# Query regarding binary numbers in assembly

I am reading the book art of assembly language. There I came across this paragraph.

`````` If the H.O. bit is zero, then the number is positive and is stored as a
standard binary     value. If the H.O. bit is one, then the number is
negative and is stored in the two’s comple-ment form. To convert a
positive number to its negative, two’s complement form, you use the
following algorithm:

1) Invert all the bits in the number, i.e., apply the logical NOT function.

2) Add one to the inverted result.

For example, to compute the eight bit equivalent of -5:

0000 0101  Five (in binary)

1111 1010  Invert all the bits.

1111 1011  Add one to obtain result.
.
``````

Here I want to know if 0000 0101 is 5 in decimals and 1111 1011 is -5 then how we represent 251?

Is not the same 1111 1011? How the computer distinguishes between -5 and 251?

-
It's just a matter of interpreting. That's why there exist the instructions for signed and for unsigned values, because they treat the input differently. For example, the value `01` will mean `1` if interpreted as signed or unsigned. However, the value `11` would be interpreted as 3 if it's considered unsigned, or as -1 if we consider it signed. –  ruslik Oct 11 '10 at 17:21

For example, on the x86, you use `JA` (jump if Above) and `JB` (jump if below) for unsigned numbers and `JG` (jump if greater) and `JL` (jump if less than) for signed numbers. Likewise you use `IMUL` and `IDIV` to multiply/divide signed numbers and `MUL` and `DIV` for unsigned numbers.