The term “combinational” comes to us from mathematics. In mathematics a combination is an unordered set, which is a formal way to say that nobody cares which order the items came in. Most games work this way, if you rolled dice one at a time and get a 2 followed by a 3 it is the same as if you had rolled a 3 followed by a 2. With combinational logic, the circuit produces the same output regardless of the order the inputs are changed. In general digital circuits are divided into two groups namely
1. Combinational Circuits.
2. Sequential Circuits.
Combinational logic is defined as that class of digital circuits where, at any given time, the state of all outputs depends only upon the values of the inputs at that time and not upon any previous states.
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1. Combinational Circuits.
2. Sequential Circuits.
Combinational logic is defined as that class of digital circuits where, at any given time, the state of all outputs depends only upon the values of the inputs at that time and not upon any previous states.
To download the full version follow the link below
click here