3) [9 marks] Using the combinational circuit design procedure
discussed in the notes, design with
a truth-table, simplify with K-maps, and draw the combinational
circuit that accepts a 3-bit
number and generates a 5-bit number output equal to 3X + 2 where X
is the input number (if the
input is 010 (2), the output should be (01000) 8 . Let the inputs
be A, B, C and the outputs be V,
W, X, Y, Z.
3) [9 marks] Using the combinational circuit design procedure discussed in the notes, design with a...
Design a combinational circuit that adds 1 to 3-bit unsigned binary number and produces an unsigned binary result. Do the following: (1) determine the number of inputs/outputs, (2) write the truth table, (3) simplify the output functions by using maps and (4) draw the logic diagram by using AND OR and NOT gates. Show the truth table, the map, and the logic diagram. Do NOT use adders.
Digital design question. Combinational logic & building blocks. 9.1 Voting circuit. Using combinational building blocks such as adders, comparators, mul- tiplexers, decoders, encoders, and arbiters, as well as logic gates, design a circuit that accepts five three-bit one-hot numbers and outputs the three-bit one-hot number that occurred most often on the inputs. Ties can be broken in any manner. For example, if the inputs are 100, 100, 100, 010, and 001, the output will be 100
Design a combinational circuit which inputs a three-bit binary number, and outputs the input number PLUS two if the input is less then or equal to 3, and outputs the minus two if the input is greater than 3. This should include the truth table for the operation, the karnaugh map(s), and the resulting circuit.
design a combinational circuit using suitable decoder that accepts 3 bit binary number generates an output binary number equal to square of input number.
Design a combinational circuit that accepts a 3-bit binary number input x and generates a 6-bit binary number output equal to the xth Fibonacci number F(x) = F(x-1) +F(x-2) where F(0) = 2 and F(1) = 3.The book we are using in class is this: http://www.cramster.com/logic-and-computer-design-fundamentals-4th-solutions-3631 and we are on chapter 3.
For this problem, you are to design a simple combinational logic circuit The circuit is a 2- bit priority encoder with inputs I2 and I1 and outputs Z1 and Z0. The circuit behaves as follows: • If I2I1 = 00, then Z1Z0 = 00 (no active input) • If I2I1 = 01, then Z1Z0 = 01 (low-priority input, X1, is active) • If I2I1 = 1-, then Z1Z0 = 10 (high-priority input, X2, is active) Note that...
Design a combinational circuit that accepts a 2-bit number and generates a 4-bit binary number output equal to the square of the input number. Use Decoder and any other external gates as necessary to implement your design. Draw the logic diagram and clearly label all input and output lines.
Design a combinational logic circuit which has one output Z and a 4-bit input ABCD representing a binary number. Z should be 1 iff the input is at least 5, but is no greater than 11. Use one OR gate (three inputs) and three AND gates (with no more than three inputs each). Using K-map, find min SOP and min POS form for the outputs W, X
1- Please answer all the question 2- with clear handwriting Thank you, 3. Design a combinational circuit with inputs a, b, c, d and outputs w, z, y, z, where the input and output both represent a signed numbers (2s complement). The output is 7 less than the input, if the input is positive, or zero. If the input is negative, the output is 3 greater than the input. 7. Use the Boolean functions developed in problem #3 to create...
Design a combinational circuit with three inputs, x , y, and z, and three outputs, A, B , and C . When the binary input is 0, 1, 2, or 3, the binary output is one greater than the input. When the binary input is 4, 5, 6, or 7, the binary output is two less than the input. 1) Truth table 2) Logic circuit 3) Boolean function of A using minterms ( use Boolean algebra) 4) Boolean function of...