Digital Logic Design

In order to cater to the diverse interests of students and employers affordable and employment-oriented course with the credibility of a 68-year-old department and a NAAC accredited & ISO certified autonomous institution. The present SMOOC is an 2-week completely open, online, course offered as part of Physics domain intended for undergraduate learners.

Beginner 0(0 Ratings) 16 Students enrolled English
Created by Department of Physics
Last updated Sun, 28-Jun-2026
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Course overview

Digital logic design is the foundation of modern digital devices and computer systems. It translates abstract concepts into physical hardware by processing binary data (0's and 1's) through circuits built with logic gates, enabling computers to process instructions, perform arithmetic, and store information. A Digital Logic Design course coves the foundational principles of computer hardware and digital electronics, Students learn how to represent data using binary systems, manipulate Boolean expressions, and build/analyze complex combinational and sequential circuits. 

What will i learn?

  • Course outcomes for Digital Logic Design generally focus on equipping students with the ability to analyze, design, and optimize foundational digital hardware circuits. These core competencies are categorized by technical mastery, circuit design, and applied engineering.
Requirements
  • Any PC or laptop or tab or android phone with good internet connectivity. Any enthusiastic learner with the basic knowledge and understanding in Physics and Electronics is eligible before pursing and enrolling to the course. Having Physics as one of the subjects at 10+2 level is desirable
Curriculum for this course
6 Lessons 01:27:41 Hours
Combinational Logic Circuits – 1
6 Lessons 01:27:41 Hours
  • Introduction To Combinational Circuits
    Preview 00:10:52
  • Design of Half Adder & Full Adder
    Preview 00:23:03
  • Design of Half Subtractor & Full Subtractor
    Preview 00:23:46
  • Study Material
    Preview .
  • Assignment - 1
    0:15:00
  • Assignment - 2
    0:15:00

Frequently asked question

What are universal gates?
NAND and NOR gates are known as universal gates because any basic Boolean function (AND, OR, NOT) can be implemented using only NAND or only NOR gates.
What is the difference between a half adder and a full adder?
A half adder adds two binary inputs to produce a Sum and Carry. A full adder adds three inputs (two bits and a carry-in) to handle cascading additions.
What are the common types of Combinational Circuits?
They can be broken down by their function:Arithmetic Circuits: Adders (Half Adder, Full Adder) and Subtractors (Half Subtractor, Full Subtractor).Data Routing/Selection: Multiplexers (MUX) and Demultiplexers (DEMUX).Code Translators: Encoders and Decoders.Comparators: Circuits that compare the magnitude of two binary numbers.
What is the difference between a Half Adder and a Full Adder?
Half Adder: Adds two single-bit binary inputs (A and B). It produces two outputs: Sum (S) and Carry (C).Full Adder: Adds three single-bit inputs: two main bits (A and B) and a Carry-in (Cin) from a previous stage. It yields a Sum (S) and a Carry-out (Cout).
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Department of Physics

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