S.NO

VLSI

Sessions

1

Introduction of VLSI

Ø  Comparison & impact of different technologies in electronics.

Ø  Real time Applications.

Ø  Career in VLSI Domain.

Ø  Project Selection.

Session 1

2

Course contents & projects working flow

Session  2

3

Digital Electronics Review

Ø  IC Design Methodologies.

Ø  Number Systems

Ø  Boolean Algebra and Algebraic Simplification

Ø  Karnaugh Maps

Ø  Combinational Ckts

Ø  Types of adders

1.   Ripple carry adder

2.  Carry look ahead adder

3.  Carry select adder

Ø  Error detection

1.   Even parity and odd parity

2.  Hamming codes

Ø  Hazards in Combinational Networks.

Ø  Tri-State Logic and Busses

Ø  Different types of multipliers

1.   Array multiplier

2.  Dada multiplier

Sessions

3

4

5

6

7

8

9

4

Ø  Sequential Ckts

Ø  Applications of clock in digital circuits

Ø  Setup and Hold Times

Ø  Finite State Machines (Moore, Mealy)

Ø  Analog Methodologies

Ø  Digital Methodologies

Ø  Examples & assignments

Ø  Memories & Types

Examples & assignments

10

11

12

13

5

VLSI Design Flow

Ø  FPGA & ASIC Design cycle

Session

14

6

HDL’s Introduction

Ø  Need & Types of HDL

Ø  Advantages with HDL’s

Session  15

7

Introduction to Verilog

Ø  Lexical Tokens

Ø  Gate Level Modeling

Ø  Data Types ,Operators and operands

Ø  Modules Declarations

Ø  Timing Controls

Ø  Examples

Ø  Test bench

Introduction to FPGA

Ø  Outline of FPGA

Ø  Creating a FPGA Project

FPGA schematic Connectivity & Components

Sessions

16

17

18

19

20

21

8

Review of Project

Ø  Base Paper Explanations

Sessions

22

9

Project Code Implementation

Output Waveform & verification

Explanation of Project Blocks for all Batches

Sessions

23,24,25

10

Outline of Different HDL Tools

Tool Lab session

Sessions

26

11

Into to Fabrication & processing Methodologies

Sessions

27