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VLSI Circuits

VLSI Circuits. Instructor: Prof. S. Ramachandran and Prof. S. Srinivasan, Department of Electrical Engineering, IIT Madras. This course deals with topics in digital VLSI system design: introduction to VLSI design; combinational circuit design; programmable logic devices; programmable array logic; sequential circuits; design of sequential circuits; verilog modeling of combinational circuits; RTL coding guidelines; system design using ASM chart; microprogrammed design; design flow of VLSI circuits; simulation of combinational circuits; PCI arbiter design using ASM chart; design of memories; design of arithmetic circuit; system design examples using FPGA board. (from nptel.ac.in)

Lecture 47 - System Design Examples (cont.)

Go to the Course Home or watch other lectures:

Lecture 01 - Introduction to VLSI Design

Lecture 02 - Combinational Circuit Design

Lecture 03 - Programmable Logic Devices

Lecture 04 - Programmable Array Logic

Lecture 05 - Review of Flip-Flops

Lecture 06 - Sequential Circuits

Lecture 07 - Sequential Circuit Design

Lecture 08 - MSI Implementation of Sequential Circuits

Lecture 09 - Design of Sequential Circuits using One Hot Controller

Lecture 10 - Verilog Modeling of Combinational Circuits

Lecture 11 - Modeling of Verilog Sequential Circuits - Core Statements

Lecture 12 - Modeling of Verilog Sequential Circuits - Core Statements (cont.)

Lecture 13 - RTL Coding Guidelines

Lecture 14 - Coding Organization - Complete Realization

Lecture 15 - Coding Organization - Complete Realization (cont.)

Lecture 16 - Writing a Test Bench

Lecture 17 - System Design using ASM Chart

Lecture 18 - Examples of System Design using ASM Chart

Lecture 19 - Examples of System Design using Sequential Circuits

Lecture 20 - Examples of System Design using Sequential Circuits (cont.)

Lecture 21 - Microprogrammed Design

Lecture 22 - Microprogrammed Design (cont.)

Lecture 23 - Design Flow of VLSI Circuits

Lecture 24 - Simulation of Combinational Circuits

Lecture 25 - Simulation of Combinational and Sequential Circuits

Lecture 26 - Analysis of Waveforms using ModelSim

Lecture 27 - Analysis of Waveforms using Modelsim (cont.)

Lecture 28 - ModelSim Simulation Tool

Lecture 29 - Synthesis Tool

Lecture 30 - Synthesis Tool (cont.)

Lecture 31 - Synplify Tool - Schematic Circuit Diagram View

Lecture 32 - Technology View using Synplify Tool

Lecture 33 - Synopsis Full and Parallel Cases

Lecture 34 - Xilinx Place and Route Tool

Lecture 35 - Xilinx Place and Route Tool (cont.)

Lecture 36 - PCI Arbiter Design using ASM Chart

Lecture 37 - Design of Memories - ROM

Lecture 38 - Design of Memories - RAM

Lecture 39 - Design of External RAM

Lecture 40 - Design of Arithmetic Circuit

Lecture 41 - Design of Arithmetic Circuit (cont.)

Lecture 42 - Design of Arithmetic Circuit (cont.)

Lecture 43 - System Design Examples

Lecture 44 - System Design Examples (cont.)

Lecture 45 - System Design Examples (cont.)

Lecture 46 - System Design Examples (cont.)

Lecture 47 - System Design Examples (cont.)

Lecture 48 - System Design Examples using FPGA Board

Lecture 49 - System Design Examples using FPGA Board (cont.)

Lecture 50 - Advanced Features of Xilinx Project Navigator

Lecture 51 - System Design Examples using FPGA Board: Real Time Clock Design

Lecture 52 - System Design Examples using FPGA Board: Real Time Clock Design (cont.)

Lecture 53 - System Design Examples using FPGA Board: Real Time Clock Design (cont.)

Lecture 54 - System Design Examples using FPGA Board: Real Time Clock Design (cont.)

Lecture 55 - Project Design Suggested for FPGA/ASIC Implementations