Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I am struggling with OpenCL specification, as I find it sometimes ambiguous, can someone try to answer the following questions ?

Consider the following code :

__kernel void myKernel(...)
    // Buffer 1
    __local float *buffer1[64];

    // Buffer 2
    __local float *buffer2;

    // Buffer 3
    __private float *buffer3[64];

    // Buffer 4
    float *buffer4[64];

    int var1 = 1, var2 = 2;
    nonKernelFunction(&var1, &var2);

    // ...


void nonKernelFunction(int *pvar1, int *pvar2)
    int *pvar;
    if (someRunTimeCondition)
        pvar = pvar1;
        pvar = pvar2;
    *pvar += 1; 

1) Is there a difference (static or dynamic) between buffer1 and buffer2 ?

2) Are declarations of buffer3 and buffer4 equivalent (they are for variables, but I'm not sure for pointers) ?

3) On GPUs (where private memory is only registers I think), where will the compiler allocate the ressources ? If it is in global memory, is it possible to know how much memory will be used at run time, from the host ?

4) Assuming buffer3 and buffer4 are stored into registers, how can instructions like buffer3[i] = buffer4[i] (where i is known at run time) be allowed ?

5) If buffer3 and buffer4 are not stored into registers, then, how can nonKernelFunction code be allowed (var1 and var2 are definitely not in memory) ?


share|improve this question
up vote 1 down vote accepted


1) there is no technical difference between static specifications in the kernel code and "dynamic" specification by the host via a buffer;

2) by default variables are __private so this should not make any difference;

3) private memory MAY be allocated in registers if small but otherwise global memory will be used; you can query minimum memory requirements for a kernel using clGetKernelWorkGroupInfo;

4) why should they not be allowed, because it might result in out-of-bound errors ?

5) var1 and var2 are in the address-space of the GPU, even if not in the private memory; access might be slower that's all.

EDIT1 : The fact that var1 and var2 are in registers, say reg1 and reg2, should not be an issue as the code could result in pseudo-assembly like :

    push reg1
    push reg2
    call nonKernelFunction

    test someRunTimeCondition
    jz ko
        mov [SP+2] reg1
        jmp end:
        mov [SP+1] reg1
    mov [reg1] reg2
    inc reg2
    mov reg2 [reg1]

I don't know if GPUs assemblies/core-architectures are much different but on a standard CPU there is no issue because you use the stack to make abstraction of the effective locations.

Note that there is a more recent version of the spec here :)

share|improve this answer
1) 2) 3) Ok thanks. 4) - 5) No, I am wondering how the compiler can produce PTX code. Let me get back to my example: if var1 and var2 are stored into registers (say R1 and R2) then the compiler cannot translate the line "*pvar += 1" as it would mean increasing the value carried either by R1 or R2. And deciding which register to increase cannot be decided at compile time. – GaTTaCa Nov 20 '12 at 19:04
I've edited my answer : EDIT1... – Pragmateek Nov 21 '12 at 10:06

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.