I'm trying to implement something like this in CUDA:

for each element

```
p = { p if p >= floor
z if p < floor
```

Where `floor`

and `z`

are constants configured at the start of the test.

I have attempted to implement it like so, but I get the error "too many resources requested for launch"

A functor:

```
struct floor_functor : thrust::unary_function <float, float>
{
const float floorLevel, floorVal;
floor_functor(float _floorLevel, float _floorVal) : floorLevel(_floorLevel), floorVal(_floorVal){}
__host__
__device__
float operator()(float& x) const
{
if (x >= floorLevel)
return x;
else
return floorVal;
}
};
```

Used by a transform:

```
thrust::transform(input->begin(), input->end(), output.begin(), floor_functor(floorLevel, floorVal));
```

If I remove one of the members of my functor, say `floorVal`

, and use a functor with only one member variable, it works fine.

Does anyone know why this might be, and how I could fix it?

**Additional info:**

My array is 786432 elements long.

My GPU is a GeForce GTX590

I am building with the command:

```
`nvcc -c -g -arch sm_11 -Xcompiler -fPIC -Xcompiler -Wall -DTHRUST_DEBUG -I <my_include_dir> -o <my_output> <my_source>`
```

My cuda version is 4.0:

```
$ nvcc --version
nvcc: NVIDIA (R) Cuda compiler driver
Copyright (c) 2005-2011 NVIDIA Corporation
Built on Thu_May_12_11:09:45_PDT_2011
Cuda compilation tools, release 4.0, V0.2.1221
```

And my maximum number of threads per block is 1024 (reported by deviceQuery):

```
Total amount of constant memory: 65536 bytes
Total amount of shared memory per block: 49152 bytes
Total number of registers available per block: 32768
Warp size: 32
Maximum number of threads per block: 1024
Maximum sizes of each dimension of a block: 1024 x 1024 x 64
Maximum sizes of each dimension of a grid: 65535 x 65535 x 65535
```

**UPDATE::**

I have stumbled upon a fix for my problem, but do not understand it. If I rename my functor from "floor_functor" to basically anything else, it works! I have *no* idea why this is the case, and would be interested to hear anyone's ideas about this.

`float operator()(const float& x) const`

. – harrism Apr 12 '12 at 4:21