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I am using the following code to calculate time in C++ coce



*time =  (double)(fm.dwLowDateTime / 10000000.0);

Now i want to calculate the same time when i am implementing CUDA version this functions are called in between CUDA kernel function. Any idea or help how i can do it. I am pretty new to cuda programing and dont know much of it. Also can anyone tell me how to use the new operator in a __device__ function I tried

maxY = new int[m_imgWidth*m_imgHeight]; 

cudaMalloc((void **)&m_labelBuf , m_imgWidth*m_imgHeight);

but it is giving me error

 calling a __host__ function("cudaMalloc") from a __global__ function("kernel_Labeling") is not allowed
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Using the cudaEvent API is the most trouble-free method of timing cuda code. You can use device side malloc similarly to the way you would do it on the host, for compute capability 2.0 and newer (Fermi and newer) devices. – Robert Crovella Jan 3 '13 at 17:19
@RobertCrovella: thanks for the corrections and extra links. Want to post them as an answer so you can get credit for them? – Mr Fooz Jan 4 '13 at 4:12

1 Answer 1

up vote 1 down vote accepted

You can do a little bit of dynamic or pseudo-dynamic memory allocation via registers (private per-thread) and shared memory (private per-block), but it doesn't look like that's what you're trying to do.

To allocate memory on the heap from device-side code, you can use C++ new operator or you can use device-side malloc. This only works on Fermi and newer GPUs.

Using the cudaEvent API is the most trouble-free method of timing cuda code.

EDIT: I've merged Robert Crovella's comments into this answer. If he posts his comments as an answer, please vote for his instead of this one.

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You can dynamically allocate heap memory from device code. One method already indicated is using C++ new operator. Or you can use device-side malloc. The limitation here is that it works on Fermi or newer i.e. compute capability 2.0 or greater. The limitation is not exclusive to Kepler. – Robert Crovella Jan 3 '13 at 17:15

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