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cuda - How can I implement a custom atomic function involving several variables?

I'd like to implement this atomic function in CUDA:

__device__ float lowest;   // global var
__device__ int  lowIdx;    // global var
float realNum;   // thread reg var
int index;       // thread reg var

if(realNum < lowest) {
 lowest= realNum;  // the new lowest
 lowIdx= index;    // update the 'low' index
}

I don't believe I can do this with any of the atomic functions. I need to lock down a couple global memory loc's for a couple instructions. Might I be able to implement this with PTXAS (assembly) code?

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As I stated in my second comment above, it's possible to combine your two 32-bit quantities into a single 64-bit atomically managed quantity, and deal with the problem that way. We then manage the 64-bit quantity atomically using the arbitrary atomic example as a rough guide. Obviously you can't extend this idea beyond two 32-bit quantities. Here's an example:

#include <stdio.h>
#define DSIZE 5000
#define nTPB 256

#define cudaCheckErrors(msg) 
    do { 
        cudaError_t __err = cudaGetLastError(); 
        if (__err != cudaSuccess) { 
            fprintf(stderr, "Fatal error: %s (%s at %s:%d)
", 
                msg, cudaGetErrorString(__err), 
                __FILE__, __LINE__); 
            fprintf(stderr, "*** FAILED - ABORTING
"); 
            exit(1); 
        } 
    } while (0)

typedef union  {
  float floats[2];                 // floats[0] = lowest
  int ints[2];                     // ints[1] = lowIdx
  unsigned long long int ulong;    // for atomic update
} my_atomics;

__device__ my_atomics test;

__device__ unsigned long long int my_atomicMin(unsigned long long int* address, float val1, int val2)
{
    my_atomics loc, loctest;
    loc.floats[0] = val1;
    loc.ints[1] = val2;
    loctest.ulong = *address;
    while (loctest.floats[0] >  val1) 
      loctest.ulong = atomicCAS(address, loctest.ulong,  loc.ulong);
    return loctest.ulong;
}


__global__ void min_test(const float* data)
{

    int idx = (blockDim.x * blockIdx.x) + threadIdx.x;
    if (idx < DSIZE)
      my_atomicMin(&(test.ulong), data[idx],idx);
}

int main() {

  float *d_data, *h_data;
  my_atomics my_init;
  my_init.floats[0] = 10.0f;
  my_init.ints[1] = DSIZE;

  h_data = (float *)malloc(DSIZE * sizeof(float));
  if (h_data == 0) {printf("malloc fail
"); return 1;}
  cudaMalloc((void **)&d_data, DSIZE * sizeof(float));
  cudaCheckErrors("cm1 fail");
  // create random floats between 0 and 1
  for (int i = 0; i < DSIZE; i++) h_data[i] = rand()/(float)RAND_MAX;
  cudaMemcpy(d_data, h_data, DSIZE*sizeof(float), cudaMemcpyHostToDevice);
  cudaCheckErrors("cmcp1 fail");
  cudaMemcpyToSymbol(test, &(my_init.ulong), sizeof(unsigned long long int));
  cudaCheckErrors("cmcp2 fail");
  min_test<<<(DSIZE+nTPB-1)/nTPB, nTPB>>>(d_data);
  cudaDeviceSynchronize();
  cudaCheckErrors("kernel fail");

  cudaMemcpyFromSymbol(&(my_init.ulong), test, sizeof(unsigned long long int));
  cudaCheckErrors("cmcp3 fail");

  printf("device min result = %f
", my_init.floats[0]);
  printf("device idx result = %d
", my_init.ints[1]);

  float host_val = 10.0f;
  int host_idx = DSIZE;
  for (int i=0; i<DSIZE; i++)
    if (h_data[i] < host_val){
      host_val = h_data[i];
      host_idx = i;
      }

  printf("host min result = %f
", host_val);
  printf("host idx result = %d
", host_idx);
  return 0;
}

Here is a similar example that does atomic update of 2 float quantities.


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