# why 32 bits is equal to 4Giga bytes but not 4 giga bits

I know this might be dumb... but i really dont understand

let say we have 32 bits address, so each bit can be either 1 or 0.

so the total combination is equal to 2^32

so we can represent 2^32 addresses.( without unit)

But why people always say 32 bits address can represent 2^32 byte addresses (why the "byte" pop up)?

I already read Why does a 32-bit OS support 4 GB of RAM?

Isn't it become 2^32 * 8bits addresses? why people can simply add "byte" at the end??

I am confused.... Thanks

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You have 2^32 addressable units. Modern processors are byte-addressable, so you get 2^32 bytes. There are older processors whose addressable units are not bytes. For example the original machine for which UNIX was developed was word-addressable, so a 36-bit integer could access 2^36 words, not 2^36 bytes. –  Raymond Chen Mar 11 '13 at 20:25

The address 0x100 refers to a single byte and the address 0x101 refers the following byte.

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ok, i think i got it now, is that 2^32 is just representing the number of addresses, but in the OS, the basic UNIT is byte. so if we have 2^32 addressess, so we can represent 2^32 byte addresses? –  runcode Mar 11 '13 at 18:32
say you had 4 bit address. each address would be one of 16 (2^4) values between 0 and 15 (inclusive). Each of those numbers (addresses) would refer to one of 16 bytes (not bits) in memory. so in this case you the memory size would be 16 bytes. if you had 32 bits you could have up to 2^32 bytes (or 4GB) of addressable memory. –  Kyle Lutz Mar 11 '13 at 18:37