PROBLEM NO.1 (odd numbers)Design a Gray code converter to drive a seven-segment indicator. The four inputs to the converter circuit (A, B, C,and D in Figure 1) represent a decimal digit coded using the Gray code. Assume that only input combinationsrepresenting the digits 0 through 9 can occur as inputs, so that the six unused combinations are don't-care terms.Design your circuit using only two-, three-, and four-input NAND gates and inverters. Try to minimize the numbersof gates and inverters required. The variables A, B, C, and D will be available from toggle switches.6 (not) for 6. Use 9 (not 9 ) for 9.Figure 1Any solution with 20 or fewer gates and inverters (not counting the four inverters for the inputs) is Design your circuit using only two-, three-, and four-input NAND gates and inverters. Try to minimize the numbersof gates and inverters required. The variables A, B, C, and D will be available from toggle switches.Use (not) for 6. Use (not) for 9.Figure 1Any solution with 20 or fewer gates and inverters (not counting the four inverters for the inputs) isacceptable.

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Computer Networking: A Top-Down Approach (7th Edition)

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