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So I have a problem that needs to do a couple of nested loops like this

for j=0:N
do

   var=value1_j-value2_j //both of this values depend on the value of j

   array[j]=malloc(var)

   for i=0:var
   do

   array[j][var]=something

   end

end

So the thing is that I have j arrays of variable sizes for which I need to calculate a bunch of things. So I can't treat array as a matrix but as an array of arrays. How can I treat this with Cuda since I don't know the value of var before defining the dimensions of the thread grid? Is there a way to redefine the number of threads on a grid within a kernel and maybe call another kernel. Should I use two kernels maybe?

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1  
You could call the same kernel successively in a loop, which steps through the j rows of array and processes the var elements in that row. The loop could also include the cudaMemcpy operations needed for each row, which would avoid the pointer-to-pointer difficulty with allocating cuda nested variable-width arrays. –  Robert Crovella May 17 '13 at 22:21
1  
Are loop iterations independent? If yes, than in addition to doing multiple kernel launches as @RobertCrovella suggests you may also do those on separate stream - overlapping memory copies with compute and improving the occupancy. –  Eugene May 17 '13 at 22:31
    
You mean call the kernel on a loop within another kernel or from host code? I'm trying to avoid copying many times from host to device to avoid performance issues. The ideal would be to paralelize all vars within all j's at the same time. Does that seem possible here or the best I could hope for is to paralelize only the inner loop? –  Atirag May 17 '13 at 22:40
    
Hi Eugene, yes the loop iterations are independent. I don't know if I'm understanding. Can you please elaborate? –  Atirag May 17 '13 at 22:42
1  
If you have a 2-D host array of variable-width malloc'ed rows, unless you're willing to re-organize the data (say by packing it into a single 1-D array), it will require that you loop through the rows, doing a cudaMemcpy per row. That looping will be unavoidable. Since you have to loop anyway (or else re-organize your data) I'm not sure there would be much penalty for running a kernel per row. And with the suggestion by @Eugene this may offer an opportunity to hide some of the cost of data copying via copy-compute overlap, which would require an approach that uses multiple streams. –  Robert Crovella May 18 '13 at 17:32
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