8.9 Use FA's to design a device which will calculate 5x +4y where x and y are 4-bit unsigned inpu...
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.
In this problem, you will design a 4-bit 2's complement sub tractor, implement it in Logic works, and test it. The 4-bit sub tractor works as follows: given two numbers X and Y in 2's complement binary representation on 4 bits, it outputs a 4-bit value representing X - Y in 2's complement. To obtain full marks, the following requirements must be met: You are only allowed to use basic gates, including NOT, AND, OR, NAND, NOR, XOR, XNOR. (You...
6. In this problem, you are to implement a 3-bit ALU which performs the following 4 operations on 3-bit operands A and B and generates the result F and the overflow status OV: (a) op(1:0) 00: A AND B (b) op(1:0)#: 01 : A OR B. (c)op(1:0),# 10: A +13. (d) 01, (1 : 0) t# 11 : A B, For arithmetic operations, assume that A and B are two's complement integers, e.g.. 0112 3, n and 1002 ten The...
Problem 3 - Arithmetie Logic Unit (ALU) Design us poins Design a 4-bit ALU that has two selection variables Si Design an optimized circuit (mus external gates for circuit B operates based on the function table given below. The arithmetic unit and So and generates the arithmetic operations given below. and generatest Use a 4-1 MUX block with Si So Cin = 1 F-A (complement) F = A+B (add) FB (transfer) F A+B F = A+ 1 (negate) F A+B+...
PROBLEM STATEMENT The mini-calculator will use a small ALU to perform arithmetic operations on two 4-bit values which are set using switches. The ALU operations described below are implemented with an Adder/Subtractor component. A pushbutton input allows the current arithmetic result to be saved. An upgraded mini-calculator allows the saved value to be used in place of B as one of the operands. The small ALU that you will design will use the 4-bit adder myadder4 to do several possible...
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.
Use Proteus to design a circuit for unsigned integers, which can implement the 4 bit binary combinational multiplier.
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
FIRST ACTIVITY: (100/100) . SIMPLE 4-BIT ARITHMETIC LOGIC UNIT (ALU): This circuit selects between arithmetic (absolute value, addition) and logical (XOR, AND) operations. Only one result (hexadecimal value) can be shown on the 7-segment display This is selected by the input sel (1..0) B A-BI A+B A xnor B A nand B Input EN: If EN-1result appears on the 7 segment display. If EN=0 → all LEDs in the 7 segment display are off Arithmetic operations: The 4-bit inputs A...
·20) |19) 118) 117) 116) 115) Question 1.(20 points, I point each. Put answers into the above table) 13)一114) 2)- ) S-bit signed binary data can represent the decimal values from 0 to 256 2) 10111 is the two's complement representation of b. False a. True a. -23 b.-9 c.-7 d. +22 e.+7 3) 01110 is the two's complement representation of a.-13 b.-15 c.-9 d.+14 e.+18 a.A. b, B, c.A+B d, B c, (AB). a. Trueb. False a. True a....