2

I adapted the parallel reduction example for openCL for a bunch of floats. Now I wanted to expand the code to include cl_float3. So I want to find the minimum among a array of cl_float3. I thought it was a straight forward expansion from float to float3 in kernel. But I am receiving garbage values when i return from the kernel. Below is the kernel:

__kernel void pmin3(__global float3  *src,                                           
                __global float3  *gmin,                                           
                __local  float3  *lmin,                                           
                __global float  *dbg,                                            
                uint           nitems,                                          
                uint           dev)                                             
{                                                                                   
    uint count  = nitems     / get_global_size(0);                                   
    uint idx    = (dev == 0) ? get_global_id(0) * count                              
                        : get_global_id(0);                                     
    uint stride = (dev == 0) ? 1 : get_global_size(0);                               

    // Private min for the work-item                                                 

    float3 pmin = (float3)(pow(2.0,32.0)-1,pow(2.0,32.0)-1,pow(2.0,32.0)-1);                                               

    for (int n = 0; n < count; n++, idx += stride) {                                 
       pmin.x = min(pmin.x,src[idx].x);
       pmin.y = min(pmin.y,src[idx].y);
       pmin.z = min(pmin.z,src[idx].z);                                                
    }                                                                                

    // Reduce values within the work-group into local memory                         

    barrier(CLK_LOCAL_MEM_FENCE);                                                    
    if (get_local_id(0) == 0)
    lmin[0] = (float3)(pow(2.0,32.0)-1,pow(2.0,32.0)-1,pow(2.0,32.0)-1);                                                          
    for (int n = 0; n < get_local_size(0); n++) {                                    
    barrier(CLK_LOCAL_MEM_FENCE);                                                  
    if (get_local_id(0) == n) {
                lmin[0].x = min(lmin[0].x,pmin.x);
                lmin[0].y = min(lmin[0].y,pmin.y);
                lmin[0].z = min(lmin[0].z,pmin.z);
       }                         
   }                                                                                                                                                             
   barrier(CLK_LOCAL_MEM_FENCE);                                                                                                                                    
   // Write to __global gmin which will contain the work-group minima                                                                                               
   if (get_local_id(0) == 0)
      gmin[get_group_id(0)] = lmin[0];                                                                                                       
   // Collect debug information                                                                                                                                       
   if (get_global_id(0) == 0) {                                                    
      dbg[0] = get_num_groups(0);                                                   
      dbg[1] = get_global_size(0);                                                  
      dbg[2] = count;                                                               
      dbg[3] = stride;                                                              
   }                                                                               
 }                      

 __kernel void min_reduce3( __global float3  *gmin)                                         
{                                                                                   
  for (int n = 0; n < get_global_size(0); n++) {                                   
    barrier(CLK_GLOBAL_MEM_FENCE);                                                 
    if (get_global_id(0) == n) {
                gmin[0].x = min(gmin[0].x,gmin[n].x);
                gmin[0].y = min(gmin[0].y,gmin[n].y);                     
                gmin[0].z = min(gmin[0].z,gmin[n].z);
      }
 }
 barrier(CLK_GLOBAL_MEM_FENCE);                                                                                                                              
}         

I think it is the problem with get_global_id(0) and get_global_size() which gives the entire size instead of the only the number of rows to be given. Any suggestions?

4
  • While I did not read the code to understand it, float3 is a bit of a strange type. I've seen it not defined in all in some implementations of OpenCL C, and note that cl_float3 on the host is just a typedef for cl_float4. Those issues might explain your problem?
    – dsharlet
    May 19, 2013 at 20:41
  • 1
    Just use float4's (and xyz) and spare yourself endless pain.
    – Thomas
    May 20, 2013 at 2:58
  • @dsharlet: float3 wasn't originally part of OpenCL; it was added in version 1.1. Because it's still aligned like a float4, it's reasonable to typdef it on architectures where 3-component operations are as expensive as 4-component ops (and that will include almost any SIMD architecture).
    – user57368
    May 20, 2013 at 6:43
  • Yeah, I got back to the float instead of keeping it in float3.
    – shunyo
    May 20, 2013 at 13:43

2 Answers 2

5

As others mentioned, float3 (and other type3 types) behave as float4 (and other type4 types) for the purposes of size and alignment. This could also be seen using the built-in vec_step function, which returns the number of elements in the input object's type, but returns 4 for type3 objects.

If your host code generates a packed float3 array - with each object taking the size and alignment of just 3 floats - then the proper way to use it from OpenCL is:

  • Use a float* parameter instead of float3*
  • Load the data using vload3
  • Store data using vstore3
1

float3 is 16-byte aligned. See OpenCL specs 6.1.5.

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