# Confused with endianess: bits or bytes?

I extracted this from a tutorial:

Little-Endian order is the one we will be using in this document, and unless stated specifically you should assume that Little-Endian order is used in any file. The alternate is Big-Endian ordering. So let’s see an example. Take the following stream or 8 bits 10001110 If you have been following the document so far, you would quickly calculate the value of this 8-bit number as being 1x2^7 + 0x2^6 + … + 1x2^1 + 0x2^0 = 142 This is an example of Little-Endian ordering. However, in Big-Endian ordering we need to read the number in the opposite direction 1x2^0 + 0x2^1 + … + 1x2^6 + 0x2^7 = 113

Is this correct?

I used to think that endianess has to do with order that the BYTES (not the bits) are read.

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Yes, in the context of memory/storage, endianness indeed refers to byte ordering (typically). What would it mean to say that e.g. the least-significant bit "comes first"?

Bit endianness is relevant in some situations, for instance when sending data over a serial bus.

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In graphics memories, it can also be useful to consider bit endianness. If you want to store 1, 8, 16, or 32 bit pixels in the same space, it's easiest to think of all of memory as a sequence of bits starting at zero, so the first byte (in 8-bit mode) is a sequence of bits 0 to 7, with 0 on the left. (Which bit is most significant is a separate choice.) –  Timothy Miller Feb 19 '12 at 3:14