A man with a depth undoubtedly... Love how clearly and interestingly you explain things. It is always fascinating to see that many technical terms (in technology and science) are coined in somewhat "childish" or "playful" manner having a nice story behind. Excellent videos! Thanks. :)
my professor had the brilliant idea to invent the "middle-endian" (something like b3, b1, b0, b2) which was used in a simple file format he had invented and we had to write a decoder for that file format in java as a test
interestingly gulliver's travels also depicts something like a computer although he uses it as a satirical device, the inventor of it wants to write useful scholarly books by calculating every permutation of words/letters mechanically and recording when they make sense
How does the byte ordering relate to eggs besides being mentioned in the paper? Big endian numbers are the opposite of an egg with it's big end up, as the larger numbers are at the bottom (lower memory address)?
That animation got me confused too. Given that any data transfer in networking uses big endian (or network byte order), my understanding was the the first byte to be transmitted would be DD at location 103 (instead of AA at location 106), then CC at location 104, and so on since in big endian, the most significant byte is stored at the lower memory address (or alternatively, the least significant byte is stored at the higher memory address).
I thought it is because of the fact that you Start to calculate on the lowest adress. If a number is stored in Big Endian you Start calculating on the MSB and you have to wait for All the carry bits that are calculated in the higher adresses following. Until you are at the highest adress where the LSB is stored. Can somebody correct because that's the explanation that came to my head?
A quick life hack about hexadecimal! Each digit represents 4 bits in binary if u ever want have a na easier time with conversions! I know it was said in the video but you really don't appreciate this fact until it bites you in the ass
For the first time in my life, this is crystal clear.
Wonderful explanation✨✨
Thank you. I'm delighted to help :)KD
Your whole channel is a treasure trove of knowledge. Thanks for taking the time to produce and upload these videos.
You are very kind, and most welcome :)KD
A man with a depth undoubtedly... Love how clearly and interestingly you explain things. It is always fascinating to see that many technical terms (in technology and science) are coined in somewhat "childish" or "playful" manner having a nice story behind. Excellent videos! Thanks. :)
Loved the explanation… I know these concepts, but still find it fascinating
Thank you :)KD
Great video! Thank you
Wonderful lecture!
Nice journey took like 2 weeks🌺
my professor had the brilliant idea to invent the "middle-endian" (something like b3, b1, b0, b2) which was used in a simple file format he had invented and we had to write a decoder for that file format in java as a test
Sounds like chewing gum for the mind, but there is probably a good reason it isn't really done like this. :)KD
Excellent
Thank you :)KD
Love your videos man, keep it up
Thank you :)KD
interestingly gulliver's travels also depicts something like a computer although he uses it as a satirical device, the inventor of it wants to write useful scholarly books by calculating every permutation of words/letters mechanically and recording when they make sense
Perhaps Jonathan Swift was a computer scientist at heart :)KD
Thank you…
You're welcome :)KD
How does the byte ordering relate to eggs besides being mentioned in the paper? Big endian numbers are the opposite of an egg with it's big end up, as the larger numbers are at the bottom (lower memory address)?
It's just a bit of fun really :)KD
Fantastic effort!
Thank you :)KD
You should do a video on pipelining
@11:07 big endian has LSB stored at the highest memory address so AA (106) is LSB not MSB or do I understand it wrong ?
That animation got me confused too. Given that any data transfer in networking uses big endian (or network byte order), my understanding was the the first byte to be transmitted would be DD at location 103 (instead of AA at location 106), then CC at location 104, and so on since in big endian, the most significant byte is stored at the lower memory address (or alternatively, the least significant byte is stored at the higher memory address).
7:55 Wow 😮
i dont understand how little endian removes the need to wait for a carry bit
I thought it is because of the fact that you Start to calculate on the lowest adress. If a number is stored in Big Endian you Start calculating on the MSB and you have to wait for All the carry bits that are calculated in the higher adresses following. Until you are at the highest adress where the LSB is stored. Can somebody correct because that's the explanation that came to my head?
10:47 -just a reminder for myself
A quick life hack about hexadecimal! Each digit represents 4 bits in binary if u ever want have a na easier time with conversions! I know it was said in the video but you really don't appreciate this fact until it bites you in the ass
I don't care for Johnathan Swift thank you very much
😷🍌
🍔🍟 :)KD
You are smarter than Neil Gray Tyson
Who thinks numericals comes from Arabs numericals rather Hindu numericals.
dhanyavaad :)KD