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4.10 Design a four-bit combinational circuit 2's complementer. (The output generates the 2's comple- ment of...
Design a four-bit combinational circuit 2’s complementer. (The output generates the 2’s complement of the input binary number.) Show that the circuit can be constructed with exclusive-OR gates. Can you predict what the output functions are for a five-bit 2’s complementer? 1. Truth table 2. Logic circuit with exclusive-OR gates 3.The output functions for a five-bit 2’s complementer
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 four-bit combinational circuit 2'scomplementer. (The output generates the 2's complement of the input binary number.) Construct a 5-to-32-line decoder with enable by using 3-to-8 and 2-to-4-line decoders with enables For the decimal-to-BCD encoder given in the text (Slide 33 of chapter 5), assume by error that the 6 input and the 3 input are both HIGH. What is the output code? Is it a valid BCD code? Construct a 16 times 1 multiplexer with 4 times 1 multiplexers....
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 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.
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.
3- Design, Implement a combinational circuit that generates the equation: Y=b2+4 Assuming input b as 3-bit binary number denoted by (b = x, y, z )and the output ( y = yo, Yi, ....yn) Assignment (2) Repeat Assignment (2) using 3X8 line decoder in the implementation Process
Design a Combinational circuit that forms that form the 2-bit binary Sum S1S2 of two 2-bit numbers X1X0 and Y1Y0 and can produce a carry ouput C. Design the entire circuit with the help of three half adder circuits implementing each of the three outputs with XOR-AND and OR gates
Design a four-bit combinational circuit that generates the output as its 9’s complement. Can you make the implementation as a generic N-bit input and N-bit 9’s complement output? Implement this circuit in VHDL and test it on the Nexys4 board. Also provide the timing simulations using testbench
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