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The code compiles with no errors, but access violation message comes up when debugging. Can any one please point out what is wrong with the code below?

My code actually runs 1000 iterations of 1000 instances of the same equation its a recursive nonlinear equation. The aim is simply to appreciate the ability to run multiple(iterative)equations in parallel.

#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <math.h>
#include <conio.h>
#include <cuda.h>
#include <cutil.h>
#include <time.h> 

#define TOTAL_THREADS 1024
#define THREADS_PER_BLOCK 256
#define TOTAL_BLOCKS 4
#define VALUES_PER_THREAD 1000
#define THETA_VALUES_PER_THREAD 15

__global__ void my_compute(float *y_d, float *theta_d, float *u_d) 
{
   int offset = ((blockIdx.x * blockDim.x) + threadIdx.x) * VALUES_PER_THREAD;
   int theta_offset = ((blockIdx.x * blockDim.x) + threadIdx.x) * THETA_VALUES_PER_THREAD;

   for (int i = 7; i < 1000; i++) {
      y_d[offset + i] = theta_d[theta_offset + 0] * y_d[offset + i - 1] +
                        theta_d[theta_offset + 1] * y_d[offset + i - 3] +
                        theta_d[theta_offset + 2] * u_d[offset + i - 5] * u_d[offset + i - 4] +
                        theta_d[theta_offset + 3] + 
                        theta_d[theta_offset + 4] * u_d[offset + i - 6] +
                        theta_d[theta_offset + 5] * u_d[offset + i - 4] * y_d[offset + i - 6] +
                        theta_d[theta_offset + 6] * u_d[offset + i - 7] +
                        theta_d[theta_offset + 7] * u_d[offset + i - 7] * u_d[offset + i - 6] +
                        theta_d[theta_offset + 8] * y_d[offset + i - 4] +
                        theta_d[theta_offset + 9] * y_d[offset + i - 5] +
                        theta_d[theta_offset + 10] * u_d[offset + i - 4] * y_d[offset + i - 5] +
                        theta_d[theta_offset + 11] * u_d[offset + i - 4] * y_d[offset + i - 2] +
                        theta_d[theta_offset + 12] * u_d[offset + i - 7] * u_d[offset + i - 3] +
                        theta_d[theta_offset + 13] * u_d[offset + i - 5] +
                        theta_d[theta_offset + 14] * u_d[offset + i - 4];
   }
}

int main(void) 
{
   float y[1000000];
   FILE * fpoo;
   FILE * u;
   float theta[15000];
   float u_data[1000000];
   float *y_d;
   float *theta_d;
   float *u_d;
   cudaEvent_t start, stop;
   float time;

   cudaEventCreate(&start);
   cudaEventCreate(&stop);

   //memory allocation
   cudaMalloc((void **) &y_d, 1000000 * sizeof(float));
   cudaMalloc((void **) &theta_d, 15000 * sizeof(float));
   cudaMalloc((void **) &u_d, 1000000 * sizeof(float));
   cudaEventRecord(start, 0);

   // importing data for theta and input of model//
   fpoo = fopen("c:\\Fly_theta.txt", "r");
   u = fopen("c:\\Fly_u.txt", "r");

   for (int i = 0; i < 1000; i++) {
      for (int j = 0; j < 15; j++)
         fscanf(fpoo, "%f\n", &theta[15 * i + j]);
   } 
   for (int i = 0; i < 1000; i++) {
      for (int j = 0; j < 1000; j++)
         fscanf(u, "%f\n", &u_data[1000 * i + j]);
   }
   //initialising past input with the value of zero//
   for (int i = 0; i < 1000; i++) {
      for (int j = 0; j < 8; j++)
         y[8 * i + j] = 0;
   }
   cudaMemcpy(y_d, y, 1000000 * sizeof(float), cudaMemcpyHostToDevice);

   cudaMemcpy(theta_d, theta, 15000 * sizeof(float), cudaMemcpyHostToDevice);
   cudaMemcpy(u_d, u_data, 1000000 * sizeof(float), cudaMemcpyHostToDevice);

   //calling kernel function//
   my_compute <<< 4, 256 >>> (y_d, theta_d, u_d);

   cudaMemcpy(y, y_d, 1000000 * sizeof(float), cudaMemcpyDeviceToHost);

   for (int i = 0; i < 1000; i++) {
      for (int j = 0; j < 1000; j++)
         printf("%f", y[1000 * i + j]);
   } 
   cudaEventRecord(stop, 0);
   cudaEventSynchronize(stop);
   cudaEventElapsedTime(&time, start, stop);
   cudaEventDestroy(start);
   cudaEventDestroy(stop);
   printf("Time to generate:  %3.1f ms \n", time);

   cudaFree(y_d);
   cudaFree(theta_d);
   cudaFree(u_d);

   fclose(u);
   fclose(fpoo);

   //fclose();
   _getche();
   return 0;
}
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3  
Try spaces and indentation. This is a pain to read. –  Kerrek SB Aug 14 '12 at 21:34
    
@KerrekSB Sorry about that, the bulk of y_d[offset+i] is actually a single equation. in my actual code its literally a single line. –  jomizu Aug 14 '12 at 21:49
    
I don't see where blockDim or blockIdx are declared. –  jsn Aug 14 '12 at 21:58
    
@jomizu: I didn't mean that line -- I meant everywhere else. The code is really just very hard to read and parse mentally. –  Kerrek SB Aug 14 '12 at 22:11
1  
Which line causes the access violation? And could you still please fix your indentation. You can see what the formatted post looks like at the moment. 4 spaces per level would to the trick. –  Bart Aug 14 '12 at 22:32
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4 Answers

You may have a stack overflow.

Try adding a static specifier to your array declarations:

static float y[1000000];
static float theta[15000];
static float u_data[1000000];
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1  
You could consider dynamically allocating the host memory. Placing MBs of data on the stack is never a good idea. –  Greg Smith Aug 15 '12 at 3:18
    
@GregSmith I have now done that, but i'm getting some weird results which are not the anticipated values. –  jomizu Aug 15 '12 at 14:06
    
code is still not giving me the right values. –  jomizu Aug 15 '12 at 16:03
    
@Eugene pls how do i get it to be no more than 14999, and does that mean every other memory allocation is ok? –  jomizu Aug 15 '12 at 20:19
    
someone pls come to my aid on this code –  jomizu Aug 16 '12 at 0:45
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I tried you code with cuda-gdb from Toolkit 5.0 with integrated cuda-memcheck.

What it shown me is that on the thread (232,0,0) of block (3,0,0) theta_offset is 15000 - and from my expection of you code it looks like it should never be more then 14999 (theta_d size is 15000 so that is max index that can be used)

Note that 4 blocks * 256 threads * 15 elements/thread = 15360.

share|improve this answer
    
@CygnusX1 here is the code –  jomizu Aug 15 '12 at 20:04
    
You get theta_offset to 15000 by ((3 * 256) + 232) * 15 –  Eugene Aug 15 '12 at 20:56
    
You allocations seem to be ok, I don't have data files so I commented out code that reads them. The problem is purely arithmetic. –  Eugene Aug 15 '12 at 20:57
    
i'm happy to send you the data files if thats ok. –  jomizu Aug 15 '12 at 21:06
    
I don't think I need the data yet :) Have you found the problem I am speaking about? Are you using cuda-gdb for debugging? Use "set cuda memcheck on". You can set the same flag in the Nsight Eclipse Edition UI in the debug configuration dialog. –  Eugene Aug 15 '12 at 21:22
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Eugene is spot on. The problem is the original allocation for theta_d :

The byte size of theta_d should be :

 THREADS_PER_BLOCK * TOTAL_BLOCKS * THETA_VALUES_PER_THREAD * ELEMENT_SIZE = 
 256 * 4 * 15 * 4 =  61440

to ensure that the access pattern you have selected can access all elements of the array. In the app, theta_d is declared as :

cudaMalloc((void **) &theta_d, 15000 * sizeof(float));

Effectively, theta_d is only 60000 bytes in size. As a result, the kernel will hit errors for all accesses past byte 60000.

One solution would be to size the allocation based on the constants you have already #defined.If you replace 15000 with "THREADS_PER_BLOCK * TOTAL_BLOCKS * THETA_VALUES_PER_THREAD", it will size the allocation correctly. Try the following main function:

int main(void) 
{
   float y[1000000];
   FILE * fpoo;
   FILE * u;
   float theta[THREADS_PER_BLOCK * TOTAL_BLOCKS * THETA_VALUES_PER_THREAD];
   float u_data[1000000];
   float *y_d;
   float *theta_d;
   float *u_d;
   cudaEvent_t start, stop;
   float time;

   cudaEventCreate(&start);
   cudaEventCreate(&stop);

   //memory allocation
   cudaMalloc((void **) &y_d, 1000000 * sizeof(float));
   cudaMalloc((void **) &theta_d, THREADS_PER_BLOCK * TOTAL_BLOCKS * THETA_VALUES_PER_THREAD* sizeof(float));
   cudaMalloc((void **) &u_d, 1000000 * sizeof(float));
   cudaEventRecord(start, 0);

   // importing data for theta and input of model//
   fpoo = fopen("c:\\Fly_theta.txt", "r");
   u = fopen("c:\\Fly_u.txt", "r");

   for (int i = 0; i < 1000; i++) {
      for (int j = 0; j < 15; j++)
         fscanf(fpoo, "%f\n", &theta[15 * i + j]);
   } 
   for (int i = 0; i < 1000; i++) {
      for (int j = 0; j < 1000; j++)
         fscanf(u, "%f\n", &u_data[1000 * i + j]);
   }
   //initialising past input with the value of zero//
   for (int i = 0; i < 1000; i++) {
      for (int j = 0; j < 8; j++)
         y[8 * i + j] = 0;
   }
   cudaMemcpy(y_d, y, 1000000 * sizeof(float), cudaMemcpyHostToDevice);

   cudaMemcpy(theta_d, theta, THREADS_PER_BLOCK * TOTAL_BLOCKS * THETA_VALUES_PER_THREAD* sizeof(float), cudaMemcpyHostToDevice);
   cudaMemcpy(u_d, u_data, 1000000 * sizeof(float), cudaMemcpyHostToDevice);

   //calling kernel function//
   my_compute <<< 4, 256 >>> (y_d, theta_d, u_d);

   cudaMemcpy(y, y_d, 1000000 * sizeof(float), cudaMemcpyDeviceToHost);

   for (int i = 0; i < 1000; i++) {
      for (int j = 0; j < 1000; j++)
         printf("%f", y[1000 * i + j]);
   } 
   cudaEventRecord(stop, 0);
   cudaEventSynchronize(stop);
   cudaEventElapsedTime(&time, start, stop);
   cudaEventDestroy(start);
   cudaEventDestroy(stop);
   printf("Time to generate:  %3.1f ms \n", time);

   cudaFree(y_d);
   cudaFree(theta_d);
   cudaFree(u_d);

   fclose(u);
   fclose(fpoo);

   //fclose();
   _getche();
   return 0;
}
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The Code is indeed correct. the 'fopen for loops' for reading data from file was not reading data as expected. so I changed it to the following loop below. my code now runs perfectly. thanks to everyone that contributed.

// importing data for theta and input of model

fpoo= fopen("c:\\Fly_theta.txt","r");

u= fopen("c:\\Fly_u.txt","r");


        for(int j=0;j<15;j++)
            {
                fscanf(fpoo,"%f\n",&theta[j]);
            }
         for(int i=1;i<1000;i++)
         {
             for(int j=0;j<15;j++)
             {
                theta[15*i+j]=theta[j];
             }
         }
        for(int j=0;j<1000;j++)
            {
                fscanf(u,"%f\n",&u_data[j]);
            }
        for(int i=1;i<1000;i++)
         {
             for(int j=0;j<1000;j++)
             {
                u_data[1000*i+j]=u_data[j];
             }
        }
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