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I wanted to to make the following kernel code parallel, In the code below size of a is n, b and c is 8*n and of d is some value less than n(eg : 3*n/4)

  if (a[b[i]]!=a[c[i]])

Since the number of elements of a and d aren't the same I am facing a problem to give i=get_global_id(0), since by doing this, in some elements of d there would be nothing placed if the 'if'' condition violates...! So how do I make parallel..? If not this then, is it possible to delete the "no value" positions of d in the kernel if I store the positions where the values are placed in d in a different array..?

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This can be made parallel; it involves additional resources and processing and performance can be achieved only for very huge values of N. –  Chanakya.sun Apr 3 '13 at 6:04
so you want to stop if d is filled, or is there some guarantee that there are no more than that many matches? –  mfa Apr 3 '13 at 20:37
create a d array large enough and fill all the values with NAN. Run the Dimension on J; and have the for loop in each kernels, the d array should be created to the max possible value of j, then compact the d array only with the values not NAN. –  Chanakya.sun Apr 4 '13 at 5:51
@Chanakya.sun compacting the d array would be anyways sequential which Idont want.. I will make my doubt more clear.. Below is the parallel code which is giving a problem, i=get_global_id(0); if (a[b[i]]!=a[c[i]]) { d[i]=b[i]; } I will give an eg: of what I exactly want to do. a=[1, 6, 6 ,10 ,6, 20, 16, 20, 16, 20, 1, 6, 10] b=[1, 2, 4, 6, 8, 9, 11, 13] c=[3, 4, 6, 7 ,13 ,10 12 9] –  Shreedhar Pawar Apr 5 '13 at 16:56
Now here in this case a[b[0]]!=a[c[0]], so condition is satisfied and d[0]=b[0]=1; Now a[b[1]]==a[c[1]], so d[1] is left blank if I execute the parallel code. and a[b[2]]!=a[c[2]], so now d gets filled at its 2nd value i.e. in d[2], whereas I want it to be filled in d[1]... –  Shreedhar Pawar Apr 5 '13 at 16:58

1 Answer 1

Basically this is parallel array compaction based on a predicate. Have a look at techniques described http://http.developer.nvidia.com/GPUGems3/gpugems3_ch39.html

or in thrust http://docs.nvidia.com/cuda/thrust/index.html

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