Arithmetic Circuits
Arithmetic Circuits: Overview
This topic covers concepts, such as Multiplexers in Digital Logic, Demultiplexer in Digital Logic, Half Adder, Adders in Digital Logic, Full Adder, Decoders in Digital Logic, Encoders in Digital Logic, and Arithmetic Circuits.
Important Questions on Arithmetic Circuits
Which is not the type of Multiplexer in digital logic?
Which is not the type of De-Multiplexer in digital logic?
What does a demultiplexer do?
What does a multiplexer do?
A multiplexer has ___ number of inputs?
Which of the following are building blocks of encoders?
. How is an encoder different from a decoder?
A decoder converts n inputs to __________ outputs.
If A, B and C are the inputs of a full adder then the carry is given by __________
If A, B and C are the inputs of a full adder then the sum is given by __________
The logic network shown below is
The difference between half adder and full adder is __________
Total number of inputs in a half adder is __________
A demultiplexer is a _____-_ circuit that has only 1 input line and 2^N output lines.
choose the types of multiplexers in digital logic.
Device which convert an input device state into a binary representation of ones or zeros is termed as __
Decoder circuit can be implemented with __
To implement full adder total number of NAND/NOR Gates required are ___.
If A, B and C are the inputs of a full adder then the sum is given by --
Half-adders have a major limitation in that they cannot __
