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A real question that I've been asking myself lately is what design choices brought about x86 being a little endian architecture instead of a big endian architecture?

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Design tradeoffs. See en.wikipedia.org/wiki/Endianness#Optimization for a couple of examples. –  Jim Mischel Mar 3 '11 at 19:42

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Largely, for the same reason you start at the least significant digit (the right end) when you add—because carries propagate toward the more significant digits. Putting the least significant byte first allows the processor to get started on the add after having read only the first byte of an offset.

After you've done enough assembly coding and debugging you may come to the conclusion that it's not little endian that's the strange choice—it's odd that we humans use big endian.

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A side note: Humans mostly read numbers and only sometimes use them for calculation. Furthermore we often don't need the exact numbers when dealing with large quantities - taking that into account - big endian is a sensible choice for humans. –  qff Aug 29 '12 at 3:22
@qff Are you saying that in big endian, because one can read left to right from the most significant digit, it makes it easier to comprehend the order of magnitude of the number? What about for people who normally read from right to left? –  L̲̳o̲̳̳n̲̳̳g̲̳̳p̲̳o̲̳̳k̲̳̳e̲̳̳ Feb 7 '13 at 17:01
Arabic is written from right to left, which might explain the orientation of our numbering system: for them, it is indeed little endian! –  Eduardo León Jun 21 '13 at 19:12

It reflects the difference between considering memory to always be organized a byte at a time versus considering it to be organized a unit at a time, where the size of the unit can vary (byte, word, dword, etc.)

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