When converting numbers to a printable format it's often easiest to start with the last digit.
Consider converting 123 to "123", how would we get the last digit? It's the remained when dividing by 10 (the base). So 123 % 10 gives us 3 and 123 / 10 = 12 conveniently gives us the correct number to work with in the next iteration. On x86 the "DIV" instruction is nice enough to give us both the quotient and remainder (in
dx respectively). All that remains is to store printable characters in the string.
Putting all this together you end up with something like the following (using nasm syntax):
; ax = Number to be converted
; bx = Base
; si = Start of NUL-terminated buffer
; containing the converted number
; in ASCII represention.
push ax ; Save modified registers
mov si, bufferend ; Start at the end
xor dx, dx ; Clear dx for division
div bx ; Divide by base
add dl, '0' ; Convert to printable char
cmp dl, '9' ; Hex digit?
jbe .store ; No. Store it
add dl, 'A'-'0'-10 ; Adjust hex digit
dec si ; Move back one position
mov [si], dl ; Store converted digit
and ax, ax ; Division result 0?
jnz .convert ; No. Still digits to convert
pop dx ; Restore modified registers
This requires a working buffer (16 for the case when base = 2 and an extra byte for the NUL terminator):
buffer: times 16 db 0
Adding support for signed numbers is left as an exercise for the reader. Here is roughly the same routine adapted for 64-bit assembly.