If I declare a variable:
define SIZE = 900; // width and height of an image
float ** abc;
So if I want to allocate the memory for it on GPU, should I allocate it like this?
cudaMalloc(&abc, SIZE * SIZE * sizeof(float));
Because I got a warning: integer operation result is out of range.
If I declare it like this:
cudaMalloc(&abc, SIZE * sizeof(float));
Then it it fine, I dont know whether with array 2 dimension, what should I allocate?
Thanks in advance.
Does this code give you the same warning?
const size_t SIZE = 900;
float *abc;
cudaMalloc((void **)&abc, SIZE * SIZE * sizeof(float));
Try exactly this code, not something like it... if this isn't working, my guess is that there is a serious problem that's not your fault.
Why would you declare abc to be a doubly indirect pointer to float? malloc() and cudaMalloc() only allocate contiguous chunks of memory... if you want to interpret abc as a two-dimensional array, you'll have to work out the logic for doing so (translate to/from two-dimensional and linear indices) on your own. What you're asking nvcc to do is to allocate 3,240,000 bytes of memory for a float*, which should only need 4 bytes to store.
cudaMalloc does not allocate 2-dimensional array, you can translate 1-dimensional array to a 2-dimensional one, or you have to first allocate a 1-dimensional pointer array for float **abc, then allocate float array for each pointer in **abc, like this:
float ***abc;
float ***h_abc = malloc(SIZE * sizeof(float*));
cudaMalloc(&abc,SIZE * sizeof(float*));
for(int i = 0 ; i < SIZE ; i++ ){
cudaMalloc(&(h_abc[i]), SIZE * sizeof(float)):
}
cudaMemcpy(&abc,h_abc,SIZE * sizeof(float*));
