3

I am trying to modify the imageDenosing class in CUDA SDK, I need to repeat the filter many time incase to capture the time. But my code doesn't work properly.

//start

__global__ void F1D(TColor *image,int imageW,int imageH, TColor *buffer)
{  

const int ix = blockDim.x * blockIdx.x + threadIdx.x;
const int iy = blockDim.y * blockIdx.y + threadIdx.y;

    if(iy != 0 && iy < imageH-1  && ix < imageW)
    {

        float4 fresult = get_color(image[imageW * iy + ix]);
        float4 fresult4 = get_color(image[imageW * (iy+1) + ix]);
        float4 fresult5 = get_color(image[imageW * (iy-1) + ix]);

        float4 fresult7; 
            fresult7.x = fresult.x*0.5+fresult4.x*.25+fresult5.x*.25;
            fresult7.y = fresult.y*0.5+fresult4.y*.25+fresult5.y*.25;
            fresult7.z = fresult.z*0.5+fresult4.z*.25+fresult5.z*.25;

        buffer[imageW * iy + ix] =      
            make_color(fresult7.x,fresult7.y,fresult7.z,0);     

    }

    image[imageW * iy + ix] =   buffer[imageW * iy + ix];
    //should be use cudaMemcpy, But it fails
}

//extern

extern "C" void
cuda_F1D(TColor *dst, int imageW, int imageH)
{
dim3 threads(BLOCKDIM_X, BLOCKDIM_Y);
dim3 grid(iDivUp(imageW, BLOCKDIM_X), iDivUp(imageH, BLOCKDIM_Y));
Copy<<<grid, threads>>>(dst, imageW, imageH);

size_t size = imageW*imageH*sizeof(TColor);
TColor *host =(TColor*) malloc(size);
TColor *dst2;
//TColor *dst3;
//TColor *d = new TColor(imageW*imageH*sizeof(TColor));
dim3 threads2(imageW,1);
dim3 grid2(iDivUp(imageW, imageW), iDivUp(imageH, 1));

*for(int i = 0;i<1;i++)
{   
    cudaMalloc( (void **)&dst2, size);
            cudaMemcpy(dst2, dst, imageW*imageH*sizeof(TColor),cudaMemcpyHostToDevice);
//cudaMalloc( (void **)&dst3, imageW*imageH*sizeof(TColor));
//cudaMemcpy(dst3, dst, imageW*imageH*sizeof(TColor),cudaMemcpyHostToDevice);
    F1D<<<grid2, threads2>>>(dst, imageW, imageH,dst2);
//cudaMemcpy(dst, dst3, imageW*imageH*sizeof(TColor),cudaMemcpyDeviceToHost);
    cudaFree(dst2);
}*

}

This code works, but cant synchronise the array of image. and lead to many synchronise problem

  • Presumably dst is also cudaMalloc'd somewhere else? One thought for future reference, perhaps you intend to make the "i" loop perform more iterations - you should avoid cudaMalloc and cudaFree inside that loop and do them once only. It's not a good idea to have them on the performance path, they're not super-fast. You could also consider async memcpys if your algorithm allows it. – Tom May 31 '10 at 8:41
  • @kitw: click on the edit button above to fix typos etc in your question – Paul R Jun 4 '10 at 14:50
  • You lost that account? This is the same account. kitw. – Amy Jun 4 '10 at 19:25
6

Your kernel is running asynchronously - you need to wait for it to complete, e.g.

cudaMalloc((void **)&dst2, size);
cudaMemcpy(dst2, dst, imageW * imageH * sizeof(TColor), cudaMemcpyHostToDevice);
F1D<<<grid2, threads2>>>(dst, imageW, imageH, dst2);
cudaThreadSynchronize(); // *** wait for kernel to complete ***
cudaFree(dst2);
0

I already answered this for you when you posted the same question previously - you need to wait for a kernel to complete before running it again - add:

cudaThreadSynchronize(); // *** wait for kernel to complete ***

after the kernel call.

  • Yes thanks for your answer, but the cudaThreadSynchronize() does not help. I had tried before and somehow the result still not correct. – kitw Jun 4 '10 at 14:52
  • mypicx.com/uploadimg/30130182_06042010_1.jpg the results: left one is when applying first time middle one is after this program looping 100 times right one is what i supposed to had after 100 times – kitw Jun 4 '10 at 15:10
  • @kitw: you still don't have cudaThreadSynchronize() in the above code though - why would you leave this out ? The code as it is can never work in a loop without this. – Paul R Jun 5 '10 at 8:57
0

The statement

image[imageW * iy + ix] =   buffer[imageW * iy + ix];

is causing the problem. You are overwriting your input image in the kernel. So depending on thread execution order, you would be further blurring parts of the image.

Also, I don't see the purpose of

cudaMemcpy(dst2, dst, imageW*imageH*sizeof(TColor),cudaMemcpyHostToDevice);

dst looks to be device memory since you have access to it in the cuda kernal.

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