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I have recently started learning CUDA and I've integrated my CUDA into MS Visual Studio 2010 with Nsight. I have also acquired the book "CUDA by Example" and I'm going through all the examples and compiling them. I have come across an error however, which I do not understand. The program comes from chapter 4 and it's the julia_gpu example. Original code:

#include "../common/book.h"
#include "../common/cpu_bitmap.h"

#define DIM 1000

struct cuComplex {
    float   r;
    float   i;
    cuComplex( float a, float b ) : r(a), i(b)  {}
    __device__ float magnitude2( void ) {
        return r * r + i * i;
    __device__ cuComplex operator*(const cuComplex& a) {
        return cuComplex(r*a.r - i*a.i, i*a.r + r*a.i);
    __device__ cuComplex operator+(const cuComplex& a) {
        return cuComplex(r+a.r, i+a.i);

__device__ int julia( int x, int y ) {
    const float scale = 1.5;
    float jx = scale * (float)(DIM/2 - x)/(DIM/2);
    float jy = scale * (float)(DIM/2 - y)/(DIM/2);

    cuComplex c(-0.8, 0.156);
    cuComplex a(jx, jy);

    int i = 0;
    for (i=0; i<200; i++) {
        a = a * a + c;
        if (a.magnitude2() > 1000)
            return 0;

    return 1;

__global__ void kernel( unsigned char *ptr ) {
    // map from blockIdx to pixel position
    int x = blockIdx.x;
    int y = blockIdx.y;
    int offset = x + y * gridDim.x;

    // now calculate the value at that position
    int juliaValue = julia( x, y );
    ptr[offset*4 + 0] = 255 * juliaValue;
    ptr[offset*4 + 1] = 0;
    ptr[offset*4 + 2] = 0;
    ptr[offset*4 + 3] = 255;

// globals needed by the update routine
struct DataBlock {
    unsigned char   *dev_bitmap;

int main( void ) {
    DataBlock   data;
    CPUBitmap bitmap( DIM, DIM, &data );
    unsigned char    *dev_bitmap;

    HANDLE_ERROR( cudaMalloc( (void**)&dev_bitmap, bitmap.image_size() ) );
    data.dev_bitmap = dev_bitmap;

    dim3    grid(DIM,DIM);
    kernel<<<grid,1>>>( dev_bitmap );

    HANDLE_ERROR( cudaMemcpy( bitmap.get_ptr(), dev_bitmap,
                              cudaMemcpyDeviceToHost ) );

    HANDLE_ERROR( cudaFree( dev_bitmap ) );


My Visual Studio however forces me to embelish the cuComplex constructor to device, otherwise it won't compile (it tells me I cannot use it later in the julia function), which I guess is fair enough. So I have:

__device__ cuComplex( float a, float b ) : r(a), i(b)  {}

But when I do run the example (having added the necessary includes for it to run through VS, which is cuda_runtime.h and device_launch_parameters.h, as well as copying the glut32.dll into the same folder as the exe) it quickly fails, killing my device driver and saying it's due to an unknown error in line 94, which is the cudaMemcpy call in main. To be exact, it's the actual line containing the call "cudaDeviceToHost". To be frank however, I have tried creating some breakpoints line after line and the driver dies at the kernel call.

Could someone please tell me what might be wrong? I am a noob with CUDA and have no real idea why a trivial example would kill itself like that. What could I be doing wrong? Because frankly, I don't really even know what to investigate. I have the CUDA 4.1 toolkit, NSight 2.1 and a GeForce GT445M with computational ability rated at 2.1 and the 295 version of the drivers.

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Did you check that you're using the compute capability 2.0 target in the the CUDA property sheet in Visual C++? –  Roger Dahl Mar 21 '12 at 16:10
No, and frankly I don't see such a setting in my project property pages under section "CUDA C/C++". Where do I look? –  SY. Mar 21 '12 at 16:33
Under "Device > Code Generation" –  Bart Mar 21 '12 at 18:36
I don't see anything that would require compute capability 2.0. SY., I recommend you run it through cuda_memcheck to see if it discovers any memory access errors. BTW, using 1x1 thread blocks will get you ~1/32nd of the potential performance of the hardware. You should use a smaller grid of larger blocks (blocks should be a multiple of 32 threads in size). –  harrism Mar 23 '12 at 5:35

2 Answers 2

up vote 2 down vote accepted

I haven't had time to test this yet, but I think it may be your GFX "timing out" as far as windows is concerned.

Windows has a default behaviour from Vista to tell the gfx driver to recover after 2 seconds. If your job takes longer then you get booted. You can increase or remove this feature through the registry. I assume you need a reboot for this because I just made the changes and it's not working yet. See this link for detail:


Timeout Detection and Recovery : Windows Vista attempts to detect these problematic hang situations and recover a responsive desktop dynamically. In this process, the Windows Display Driver Model (WDDM) driver is reinitialized and the GPU is reset. No reboot is necessary, which greatly enhances the user experience. The only visible artifact from the hang detection to the recovery is a screen flicker, which results from resetting some portions of the graphics stack, causing a screen redraw. Some older Microsoft DirectX applications may render to a black screen at the end of this recovery. The end user would have to restart these applications. The following is a brief overview of the TDR process: ....

Clearly this is why its a weird bug because it will give you that mem copy error at different scales for different people depending on how fast their gfx is.

This is a known issue in CUDA.

share|improve this answer
This turned out to be true. After giving up on it, I went on to debug some more the following day and the issue had resolved itself. People should be made well aware of this issue. –  SY. May 29 '12 at 17:16

You can try changing this: const float scale = 1.5;

to something larger like 3.5, 4.5, 5.5.

example: const float scale = 5.5;

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