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I am currently writing a CUDA code, in which the computation (a call to the integrator function) runs in a big-loop. The code at a high-level looks like this.

    while( current < maxtimesteps  )

         integrator( input_ptr, output_ptr );

         /*Swap input and output pointers*/

   integrator(input_ptr, output_ptr)
      dat_struct ot; // dat_struct is just a structure of int/float arrays.
      build(ot); // passed by reference. allocation for arrays takes place inside this.

      int* v = 0;

      int  k =  100;
      cudaMalloc((void**)&v, sizeof(int)*k);
      cudaError_t error = cudaGetLastError();
      if(error != cudaSuccess)
        printf("\n\nCUDA error  %s\n in 
                         FILE:   %s , 
                         LINE: %d , 
                         FUNCTION: %s", cudaGetErrorString(error),
                                        __FILE__ ,
                                        __LINE__ , 
        exit(1); // STOP! 
   search(v, ot, ptin); // results of search() are dumped to v. My wrapper
                        // to an underlying CUDA kernel

    /*Do some computations with v and the input  
      and dump to output, sing output_ptr
      This part is yet to be written  can be considered empty*/


Right now I am in the process of testing whether dat_struct ot (which is just a structure of arrays all allocated on the GPU) and the integer vector v (also on the GPU) are being correctly computed at each iteration. So the the heart of the computation has been left empty as shown in the comments above. dat_struct ot has its own destructor so the memory is being cleaned at every iteration.

Now some very strange things are happening with this code.

To check whether just ot is being computed, I commented out search(v, ot, ptin);. I verified (by printing out ot) that indeed this was the case for many 1000's of iterations. While I did this, I did not comment out the lines doing the allocation and deallocation of v. So the ot construction is not the issue,

When I un-comment the call to the search() function above, the program runs correctly for a single iteration and computes the right value of ot and v.

BUT at the second iteration , I get this error, obtained using the call to cudaGetLastError()

CUDA error  invalid device pointer
 in FILE: integrator.cu , LINE: 59 , FUNCTION: integrator%  

I don't understand what this problem is. What exactly does this error mean? Why should the program run correctly at the first iteration and give this error at the second?

I am using CUDA 4.0 on a GTX 570. My OS is Ubuntu 10.10

EDIT: Ok so I mentioned that search function was a wrapper to the search kernel. I noticed, once I comment out the kernel call itself within the wrapper, then the code runs in a loop without any of these invalid device pointer errors.

Here is how the search function and its underlying kernel looks like. As I have mentioned, both ot and ptin are a structure of pointers with each pointer pointing to either an integer / double / float array on the device. However ptin->N is an integer, which is the size of the arrays pointed to by ptin->d_xp , ptin->d_yp and ptin->d_zp.

    void search(int* v, const dat_struct& ot, particles* ptin)

       int blocksize = 512  ;  
       int gridsize  = 1024  ; 
       double r      = 0.1   ;
       searchkernel<<< gridsize, blocksize >>> ( ot, 
                                                 v , 
                                                 r , 
                                                 ptin->N , 
                                                 ptin->d_xp , 
                                                 ptin->d_yp , 
                                                 ptin->d_zp ); 


As you can see I am passing the structure of device-pointers ot to the kernel by value. This is valid in CUDA as far as I know (infact the first iteration suceeds with correct answers!). The kernel code is quite big, so I am not sure how much and what I should paste here. My only guess is there is something with my kernel arguments.

share|improve this question
There's not enough information here to help you. One thing I see is that build is allocating multiple CUDA arrays every time it is called and they are not freed, so you have a memory leak. THe invalid device pointer error means exactly what it says -- one or more of your pointers is invalid (not a pointer to a device memory allocation). I would start commenting stuff out until it works to narrow down which one. And post more details if you want more help. –  harrism Sep 10 '12 at 3:09
This is more a point of style than a likely cause of the problem, but you should also improve the error checking in your code by directly checking the return code from all API functions, rather than using cudaGetLastError() after the fact. It is possible to loose track of the exact root cause or point of failure in a sequence of API calls if you don't directly check return statuses at the point of return from each API call. –  talonmies Sep 10 '12 at 5:55
@harrism Thank you for the reply. Please see the edit. The dat_struct structre has a destructor defined, so there is no memory leak there. –  smilingbuddha Sep 13 '12 at 18:42
@talonmies Thank you for your reply. Please see edit. –  smilingbuddha Sep 13 '12 at 18:42
Have you tried using cuda-memcheck to make sure you aren't writing out of bounds in your kernel? This code is not complete enough for us to debug any better than you can. As a result, I have voted to close as "too localized". –  harrism Oct 4 '12 at 3:27

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