Design a combinational circuit that subtract two binary numbers as A-B, where
A= 1011111, B= 1100100
Design a combinational circuit that subtract two binary numbers as A-B, where A= 1011111, B= 1100100
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
Please design and implement a combinational circuit called 4-bit adder to add two 4-bit binary numbers, e.g. 1011 + 1110 = 1 1 0 0 1, the 5-bit result is 1 1 0 0 1 in which the leftmost bit is carry-out bit and sum result is 1 0 0 1, so that final sum is 1 1 0 0 1 which is 25 in decimal. (b) Design and Implement the four-bit adder circuit preferably using CEDAR logic simulator...
Combinational logic: a) Design a circuit to compare two numbers each is 1-bit: A, B. With 3 outputs X for A-B ,Y for A<B, Z for A B b) Use the previous output (or only one of them) as selection lines for a multiplexer to give the larger number to the output of the multiplexer.
Design a combinational circuit that compares two 4-bit unsigned numbers A and B to see whether A is greater than B. The circuit has one output X, so that X = 0 if A ≤ B and X = 1 if A > B.
Design a combinational circuit that compares two 4-bit unsigned numbers A and B to see whether B is greater than 2A. The circuit has one output X, so that:X = 1 if 2A < B, andX = 0 if 2A >= B.Please de descriptive and detailed in drawing.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 4.
Design a combinational circuit which compares two 4-bit unsigned numbers A and B. The circuit should have one output X such that X = 1 whenever A>B and X = 0 whenever A?B. You may use any MSI modules as well as any other gates.
3. Design a combinational circuit that compares two 4 bit numbers (A and B) and has three outputs 'Z" and "M and 'O'.(20 points) a) The circuit output Z" is equal to 1 if the two numbers are equal and 0 otherwise (5 b) The circuit output M-1 ifA>B and 0 otherwise. A and B are considered unsigned e) The circuit output 'O'-1 ifA>B and 0 otherwise. A and B are considered signed points) numbers. (7.3 points) numbers. (7.5 points)
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.
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 with three inputs, x, y, z, and three outputs, A, B, 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.