He's really right handed, they just mirror the video so we can read the screen. Great technique! Like when you teach guitar, you just turn the camera upside down, then a lefty just needs a mirror as usual, lol.
why is the quotient of 6 bits only? i mean, if the register is of 32 bits then shouldn't the bits be like 0000....001110. How do we know when to stop shifting in the quotient?
That is an assumption before the arithmetic begins. There is also a counter that controls the number of cycles. For this problem it would be 6 which is equal to the number of bits. So, in other words, the computer has to know that it is looking at n bits (6 in this case) so stop after 6 cycles.
@@duality4y I am just saying that on an educational video it would be wise to avoid confusion while stepping out of the regular decimal calculations pattern by saying "one-zero-zero" instead of "hundred". The former is clear, the latter could be interpreted in two ways.
You are a lifesaver professor, intelligent people always make complex things easy, you are in my prayers fs
You really made this much more easier to understand compared to the complicated ppt made by professor, which overwhelmed me for days.
Thanks very much. This video helped us a lot. we searched hours on the internet looking for this explanation. Keep up the good work !!
Thanks for your videos, you are really helping out a lot. Keep up the great work!
Kudos to you for being able to do binary math backwards
LOLOL!
Pretty sure he just flips the video lol
He writes backwards? Or the camera is flipped?
I like the explanations! Thank you sir
6:00 you are welcome.
Sorry it is too funny. Thanks for these videos, you really helped me in my embedded systems course.
So well explained...Super Big Thumbs Up
Great explanation!!!
He's really right handed, they just mirror the video so we can read the screen. Great technique! Like when you teach guitar, you just turn the camera upside down, then a lefty just needs a mirror as usual, lol.
finally non-hindi explanation!
why is the quotient of 6 bits only? i mean, if the register is of 32 bits then shouldn't the bits be like 0000....001110. How do we know when to stop shifting in the quotient?
That is an assumption before the arithmetic begins. There is also a counter that controls the number of cycles. For this problem it would be 6 which is equal to the number of bits. So, in other words, the computer has to know that it is looking at n bits (6 in this case) so stop after 6 cycles.
very clear thank
Thanks!
excellent explanation thank you
I boldly borrow your hardware for my fpga
gen z 🌸 🌸
Well.. hearing things like "ten", "eleven", "hundred" while following binary calculations seems a bit odd, especially from an educational video
he never said the number was in binary ? even then, same rules apply
@@duality4y I am just saying that on an educational video it would be wise to avoid confusion while stepping out of the regular decimal calculations pattern by saying "one-zero-zero" instead of "hundred". The former is clear, the latter could be interpreted in two ways.
@@markgurevich5351 Got a point there.
I disagree
yo, how did homeboy get such a red nose?
wear a darker shirt. it will be easier to see the writing on glass in the video