Digital Systems and Logic Design with verilog codes

Logic Design,Gates,Decoder,Encoder,MUX,DEMUX, Combinational Circuit design

This course provides a modern introduction to logic design and the basic building blocks used in digital systems, in particular digital computers. It starts with a discussion of combinational logic: logic gates, minimization techniques, arithmetic circuits, and modern logic devices such as field programmable logic gates.In this course students will learn about basic definition of digital system, minimization and simplification of the function and different combination logic circuits.

What you’ll learn

  • At the end of this course Students will able to learn following concepts:.
  • Digital Systems And Boolean Algebra.
  • Logic Gates (OR,AND,NOT,NAND,NOR,XOR,X NOR).
  • k-map, Gate level Minimization and simplification,.
  • Design of Combinational logic design.
  • Half Adder, Full Adder, Full subtractor, Decoder, Encoder, Mux.
  • Verilog HDL codes (adder, subtractor,decoder,encoder,Mux).

Course Content

  • Start Here –> 1 lecture • 2min.
  • Boolean Algebra And Logic Gate –> 6 lectures • 55min.
  • K-MAP , SIMPLIFICATION AND MINIMIZATION OF BOOLEAN FUNCTIONS –> 3 lectures • 35min.
  • Combinational logic –> 8 lectures • 52min.
  • Verilog HDL –> 6 lectures • 6min.
  • Last Lecture –> 1 lecture • 1min.

Digital Systems and Logic Design with verilog codes

Requirements

This course provides a modern introduction to logic design and the basic building blocks used in digital systems, in particular digital computers. It starts with a discussion of combinational logic: logic gates, minimization techniques, arithmetic circuits, and modern logic devices such as field programmable logic gates.In this course students will learn about basic definition of digital system, minimization and simplification of the function and different combination logic circuits.

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