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I have 2 implementations which i time

imp1:

//events timing
cudaEvent_t start, stop; 
float elapsedTime;
HANDLE_ERROR(cudaEventCreate(&start));
HANDLE_ERROR(cudaEventCreate(&stop));
//event record
HANDLE_ERROR(cudaEventRecord(start,0));

serve_descriptor<<<1, 2>>>(data_mem_d);
cudaThreadSynchronize();

//stop timer

HANDLE_ERROR(cudaEventRecord(stop, 0));
HANDLE_ERROR(cudaEventSynchronize(stop));
HANDLE_ERROR(cudaEventElapsedTime(&elapsedTime, start, stop));

//printf("Time: %3.3f ms\n", elapsedTime);

HANDLE_ERROR(cudaEventDestroy(start));
HANDLE_ERROR(cudaEventDestroy(stop));


return elapsedTime;

imp2:

    unsigned long int *dev_data;
    //allocate device memory
    HANDLE_ERROR(cudaMalloc((void**)&dev_data, mem_alloc_d * sizeof(unsigned long int)));
    cudaEvent_t start, stop; 
    float elapsedTime;
    HANDLE_ERROR(cudaEventCreate(&start));
    HANDLE_ERROR(cudaEventCreate(&stop));
    //event record
    HANDLE_ERROR(cudaEventRecord(start,0));
    //copy descriptors' list to device
    HANDLE_ERROR(cudaMemcpy(dev_data, data_mem_d, mem_alloc_d * sizeof(unsigned long int), cudaMemcpyHostToDevice));
    serve_descriptor<<<1, 2>>>(data_mem_d);
    cudaThreadSynchronize();
    //copy answer back
    HANDLE_ERROR(cudaMemcpy(data_mem_d, dev_data, mem_alloc_d * sizeof(unsigned long int), cudaMemcpyDeviceToHost));


    //stop timer

    HANDLE_ERROR(cudaEventRecord(stop, 0));
    HANDLE_ERROR(cudaEventSynchronize(stop));
    HANDLE_ERROR(cudaEventElapsedTime(&elapsedTime, start, stop));
    //printf("Time: %3.3f ms\n", elapsedTime);
    HANDLE_ERROR(cudaEventDestroy(start));
    HANDLE_ERROR(cudaEventDestroy(stop));
    //free memory
    HANDLE_ERROR(cudaFree(dev_data));
    //printf("DEVICE MEMORY FREE!\n");

return elapsedTime;

All the above run in a loop for specific time (I choose the time variant). The time results of the first implementation are similar in every iteration (~14-15 ms) while in the second implementation starts from ~14-15 ms and the more it runs the slower it becomes. for example for a 60 sec run starts from 14ms and reaches 30 ms. All the code above is in a while loop.

    while (work)
{
//the code specified above (imp1 or imp2)
}

the work variable starts true and becomes false after 60 seconds

Is there any logical explanation? Is it PCIe arbitration?

Ant help appreciated,

Amanda

share|improve this question
    
Amanda, Remove the cudaThreadSynchronize after the <<<>>>. The launch, records, and copies are all on the the null stream which means they will never overlap. cudaThreadSynchronize is a blocking function call. It will cause you to have a unspecified delay between the launch and the record. Your original question was cut off. Can you provide how you are looping the program so we can understand why it is slowing down. –  Greg Smith Apr 7 '12 at 1:56
    
NOTE: The NVIDIA Visual Profiler or Parallel Nsight CUDA Trace timelines would quickly show you the affect the extra cudaThreadSynchronize has on your program. Depending on how you are repeating the timing in the the second impl it may also quickly identify why the duration is increasing. –  Greg Smith Apr 7 '12 at 2:04
    
I removed the cudaThreadSynchronize but nothing changed. You were right about the blocking issues but not about the extra delay. So the question remains open –  amanda Apr 10 '12 at 8:37
    
Your memcopy calls seem backwards. You are copying to the device variable after calling the kernel with it as an argument, rather than before. In any case, the two programs are different (one does memcpy and the other doesn't), so why do you expect their behavior to be the same? It's very hard to answer this question without complete code. –  harrism Apr 12 '12 at 4:16
    
I don't expect the same behaviour. I am just trying to explain the time increase in every iteration. The code is complete (I left out only the memory allocation part which is trivial). As for the backwards calls I don't understand what do you mean. I copy once the array from host to device, call the kernel and copy device array back. –  amanda Apr 19 '12 at 8:56

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