I love this video. I'm not a circuit designer but wanted a basic understanding of how non-cascading adders work, and that's exactly what I got. Thank you!
Really really thank you for this great and in-depth video. I didnt understand it in my lecture that was held in German, but here it seemed way clearer. I also love your energy, that you bring to the lesson. Thank you again Sir, you are a great teacher!
Thk you oh so much. I'm interested in adding a pair of irrational numbers exactly. A pair of irrational numbers can not be traditionally added from their right-to-leftward placeholder digits because there are infinite placeholder digits to the right of the decimal point of each irrational number. But they might be added from left-to-rightward placeholder digits. However still there's the problem of a cumulative ripple carry-over add delay. As you pointed-out, the carry-over from one placeholder to another is a function of the pair of irrational numbers (aka carry-look-ahead). Thus carry-look-ahead addition would avoid that cumulative ripple leftward carry-over delay. Although carry-look-ahead addition would still take an infinite time to add a pair of irrational numbers, it would be infinitely better than an carry-over adder. I’m an optimistic person & would like to consider this progress towards my goal :)
Man, this professor is great. So peppy and explains it pretty well while keeping it entertaining.
you can't imagine how thankful am i right now
thanks so much sir .
Holy crap this makes so much more sense now. Thank you.
fantastic description of something everyone else makes extremely complicated, many thanks!
🙏
I love this video. I'm not a circuit designer but wanted a basic understanding of how non-cascading adders work, and that's exactly what I got. Thank you!
Jesus this is the best video in youtube period
What an absolutely fantastic video. The library of Congress needs to preserve this video
Really really thank you for this great and in-depth video. I didnt understand it in my lecture that was held in German, but here it seemed way clearer. I also love your energy, that you bring to the lesson. Thank you again Sir, you are a great teacher!
ZERO DISLIKE - THATS THE LEVEL OF TEACHING
His enthusiasm and energy
Finally makes sense, thank you so much!
This is great! I just found this channel and I love it.
Amazing, simple and very straight forward
beauifuly explained sir thank you I learned 2 or 4 times before finally understood here
Really really thank you save my digital logic, thank you!!
Anybody else noticing, that the p and g expressions at 5:30 are the same as min/max in the comparator elements in a sorting network?
Thank you so much for making this video!
Which textbook are you using? Thank you for this video, by the way!!
THANK YOU
Very nice video, thank you professor
Thk you oh so much. I'm interested in adding a pair of irrational numbers exactly. A pair of irrational numbers can not be traditionally added from their right-to-leftward placeholder digits because there are infinite placeholder digits to the right of the decimal point of each irrational number. But they might be added from left-to-rightward placeholder digits. However still there's the problem of a cumulative ripple carry-over add delay. As you pointed-out, the carry-over from one placeholder to another is a function of the pair of irrational numbers (aka carry-look-ahead). Thus carry-look-ahead addition would avoid that cumulative ripple leftward carry-over delay.
Although carry-look-ahead addition would still take an infinite time to add a pair of irrational numbers, it would be infinitely better than an carry-over adder. I’m an optimistic person & would like to consider this progress towards my goal :)
Thank you so so much. You are the best
Man.... you are so cool.....😎🤌🤌
can you please upload a video for Carry look ahead Subtractor?
Put the initial Cin as 1 ,then put B through not gate as the input for CLA
can you just make videos for an entire CSO class pls.
You sound like a mixture of Chris Evans and RDJ.
this lecture is great, but whatever
😇🙌
Parabolic past arch
hahah "wat the hell"
I. P distinguisher from alp varia
Tooth precC
Logf
#
Ohawh
Kraked@C
ChifFEeeeeeee
NOT SUMOR
Odds evend
Carrd
Hyper