3. WHAT IS LOGIC GATES?
A logic gate is a device that is a building block for digital circuits. They
perform basic logical functions that are fundamental to digital circuits.
Most electronic devices we use today will have some form of logic
gates. For example, logic gates can be used in smartphones, tablets,
or memory devices.
4. •Logic gates are the basic building blocks of
digital circuits. Theyperform Boolean
operations on input signals to produce an
output. These operations include AND, OR,and
NOT.
5.
6. A VIDEO TO EXPLAIN:
https://www.youtube.com/watch?v=WII9HWnf3V4
7. BUILDING BLOCKS OF DIGITAL SYSTEMS:
LOGIC GATES:
•Logic gates are fundamental electronic components that perform logical
operations on binary inputs (0s and 1s) to produce a binary output.
BINARY LOGIC:
•Operates on A binary system, where information is represented using two
states: 0 (false, low) and 1 (true, high).
8. THE HEART OF ELECTRONIC SYSTEMS:
DIGITAL CIRCUITS:
• Digital circuits are arrangements of logic gates that manipulate binary information to
perform specific tasks.
VERSATILITY OF LOGIC GATES:
• Logic gates can be combined in various configurations to create digital circuits.
ROLE IN ELECTRONICS:
• Provide the basis for creating electronic device processors, memory units, controllers, and
other essential components.
9. THE LANGUAGE OF COMPUTERS:
BINARY REPRESENTATION:
• Computers and digital systems communicate and process information
using binary code (0s and 1s).
BINARY AS A UNIVERSAL LANGUAGE:
• Logic gates allow us to manipulate and process binary data, making it A
universal language for digital communication.
11. MAKING DECISIONS IN DIGITAL CIRCUITS:
Logical Decision-Making:
•Logic gates enable us to make decisions based on the logical conditions
of input signals.
Logical Operations:
•AND, OR, NOT, and other logic gate operations allow for complex
decision trees and computations within digital systems.
12. WHERE LOGIC GATES SHINE:
COMPUTERS AND PROCESSORS:
• Inside every computer, logic gates are crucial for processing and executing
instructions.
MEMORY UNITS:
• Logic gates play A role in storing and retrieving information in digital memory units.
DIGITAL DEVICES:
• From smartphones to smart appliances, logic gates are present in various
electronic devices.
13.
14. BINARY REPRESENTATION (0s AND 1s):
THE LANGUAGE OF DIGITAL COMMUNICATION
BINARY DIGITS (BITS):
• Computers use binary digits (bits) to represent information.
• Bits can be either 0 (off) or 1 (on), forming the binary code.
BINARY REPRESENTATION EXAMPLE:
• Illustrate how numbers, characters, and data are represented using combinations
of 0s and 1s.
15. FROM 0S AND 1S TO DIGITAL
COMMUNICATION:
BINARY IN ACTION:
• Showcase simple examples of binary
representation and how it translates into
meaningful information in digital systems.
BINARY COUNTING:
• Illustrate how binary counting works,
emphasizing its simplicity and efficiency in
electronic systems.
16. APPLICATION IN LOGIC GATES - LINKING
BINARY TO LOGIC OPERATIONS:
LOGIC GATES AND BINARY OPERATIONS:
• Highlight how logic gates manipulate binary information to perform logical
operations.
BINARY DECISION-MAKING:
• Demonstrate how logic gates contribute to decision-making processes based on
binary inputs.
18. Recap of Logic Gates:
Logic gates are electronic circuits with several inputs and one
output. There are three basic logic gates, namely AND gate, OR gate,
and NOT gate
• Other logic gates that are derived from these basic gates are the
NAND gate, NOR gate, EXCLUSIVE-OR gate, and EXCLUSIVE-
NOR gate.
19. What are the different uses of Logic Gates?
1.In the digital world, logic gates are the backbone of decision-making operations and task
coordination.
2.It is an electronic description of logical reasoning and a Boolean algebra mathematical
application.
3.The organization of logic into gates and other logic blocks facilitates information
interchange and design description. It is a common notation that may be understood by
anyone who is familiar with the art. It makes it possible to assemble and transfer groups of
gates and bigger blocks of logic consistently.
4.It enables the evaluation and testing of designs for accuracy.
20. Why do we need Logic Gates?
We need Logic Gate because we send information through
computers using wires that represent 1s and 0s. Computers
need a way to manipulate those 1s and 0s so that they can
eventually do more complicated operations like calculating
the 50th digit. Computers use logic gates to transform the 1s
and 0s from input wires.