`A \= B`

is equivalent to `not (A = B)`

So lets compare `=/2`

and `==/2`

first; from the swi-prolog manual:

?Term1 = ?Term2

Unify Term1 with Term2. True if the unification succeeds

@Term1 == @Term2

True if Term1 is equivalent to Term2.

Notice that `=/2`

tries to unify the terms and if it succeeds it's true while `==/2`

just performs a check:

```
?- X = 1.
X = 1.
?- X == 1.
false.
```

and also:

```
?- X = Y.
X = Y.
?- X == Y.
false.
```

now, `not/1`

will invert the result and be true if `=/2`

or `==/2`

was false.

for`==/2`

there is nothing complicated; if the terms were equivalent now it will return false otherwise true.

for `=/2`

you should remember that all unifications will be temporary:

```
?- \+ (\+ X = 1), print(X).
_G399
true.
```

(`_G399`

indicates that `X`

is non-instantiated)