Designing an 8X1 Multiplexer Using Given Minterms

How can you design an 8X1 Multiplexer considering the given minterms π (4,2,1,8,0,10,13,15)?

In order to design an 8X1 Multiplexer with the given minterms π (4,2,1,8,0,10,13,15), we need to map these minterms to the input lines of the MUX and set the select lines accordingly to retrieve the desired output. By connecting the minterms to the input lines and controlling the select lines, we can create an efficient 8X1 MUX that functions according to the given minterms.

Mapping Minterms to Input Lines:

1. Binary Representation of Minterms:
The minterms π (4,2,1,8,0,10,13,15) correspond to the binary values 0100, 0010, 0001, 1000, 0000, 1010, 1101, and 1111 respectively. These binary values represent the inputs of the MUX.

Designing the 8X1 Multiplexer:

Inputs: A, B, C, D
Select Lines: S2, S1, S0 (3 select lines for 8 possible combinations)
Output: Y Minterm to Select Line Mapping:
- S2S1S0: 000 - D0 = π(0,1)
- S2S1S0: 001 - D1 = π(2,3)
- S2S1S0: 010 - D2 = π(4,5)
- S2S1S0: 100 - D3 = π(8,10)
- S2S1S0: 110 - D4 = π(13,15)
By connecting the minterms to the corresponding input lines and setting the select lines as per the binary representation of the minterms, we can effectively design the 8X1 Multiplexer to retrieve the desired output based on the given minterms.
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