# How a single byte of memory is accessed by CPU in a 32-bit memory and 32-bit processor

I quite understand a what 32 or 64 bit system means. so basically all registers or word length is either 32 or 64 bit.

For simplicity let us take a 32 bit system and say i'am writing a program in C. if i declare a int type say "int a = 5;" then a memory location of one word length is reserved for var a. so when ever i want to access it i can do so using word address for that memory location.

But say i have 4 characters " char a,b,c,d;" since it is one byte each all of them are placed in one word, so what do i do if i want to access only char b?(saying the memory is byte addressable) now say b is the third byte in the word....then how does it come on to the bus? is'nt the 3rd byte hard wired to 17th to 24th line in the bus? so what happens to the other 24 lines when only b is being accessed?

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Check the machine language, assembly language, for that particular CPU, especially the parts about memory addressing and CPU registers. –  theglauber Sep 18 '12 at 15:45
@deepak, On 32bit platforms which support byte addressing, it's possible to write a single byte to memory w/o the other three bytes written(according Byte Enable signals turned off). –  Eric Z Jan 2 '14 at 5:04
@EricZ, now what would happen if the byte I want is the 2nd byte (starting count from zero) in the memory? usually when I access a word from the memory, the 2nd byte lands up between bit position 23 - 16 of the register. But in this case it will have to land up in position 7 - 0. This confuses me because I thought that bit 0 from memory is wired to land up in bit 0 of the register, and bit 31 to bit 31. I thought it was all in the circuitry, so how could a bit which is supposed to land at bit position 16, land up at position 0 during byte access? –  deepak Jan 2 '14 at 6:28
@deepak, CPU can read 4 bytes from the memory and shifts the other 3 bytes away to produce the 2nd byte. It just happens under the hood, not even visible in the assembly. –  Eric Z Jan 2 '14 at 7:32