I am encountering the following problem when running a CUDA program:

I invoke a simple kernel with a single block that has 2 threads

`CUDAkernel<<<1,2>>>`

Inside the kernel I do the following:

`int i = threadIdx.x;`

`if (i==0){ waitabit(); }`

`if (i==1){ waitabit(); }`

So, both kernel threads invoke the same function `waitabit()`

which pretty much wastes some
clock cycles:

```
__device__ void waitabit(){
clock_t start = clock();
clock_t now;
for (;;) {
now = clock();
clock_t cycles = now > start ? now - start : now + (0xffffffff - start);
if (cycles >= 10000000 )
{break;}
}
}
```

Now the problem: the function `waitabit()`

delays the the thread by 0.008 seconds.
I naturally assumed that the threads run in parallel, so both of them will by stalled *in parallel* by 0.008 seconds (roughly) and the whole kernel's delay will be roughly 0.008 seconds.

However, this is not the case. The kernels executes them *serially* and the delay is 0.016, i.e. 2*0.008

Is the parallelism done incorrectly?

thanks in advance!