Question 5.
Design an optimized circuit for the function output that compares 2-bit numbers (A and B) and detects A is greater than B. (Hint: Truth table, Boolean function, gate implementation)
Question 5. Design an optimized circuit for the function output that compares 2-bit numbers (A and...
Question 5. Design an optimized circuit for the function output that compares 2-bit numbers (A and B) and detects A is greater than B. (Hint: Truth table, Boolean function, gate implementation)
Design a circuit that compares the two-bit integers (x1x0)2 and (y1y0)2, returning an output of 1 when the first 2-bit number is larger and an output of 0 otherwise. a) (3 points) Construct the truth table. b) (4 points) Find the output Boolean function in the canonical sum-of-product format and the canonical product-of-sum format, respectively. c) (4 points) Using K-Map to find the simplified output Boolean function. d) (4 points) Construct the circuit for the obtained Boolean function in part...
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 circuit to add two 2-bit binary numbers and display the results of the addition as a 3-bit binary number, with the most significant bit be the carry out. To do this, you will use the four switches on your Breadboard Companion as your two 2-bit number inputs. Three of your LEDs will be used to represent the 3-bit output of your circuit. Complete a truth table for the expected output values on the lab data sheet attached. Use...
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 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.
You are to design a circuit that calculates the Hamming distance between two 5-bit numbers. It takes two 5-bit binary numbers A4 A3 A2 A1 A0 and B4 B3B 2B1 B0 as inputs and returns the number of bits that are different between the two numbers as the 3-bit binary output O2 O1 O0. For example: *If the two input numbers were 10111 and 00001 then the output would be 011 as there are 3 bits different between them. *If...
2) Construct a circuit that takes a 3-bit signed integer n as input and if 1 if and only if Use the combinational circuit design process a) Draw a black box for the circuit that specifies its inputs and output b) Formalize the informal semantics of this circuit with a truth table c) Construct the boolean formula corresponding to the truth table. d) Draw the circuit corresponding to the boolean formula 2) Construct a circuit that takes a 3-bit signed...
#5 Design a magnitude comparator that compares two 2-bit numbers, A and B. The system has three outputs that indicate whether A>B, A=B, or A <B. Draw your design with only XNOR, AND, and OR gates. 15