Consider the function given below, F = (X+Y)(X + XY)2 + X(Y + 2) + XY...
Consider the design of a CMOS compound OR-OR-AND-INVERT (OA122) gate computing F-A+ B)-(C + D). a) sketch a transistor-level schematic b) sketch a stick diagram c) estimate the area from the stick diagram d) layout your gate with a CAD tool using unit-sized transistors e) compare the lavout size to the estimated area 1.17
Given the function : F = x + ( (yz)’(x’ + y’+ z’) )’ A) Write the truth table of F. B) Draw the K-map for F. C) Using the K-map, write the fully simplified Sum-Of-Products expression for F. D) Write the fully simplified product-of-sums expression for F
Given the function F(x,y,z) = xyztx,y2+xyz (a) List the truth table for F (b) Draw the logic diagram using the original Boolean expression (c) Simplify the expression (using any method you know) (d) Draw the logic diagram for the simplified expression.
Find the complement of the following expressions b) (AB+C)0%E 2. Given the Boolean function F -xy + x'y' y'z 1. Implement it with AND, OR, and inverter 2. Implement it with OR and inverter gates, and 3. Implement it with AND and inverter gate 3. Express the following function in sum of minterms and product of maxterms: a) F(A,B,C,D) - B'DA'D BD b) F (AB+C)(B+C'D) 4.Express the complement of the following function in sum of minterms a) F (A,B,C,D)-2 (0,2,6,11,13,14)...
2- D (XYZ XYZ +XYZ a. Simplify F using Boolean algebra. b. Draw the logie diagram of the simplified F, using NOR only gates c. Use the most economical multiplexer to realize F d. Simplify (F+D)L using K-map in sum of products so MUX si -l d-
with details and explanations 3. Consider the logic function Z-((A + B).D). (C.(E+F)) (5 Marks) Realize the above Boolean function using CMOS transistors. a. btain a common Euler path for both nMOS and pMOS transistors and hence draw the optimized stick diagram layout. b. O (30 Marks) 3. Consider the logic function Z-((A + B).D). (C.(E+F)) (5 Marks) Realize the above Boolean function using CMOS transistors. a. btain a common Euler path for both nMOS and pMOS transistors and hence...
Given the function F(x,y) = y'+(x+y) : a) Make a truth table for F. [4 marks] b) Express F as a sum of products. [3 marks] c) Simplify F, either algebraically or by an explanation based upon the truth table. [3 marks]
Given the function f(x, y, z) = xy +xz write f (x, y, z) as a sum of min terms and a product of max terms.
Consider the logic function Zr((A+B). D. (CKE+F))) 3. Realize the sbove Boolean function using CMos transtors. b. Obtain a common Euler path for both DMOS and pMOS transistors and hence draw the optimized stick diagram layout. Consider the logic function Zr((A+B). D. (CKE+F))) 3. Realize the sbove Boolean function using CMos transtors. b. Obtain a common Euler path for both DMOS and pMOS transistors and hence draw the optimized stick diagram layout.
Q2) Given the Boolean function F = xyz + xyz + xyz (a) List the truth table. (b) Draw the logic diagram of the original function using 2-input gates. (c) Simplify the function using K-Map. (d) Draw the logic diagram of the simplified function (using 2-input gates). (e) Draw the logic diagram of the simplified function using only 2-input NAND gates.