Hey there,
so far what I understood is the following: The GTX460 1GB (GF104) has 2GPCs with 4 SMs each, so 8SMs in total of which 1 is disabled, which means: 7SM ("Streaming Multiprocessors"). Each SM has 48 Cuda Cores (**Is that what we call a Thread? And can it be understood like ONE core of a CPU like the Q9550-Quadcore?**), so in total 336 Cuda Cores.

So what I don't understand right now: Why this 'complicated' architecture and not only like on a CPU to say: 'Okay, the GPU has N cores, thats it!'?

Assuming I have a certain program which is seperated into a grid of B blocks and each block of T threads (so B*T threads in total), can I somehow tell that ONE block is always connected to ONE SM or NOT? Because if it would be like that, this would make things harder for the coder since he should know how many SMs there are to optimize the parallelization to each graphics-card. E.g.: When I would have a graphics card with 8 SM and my program would only seperate the data into a grid of 1 block with N threads, I could only use one SM which would not use all its ressources!

Is there any way to only use some of the threads of the card when coding my program? I would really love to benchmark the speedup by running my program on 1..M Threads in total, where M is the total number of cuda cores (if this is equivalent to 'thread'), but how to do this? Is it sufficient to code my program like that:

```
cudaKernel<<<1, 1>>>(...)
```

to

```
cudaKernel<<<1, M>>>(...)
```

and run it each time? The only problem which I see here is the following: Let's assume I have the simple vector addition example:

```
#define SIZE 10
__global__ void vecAdd(float* A, float* B, float* C)
{
int i = threadIdx.x;
A[i]=0;
B[i]=i;
C[i] = A[i] + B[i];
}
int main()
{
int N=SIZE;
float A[SIZE], B[SIZE], C[SIZE];
// Kernel invocation
float *devPtrA;
float *devPtrB;
float *devPtrC;
[...]
vecAdd<<<1, N>>>(devPtrA, devPtrB, devPtrC);
}
```

when I would now set `vecAdd<<<1, N>>>`

to `vecAdd<<<1, 1>>>`

the single thread wouldn't calculate C to a N-size vector because the only thread would just calculate the first value of A, B and thus C. How to overcome this problem than?
Thanks a lot for clarifying in advance!! You will help me a lot!