
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 |
|
|
|
SSLABS adds unique scheduling flexibility you will not find at most Software Training Institutes
Tab Content