![7. (10 pts.) You have been tasked to design a combinational unsigned integer divider circuit with a two-bit dividend, Al1:0], a two-bit divisor, B[1:0], and a two-bit quotient, Ql1:0]: The circuit computes A[1:0]/B[1:0 Q[1:0] Divisor B[1:0] can never have a value of 00 i.e. division by 0 is not allowed. Quotient Ql1:0] is always rounded to the closest integer e.g. 01/10 01 (i) (2 pts) Draw the block diagram of the system annotating inputs and outputs clearly. (ii) 4 pts) Derive the truth table for the device. )4 pts) Carry out the K-map minimization for the output variables.](http://img.homeworklib.com/questions/fe9945c0-c4c5-11ea-bbfb-d73cd3277401.png?x-oss-process=image/resize,w_560)
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7. (10 pts.) You have been tasked to design a combinational unsigned integer divider circuit with...
Design a combinational circuit that adds 1 to 3-bit unsigned binary number and produces an unsigned...
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 which inputs a three-bit binary number, and outputs the input number PLUS...
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.
For this problem, you are to design a simple combinational logic circuit The circuit is a...
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...
8. For this problem, you are to design a simple combinational logic circuit and then use...
8. For this problem, you are to design a simple combinational logic circuit and then use Logisim to simulate and test the circuit. The circuit is a 2- bit priority encoder with inputs X2 and X1 and outputs Y1 and Yo. The circuit behaves as follows: oIf X2X1 00, then Y1Yo 00 (no active input) If X2X1 01, then Y1Yo = 01 (low-priority input, X1, is active) If X2X1 1-, then Y1Y0 10 (high-priority input, X2, is active) Note that...
Design a combinational circuit that compares two 4-bit unsigned numbers A and B to see whether...
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 which compares two 4-bit unsigned numbers A and B. The circuit should...
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.
Design a combinational circuit that compares two 4-bit unsigned numbers A and 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.
A full-adder is a combinational circuit (memory-less) that forms the arithmetic sum of two input bits...
A full-adder is a combinational circuit (memory-less) that forms the arithmetic sum of two input bits (say a and b) and a carry in (Cin, so three input bits total). The full-adder provides two outputs in the form of the (S)um and the carry out (Cout). The input bits a and b represent the terms to be added, but the full-adder needs to also consider the carry in bit, too. Construct a truth table for the Full-Adder Construct a K-Map...
3. Design a combinational circuit that compares two 4 bit numbers (A and B) and has...
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 sequential circuit that takes in a sequence x1, x2, . . . xn of...
Design a sequential circuit that takes in a sequence x1, x2, . . . xn of unsigned 8 bit integers as inputs, and outputs an unsigned 8 bit integer that counts how many groups of three adjacent inputs xi , xi+1, xi+2 are consecutive, increasing values (such as 1, 2, 3 or 137, 138, 139). Note that a sequence like 1, 2, 3, 4 has two such groups (1, 2, 3 and 2, 3, 4). The three values 254, 255,...
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.
8. For this problem, you are to design a simple combinational logic circuit and then use Logisim to simulate and test the circuit. The circuit is a 2- bit priority encoder with inputs X2 and X1 and outputs Y1 and Yo. The circuit behaves as follows: oIf X2X1 00, then Y1Yo 00 (no active input) If X2X1 01, then Y1Yo = 01 (low-priority input, X1, is active) If X2X1 1-, then Y1Y0 10 (high-priority input, X2, is active) Note that...
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)
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