Karnaugh maps are helpful for up to 4 bits. This is the reason nowadays digital circuits industry uses hardware description languages to design their systems, such as vhdl and verilog
Hello Sir, thanks very much for the video. I am, however, getting different results in the 6 Variable K-Map with your method, in comparison with the method of drawing 4 different Maps. Please kindly assist.
can u tell me what's your principle filling up the 1 , i mean where do u fill 1 a and where do fill it 0 because it's impossible in the truth table by AND A,b,c,d,e,f, all must be high in order the output be high
those are probably examples, because he has no real example of a circuit. If you have any circuit you should firstly try to fill out a truth table for better comprehension. If you have succesfully filled it out you can take the values of the table and insert them "graycode"-wise in the Karnaugh-diagram. Then choose wheather you have more 0's or 1's which one you want to combine together. If you have chosen one of them then go for the Disjunctive normal form (DNF) or the Conjunctive normal form (CNF). Then pass on as explained in the video. After you finished your "extraction" you will now have a short form of a logic expression. Sometimes you can use De Morgan or other rules to shorten the expressions even more :D
Yeah, this is what I need! Short and to the point, thank you very much.
Thank you! you are more methodical and helpful than my professor. I kind of get Karnaugh maps now. Hopefully enough to get through the FE exam.
Thank you so much for taking the time to explain this concept!
Thank you finally, got the logic behind the 4 variable map.Going to ace the test :D
Karnaugh maps are helpful for up to 4 bits. This is the reason nowadays digital circuits industry uses hardware description languages to design their systems, such as vhdl and verilog
Sir, you are a genius!
Hopefully I can rely on you to understand this subject instead of my instructor!
Dude your amazing at explaining!!
Do N variable(N is extremely large) Karnaugh maps ever show up in practical applications?
If so then what is the approach to analysis?
Andy Stix? Is that you?
Hello Sir, thanks very much for the video. I am, however, getting different results in the 6 Variable K-Map with your method, in comparison with the method of drawing 4 different Maps.
Please kindly assist.
2:34 I thought that Gray Code was just another name for Reflective Code ?
Nothing to say about you and your explanation.. Cool :)
At 13:44 how is c bar alone common and the column represents "CD" ? Where u have not b and not c, asking cause I'm not sure
are u still want the answer ?
Amazing way for grey code generation !
thank you so much even the rubber sound kills me
Nice way of writing.
can u tell me what's your principle filling up the 1 , i mean where do u fill 1 a and where do fill it 0 because it's impossible in the truth table by AND A,b,c,d,e,f, all must be high in order the output be high
those are probably examples, because he has no real example of a circuit. If you have any circuit you should firstly try to fill out a truth table for better comprehension. If you have succesfully filled it out you can take the values of the table and insert them "graycode"-wise in the Karnaugh-diagram. Then choose wheather you have more 0's or 1's which one you want to combine together. If you have chosen one of them then go for the Disjunctive normal form (DNF) or the Conjunctive normal form (CNF). Then pass on as explained in the video. After you finished your "extraction" you will now have a short form of a logic expression. Sometimes you can use De Morgan or other rules to shorten the expressions even more :D
thank you :)
You are awesome!
Awesome! :)
great job .. thank you
Great Video! I am curious if you are trying to go for an Isaac Asimov look.
Perhaps inspired by him but I don't have the guts to grow it out as big as him.
gray code amazing !!!
ahaha ..informative and yet so entertaining
gracias chupete suazo
He looks like Tobey Maguire from spiderman XD