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I am trying to port some CPU codes into CUDA. My CUDA card is based on Fermi architecture, and therefore I can use the malloc() function in the device to dynamically allocate memory and don't need to change the original codes a lot. (The malloc() function is called many times in my codes.) My question is if this malloc function is efficient enough, or we should avoid to use it if possible. I don't get much speedup running my codes on CUDA, and I doubt this is caused by the use of malloc() function.

Please let me know if you have any suggestion or comment. I appreciate your help.

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1 Answer 1

up vote 3 down vote accepted

The current device malloc implementation is very slow (there has been papers published about efficient CUDA dynamic memory allocation, but that work has not yet appeared in a release toolkit, AFAIK). The memory it allocates comes from heap, which is stored global memory, and it is also very slow. Unless you have a very compelling reason to do so, I would recommend avoiding in kernel dynamic memory allocation. It will have a negative effect on overall performance. Whether it is actually have much effect on your code is a completely separate question.

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Thank you for your answer. Can you point me to the link of the paper? – xhe8 Sep 20 '11 at 19:00
The thesis upon which the paper was based is available here. – talonmies Sep 20 '11 at 19:19

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