Applications of Full Adder
- Arithmetic Circuits: Full adders are used in arithmetic circuits to add two double fold numbers. We can say when different Full Adders are connected in a series, they can evaluate numerous-bit paired numbers.
- Data Handling: Full adders are used in information handling applications such as advanced signal manipulation, encoding of information, and mistake correction.
- Counters: Full adders are used in counters to perform addition or decrement the count by one.
- Multiplexers and Demultiplexers: Full adders are used in multiplexers and Demultiplexers to choose and course information.
- Addressing Memory: In Memory Addressing circuits, Full adders are operated to induce the site of a memory area.
- ALUs: Full adders are used as a basic part of Number juggling Rationale Units (ALUs) used in chip and computerized signal processors.
Implementation of Full Adder using NOR Gates
In Digital Logic Circuit, Full Adder is a Digital Logic Circuit that can add three inputs and give two outputs. The three inputs A, B, and input carry as Cin. Cout is represented as output carry and Sum is represented as output. We can say Cout is called the majority 1’s detector, when more than one input is high (logic 1) then its output will be high.
In Digital Logic Circuits, Full Adders are implemented using digital logic gates such as OR gate, AND gate, NOT gate, NAND gates, NOR gates, etc. In this article, we will explore Full Adders, and NOR Gates and execute the Implementation of Full Adders using NOR Gates.
Table of Content
- Full Adder
- Block Diagram of Full Adder
- Applications of Full Adder
- NOR Gate
- Applications of NOR Gate
- Implementation