6. For the showa device, determine the output for the inputs 0110 , \[ \$ 1=1, S 0=1 \text {, and Enable }=0 . \] A. 1 . B. 0. C. Hj-Z. D. Don't Care. 7. Implement the Half-Adder circuit (S and C) with a decoder (use a block diagram for the Decoder) and the minimum number of gates. 8. Design a combinational circuit with three inputs and the output is 1 when the binary value of the inputs is greater than 4 . The output is 0 otherwise In yowr design, you have to do the three steps of the design procedures as follows: - Derive the truth table - Reduce the circuit using K-map - Draw the resultant logic circuit.
6. For the showa device, determine the output for the inputs 0110 , \[ \$ 1=1, S 0=1 \text {, and Enable }=0 . \] A. 1 . B. 0. C. Hj-Z. D. Don't Care. 7. Implement the Half-Adder circuit (S and C) with a decoder (use a block diagram for the Decoder) and the minimum number of gates. 8. Design a combinational circuit with three inputs and the output is 1 when the binary value of the inputs is greater than 4 . The output is 0 otherwise In yowr design, you have to do the three steps of the design procedures as follows: - Derive the truth table - Reduce the circuit using K-map - Draw the resultant logic circuit. 9. Use the dawa 8-to-1 multiplexer w implewest the functionfrepersented by the following truth wable.
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