Over the past several years, Silicon CMOS innovation has turned into the predominant creation prepare for generally superior and savvy VLSI circuits. The progressive way of these advancements is comprehended by the quick development in which the number of transistors coordinated on circuits on a single chip. In this instructional exercise, we are giving an idea of MOS coordinated circuits and coding of VHDL and Verilog dialect. Prior to the presentation of VLSI innovation, most ICs had a constrained arrangement of capacities they could perform. An electronic circuit may comprise a CPU, ROM, RAM, and another paste rationale. VLSI gives IC fashioners a chance to include these into one chip.


Very-large-scale integration (VLSI) is the way toward making a coordinated circuit (IC) by joining a large number of transistors into a solitary chip. VLSI started in the 1970s when complex semiconductor and correspondence advances were being created. The chip is a VLSI gadget. The gadgets business has accomplished a remarkable development in the course of the most recent couple of decades, principally because of the quick advances in vast scale mix advances and framework plan applications. With the appearance of expansive scale incorporation (VLSI) plans, the quantity of uses of coordinated circuits (ICs) in superior registering, controls, media communications, picture, and video handling, and shopper gadgets has been ascending at a quick pace. Vlsi Training Institute in Chennai The present bleeding edge advances, for example, high determination and low piece rate video and cell interchanges give the end-clients a grand measure of utilizations, preparing force and transportability. This pattern is relied upon to develop quickly, with vital ramifications on the VLSI plan and frameworks outline.


Our Curriculum

Section 1:ASIC / FPGA DESIGN   
Advanced Design
Section 2:Digital Design & Processor Design   
Binary arithmetic, Boolean algebra, Logic Gates, Combinational circuits, sequential circuits
Advanced digital design, processor design, Data path & control unit design
State machine Design
Section 3:CMOS   
MOS Fundamentals and Characterization, NMOS/PMOS/CMOS Technologies
Fabrication Principles, Different Styles of Fabrication for NMOS/PMOS/CMOS
Design with CMOS Gates, Characterization of CMOS Circuits
Section 4:Parasitic Extraction and Calculations   
Subsystem Design, Layout Representation for CMOS Circuits, Design Exercise using CMOS
Introduction of IC Design, Different Methodologies for IC Design
Fabrication Flows and Fundamentals
Section 5:VHDL Overview and Concepts   
Levels of Abstraction, Entity, Architecture
Data Types and declaration, Enumerated Data Types
Relational, Logical, Arithmetic Operators
Section 6:VERILOG   
Language introduction, Levels of abstraction, Module, Ports types, and declarations
Registers and nets, Arrays, Identifiers, Parameters, Relational, Arithmetic, Logical, Bit-wise shift Operators
Writing expressions, Behavioral Modeling, Procedural Statements
Section 7:Sequential Statement   
Process Statement, Concurrent Statements, When-else, With-select
If-then-else, Case, Slicing and Concatenation, Loop Statements
Arrays, Memory Modeling, FSM, Writing Procedures, Behavioral / RTL Coding
Section 8:System Verilog   
System Verilog Declaration spaces, System Verilog Literal Values, and Built-in Data Types
System Verilog User-Defined and Enumerated Types, System Verilog Arrays, Structures, and Unions
System Verilog Procedural Blocks, Tasks, and Function, System Verilog Procedural Statements
Section 9:FPGA Flow   
Re-configurable Devices, FPGA’s/CPLD’s, Architectures of XILINX, ALTERA Devices, SDF Format
Designing with FPGAs, FPGA’s and its Design Flows, Architecture based coding, DSP on FPGA
Back annotation, gate level simulation, Hands on experience with industry Standard Tools