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So, if I have a device (or global) function that creates/copies some data into shared memory and I later call another device function, like so:

__global__ void a(){ 
    __shared__ int blah=0;
__device__ void fun(){
   blah = 1; //perform some operations
   //do whatever

I'm a bit rusty with my CUDA, I think you might have had to "redefine" shared variable (I assume the operation checked if a shared variable of that name exists, if so assigns it) - this had the effect of creating context - so basically the variable didn't just come out of nowhere. Alternatively, if it's similar to having a global variable in standard C/C++ and I can just reference it, like I did above, it'd be great.

I am familiar with memory hierarchy, I'm just rusty on the semantics of creating/referencing memory.

Please advise on whether the above sketch would work. Thanks.

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up vote 2 down vote accepted

No that won't work in CUDA, any more that it would work in standard C99. Currently, the preferred method of __device__ function compilation is inline expansion (they are also compiled as standalone code objects for the Fermi architecture), but even so __device__ functions still must obey standard syntax and scope conventions of C99. So you need to pass arguments which don't have compilation unit scope by reference to __device__ functions.

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But, when you have multiple threads - you can't pass a reference, each thread tries to assign a shared memory of that name, consequently all threads in the block can have access to the shared variable. – Nisk Aug 17 '11 at 10:49
Of course you can pass a reference to a shared memory variable to a device function and it is completely valid to do so. For correctness reasons, your contrived example would not be done unconditionally, but what happens at run time and what happens at compile time are totally separate issues. – talonmies Aug 17 '11 at 11:03

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