.

**I send it an email to the OpenMP developers about this subject, the answer :**

For signed int, the wrap around behavior is undefined. If we allow !=, programmers may get unexpected tripcount. The problem is whether the compiler can generate code to compute a trip count for the loop.

For a simple loop, like:

```
for( i = 0; i < n; ++i )
```

the compiler can determine that there are 'n' iterations, **if n>=0**, and zero iterations **if n < 0**.

For a loop like:

```
for( i = 0; i != n; ++i )
```

again, a compiler should be able to determine that there are 'n' iterations, **if n >= 0**; **if n < 0**, we don't know how many iterations it has.

For a loop like:

```
for( i = 0; i < n; i += 2 )
```

the compiler can generate code to compute the trip count (loop iteration count) as **floor((n+1)/2) if n >= 0**, and 0 **if n < 0**.

For a loop like:

```
for( i = 0; i != n; i += 2 )
```

the compiler can't determine whether 'i' will ever hit 'n'. What if 'n' is an odd number?

For a loop like:

```
for( i = 0; i < n; i += k )
```

the compiler can generate code to compute the trip count as **floor((n+k-1)/k) if n >= 0**, and 0 **if n < 0**, because the compiler knows that the loop must count up; in this case, if **k < 0**, it's not a legal OpenMP program.

For a loop like:

```
for( i = 0; i != n; i += k )
```

the compiler doesn't even know if i is counting up or down. It doesn't know if 'i' will ever hit 'n'. It may be an infinite loop.

**Credites**: OpenMP ARB