fardware & Architecture HW #7-100 Pts f= DCBA DEBA + PC BA + DC BA+ 2. (10 Pts) Derive an Un-simplified SOP Boolean expression for the Binary output DC BA+ + DCBA DCBA 3. (10 Pts) Simplify the SOP Boolean expression for the Binary output using a Karnaugh Map CP 9/0/0/01 0 1 L 10 SOP CD+ BBFABC Grouping COD=1 BD=W ABC=W 4. (20 Pts) Draw the logic circuit for the simplified Boolean expression for the Binary output. A ABC BD CD F= CB+BD+ ABC 5. (20 Pts) Implement the design using a 4 to 16 Decoder and logic gates, combining the "Yes" combinations into a single output and the "Maybe" combinations into another output 6. (20 Pts) Implement the design using a 1 to 16 Multiplexer. Only the "Yes" output needs to be represented by this implementation. 0 ware & Architecture HW #7 - 100 Pts Four individuals own a small corporation. The distribution of the corporate shares are as follows: Mr. Digital owns 4 shares Mrs. Chip owns 3 shares Mr. Boole owns 2 shares In this assignment you will design a voting machine that will be used when the owners vote on corporate issues. Each of the owners has a switch that is closed to record a 'yes' vote and opened to record a 'no' vote. When one of the owners casts a 'yes' vote, the number of that owner's shares weights that vote. For - maybe a lighted LED? -- when the result example, when Mrs. Chip votes 'yes', her vote counts three times that of Ms. Adder. The output of the voting machine will be a visual indication -- 1 of any vote is a 'yes' by the majority of the shareholders. In case of a tie, or the issue does not get a majority vote, the indicator LED will not light. 1. (20 Pts) Complete the following Truth Table Binary Mr. Digital D (4 Shares) Mrs. Chip (3 Shares) Mr. Boole (2 Shares) C B Ms. Adder (1 Share) A Total "Yes" Vote Shares Output 1=Yes Output Yes/No/Maybe 0=No/Maybe Janu D 0 1 010 1 0200 no 0 2 O-no D 3 - -no 0 6 Ono 0 4 0-no 0 0 6 |< Yes! 1 0 य no 5 be 0 6 Kyes 1 0 7. *Yes * Yes 8 Yes O = A 1 = A 9 K-Yes 10 K-Yes

don't want the step i want the answers. Also this is not quiz but homework

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fardware & Architecture HW #7-100 Pts f= DCBA DEBA + PC BA + DC BA+ 2. (10 Pts) Derive an Un-simplified SOP Boolean expression for the Binary output DC BA+ + DCBA DCBA 3. (10 Pts) Simplify the SOP Boolean expression for the Binary output using a Karnaugh Map CP 9/0/0/01 0 1 L 10 SOP CD+ BBFABC Grouping COD=1 BD=W ABC=W 4. (20 Pts) Draw the logic circuit for the simplified Boolean expression for the Binary output. A ABC BD CD F= CB+BD+ ABC 5. (20 Pts) Implement the design using a 4 to 16 Decoder and logic gates, combining the "Yes" combinations into a single output and the "Maybe" combinations into another output 6. (20 Pts) Implement the design using a 1 to 16 Multiplexer. Only the "Yes" output needs to be represented by this implementation.

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0 ware & Architecture HW #7 - 100 Pts Four individuals own a small corporation. The distribution of the corporate shares are as follows: Mr. Digital owns 4 shares Mrs. Chip owns 3 shares Mr. Boole owns 2 shares In this assignment you will design a voting machine that will be used when the owners vote on corporate issues. Each of the owners has a switch that is closed to record a 'yes' vote and opened to record a 'no' vote. When one of the owners casts a 'yes' vote, the number of that owner's shares weights that vote. For - maybe a lighted LED? -- when the result example, when Mrs. Chip votes 'yes', her vote counts three times that of Ms. Adder. The output of the voting machine will be a visual indication -- 1 of any vote is a 'yes' by the majority of the shareholders. In case of a tie, or the issue does not get a majority vote, the indicator LED will not light. 1. (20 Pts) Complete the following Truth Table Binary Mr. Digital D (4 Shares) Mrs. Chip (3 Shares) Mr. Boole (2 Shares) C B Ms. Adder (1 Share) A Total "Yes" Vote Shares Output 1=Yes Output Yes/No/Maybe 0=No/Maybe Janu D 0 1 010 1 0200 no 0 2 O-no D 3 - -no 0 6 Ono 0 4 0-no 0 0 6 |< Yes! 1 0 य no 5 be 0 6 Kyes 1 0 7. *Yes * Yes 8 Yes O = A 1 = A 9 K-Yes 10 K-Yes