Thank you, thank you very much! In less than 15 mins you explained me what my professor wasn't able to teach us in a whole month. All the Computer Science students of University of Milan Bicocca thank you!
thanks man, you're amazing. I had been struggling with this topic for weeks and you made me understand all of this in just 14 minutes. You're a guru in this field!!!
Ug again it's not "ten" or "eleven" "ten" = 1010 in binary, "eleven" = 1011. These are rigorously defined entities independentof base or symbolic representation. For clarity referring to two as "one" "zero" and specify digits. I'm really trying to enjoy this series, but your mislabeling of numbers is making it hard. Edit: imagine you were explaining unary, would you call |||||||||| ten or would you call it one billion one hundred and eleven million one hundred and eleven thousand one hundred and eleven? Hope that helps. At the end of the day you can define "ten" however you want, but most would agree that defining it as "as the number which has the symbolic representation with the least significant symbols "10" and no symbols of higher significance besides "0" "is a pretty useless way to it A much better definition is just "the integer following nine" (I bet you can guess how we define nine) and treat the existence of one as an axiom. (There are more rigorous, set theory definitions from which the integers can be derived, but for are purposes here the above suffices, and each number can be represented in any other positive numbers base (you can also gave negative, transcendental, and imaginary bases but that's beyond the scope of this comment) For the mathematically astute among you, you may recognize a few requirements for a vector space or field. Cool concepts 😉
I like this a lot... and the fact he's writing backwards... human brain is fantastic
Padraic, you're a legend! These videos have been so helpful for me to actually understand what we are doing in my architecture class!
Thank you, thank you very much! In less than 15 mins you explained me what my professor wasn't able to teach us in a whole month. All the Computer Science students of University of Milan Bicocca thank you!
thanks man, you're amazing. I had been struggling with this topic for weeks and you made me understand all of this in just 14 minutes. You're a guru in this field!!!
Damn! This is by FAR the best video about this topic on UA-cam, by what i've seen so far! Thank you so much for your effort! :)
This video is really cool! especially the writing on the glass part
Thank you so much, these videos are extremely helpful! :)
so if your making a one bit adder do you still need a carryin
Thank you so much for making these videos!
great, thanks
Thank You
is 31 FA adders are enough ?
are we need one more HA ? y?
Remember that we start at 0. If you count with number 0, it's 32
Tq sir plz make more vedios how to build full adder in cmos by using 32transistors
Thank you!
thanks a lot sir !
Thanks for your
Ug again it's not "ten" or "eleven" "ten" = 1010 in binary, "eleven" = 1011. These are rigorously defined entities independentof base or symbolic representation. For clarity referring to two as "one" "zero" and specify digits. I'm really trying to enjoy this series, but your mislabeling of numbers is making it hard.
Edit: imagine you were explaining unary, would you call |||||||||| ten or would you call it one billion one hundred and eleven million one hundred and eleven thousand one hundred and eleven?
Hope that helps. At the end of the day you can define "ten" however you want, but most would agree that defining it as "as the number which has the symbolic representation with the least significant symbols "10" and no symbols of higher significance besides "0" "is a pretty useless way to it
A much better definition is just "the integer following nine" (I bet you can guess how we define nine) and treat the existence of one as an axiom. (There are more rigorous, set theory definitions from which the integers can be derived, but for are purposes here the above suffices, and each number can be represented in any other positive numbers base (you can also gave negative, transcendental, and imaginary bases but that's beyond the scope of this comment)
For the mathematically astute among you, you may recognize a few requirements for a vector space or field. Cool concepts 😉