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How can I make each thread in the thread block has his own pointer to shared memory? I found some example of declaration of such pointers:

int __shared__ *p;
__shared__ int array[256];

p = &array[threadId];

Is this right or is there another way?

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up vote 3 down vote accepted

No that is not the correct way. In that example code, p is shared so it mean every thread in the block would be trying to access the same piece of memory. You could do it like this if threadId was the unique thread index with the block:

int *p;
__shared__ int array[256];

p = &array[threadId];

In this case the compiler would use either a register or thread local memory to store the unique address of an element in static shared memory allocation array for each thread in the block.

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Thanks, I have thought I saw it in [] but there is declaration like int *__shared__ p; It should be pointer stored in thread local memory and point to shared memory. Is it correct? – stuhlo May 14 '12 at 14:47
no that isn't correct. You can safely disregard everything in that thread - it is from 2008 when CUDA was new, the compiler was primitive and not many people understood the fine details of the language extensions and how they mapping to hardware. – talonmies May 14 '12 at 15:55
How can I enforce p to be stored in a register? – BananaCode Mar 31 '15 at 22:05

You are right. A better way is Dynamic allocation of shared memory. An example is as fellow:

void __global__ test(){
extern __shared__ int s[];
int *p = &s[xx];


test<<<x,y, shared memory length>>>();
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But the posted code in the question isn't right. *p cannot be declared __shared__, that is a shared memory race. – talonmies May 14 '12 at 14:34

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