D Flip-Flop and Simulation using LTspice

Lecture 3: Conclusion

Chapter 8: SRAM Cell

Lecture 1: Types of Memories and Typical Architecture

Lecture 2: 6T-SRAM Cell

Lecture 3: Simulation of 6T-SRAM Cell Using LTspice

Lecture 4: Conclusion

Chapter 9: Summary and Future Topics

Lecture 1: Learnings from this course and future direction

Lecture 2: Course Improvement Survey

Instructors

Surendra Rathod
Professor

Rating Distribution

1 stars: 0 votes

2 stars: 1 votes

3 stars: 3 votes

4 stars: 3 votes

5 stars: 8 votes

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