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I think this is a simple question, I just want to check that I have understood this right. Say I have a CUDA Kernel such as:

__global__ void test(int* a){
    int idx = threadIdx.x;

    int a_in_kernel = a[idx]; // Operation 1

    a_in_kernel++;            // Operation 2

    a[idx] = a_in_kernel;     // Operation 3

The variable a_in_kernel lives either in the registers or the shared memory, which on it is is automaticly made by the compiler. I assume that a, when I have loaded it up with memcpy_htod, is in the local memory. Then there is some time to wait to get/set the value a[idx], but operation 2 on a_in_kernel only is fast.

In other words, this

__global__ void slow(int* a){
    int idx = threadIdx.x;

    int i;
    for(int i=0; i<1000; i++){

is slow in comparison with

__global__ void fast(int* a){
    int idx = threadIdx.x;

    int a_in_kernel = a[idx];

    int i;
    for(i=0; i<1000; i++){

    a[idx] = a_in_kernel;

Maybe I'm just completely misunderstanding things though.

share|improve this question
a will live in global memory. And yes, accessing global memory is slower than accessing a variable that lives in register memory. Shared memory normally only gets populated when you explicitly define something as __ shared__ May want to read the memory sections in the CUDA C programmers guide –  Robert Crovella Nov 15 '12 at 21:25
@RobertCrovella I found the guide rather opaque. So, not declaring __shared__ makes it automatically register memory? –  Lucas Nov 15 '12 at 21:47
yes, not declaring it shared means the compiler will automatically place it, usually in register memory which is fast "on-chip" memory. The only exception I know of to this would be in the case of register-spilling. Note that shared memory is on-chip as well. One of the key differences is that shared memory is visible to all threads within a block. Registers are only visible to the thread that they are defined in. –  Robert Crovella Nov 15 '12 at 21:56
Sorry to keep asking simple questions, Do you know if it's smart not to spill if I do int a = INPUT; int b = a; int c = b; ...lots more than register memory size / sizeof(int)... int z = y; OUTPUT = z –  Lucas Nov 15 '12 at 22:05
... for example –  Lucas Nov 15 '12 at 22:05

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