*_Check the other relevant videos related to this topic:_* *1) Full-Adder and Half-Adder:* ruclips.net/video/5XbRIVWFRIw/видео.htmlsi=cYWYGntTnn0LonvA *2) Shift Registers:* ruclips.net/video/bAQfPQqKCHs/видео.htmlsi=2tIx-R-S9s5DFaRU *3) What is Flip-Flop:* ruclips.net/video/LTtuYeSmJ2g/видео.htmlsi=vUWF17vfykQhO6PS *4) Ripple Carry Adder:* ruclips.net/video/b70ZQwci5sY/видео.htmlsi=ZCZv6YXKvz5faIfG *5) Carry Look Ahead (CLA) adder:* ruclips.net/video/SQKdnxysXnw/видео.htmlsi=USGpjqO9ZWE7UJ-y
Love this channel, i am currently working , but during my engineering days this and neso academy helped me out a lot, hatsoff for making detailed videos
Yes, we also need to check the carry bit after every addition. If carry is 1, it means that result of addition is more than the no of bits allotted to store that. And some sort of indication or flag needs to be raised. So if someone is designing a circuit one needs to see, what would be the maximum addition value is expected. Accordingly the designer should allocate the number of bits for addition. ( 16 bits, 32 bits, 64 bits etc.) And when carry is generated during addition, the flag need to be raised.
![Seungmin "그렇게, 천천히, 우리(As we are)" | [Stray Kids : SKZ-PLAYER]](http://i.ytimg.com/vi/kAzmhLHePqU/mqdefault.jpg)
*_Check the other relevant videos related to this topic:_*
*1) Full-Adder and Half-Adder:*
ruclips.net/video/5XbRIVWFRIw/видео.htmlsi=cYWYGntTnn0LonvA
*2) Shift Registers:*
ruclips.net/video/bAQfPQqKCHs/видео.htmlsi=2tIx-R-S9s5DFaRU
*3) What is Flip-Flop:*
ruclips.net/video/LTtuYeSmJ2g/видео.htmlsi=vUWF17vfykQhO6PS
*4) Ripple Carry Adder:*
ruclips.net/video/b70ZQwci5sY/видео.htmlsi=ZCZv6YXKvz5faIfG
*5) Carry Look Ahead (CLA) adder:*
ruclips.net/video/SQKdnxysXnw/видео.htmlsi=USGpjqO9ZWE7UJ-y
Love this channel, i am currently working , but during my engineering days this and neso academy helped me out a lot, hatsoff for making detailed videos
Excellent explanation
Amazing explanation! One question tho: What if the carry was equal to 1 at some point? How would it affect the result?
Yes, we also need to check the carry bit after every addition. If carry is 1, it means that result of addition is more than the no of bits allotted to store that. And some sort of indication or flag needs to be raised. So if someone is designing a circuit one needs to see, what would be the maximum addition value is expected. Accordingly the designer should allocate the number of bits for addition. ( 16 bits, 32 bits, 64 bits etc.) And when carry is generated during addition, the flag need to be raised.
The explanation is amazing just amazing ❤
👍 Very Nice. Continue 🎉
👍