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I'm starting using thrust in CUDA project, and I want to do something that appears quite trivial to me but I can not understand how to do it. Basically, I have some information in a device_vector on global memory that I need to use multiple times inside kernels. The problem is that most of the times I want to use only some elements of it, in an unordered sequence that has repetitions.

In practice, I have this call:

    thrust::make_tuple(thrust::device_ptr<float>(PX), thrust::device_ptr<float>(PY),
    thrust::device_ptr<float>(PSegX), thrust::device_ptr<float>(PSegY),
    thrust::make_tuple(thrust::device_ptr<float>(PX + n), thrust::device_ptr<float>(PY + n),
    thrust::device_ptr<float>(PSegX + n), thrust::device_ptr<float>(PSegY + n),
    thrust::device_ptr<float>(outD + n)
// myFunc takes as input a Tuple<float, float> t1, and a Tuple<float, float, float> t2, and writes to t2.2, as output

In the example above, PSegX and PSegX contain the elements that are in fact already in device memory, but to make the above work I have copied them once again from the CPU to those vectors in the right order. Now, is it possible to have the above call take as input a list of offsets like:

myOffsetsX = [0,1,2,2,2,1,1,5]

So that my function will access another device vector allSegs at the position myOffsetsX[0], myOffsetsX[1] and so, using thus the values allSegs[myOffsetsX[0]], allSegs[myOffsetsX[1]] etc. instead of PSegX[0], PSegX[1]... ? This would allow me to skip the copy/re-arrangement of data and subsequent CPU->GPU transfers.

I have looked into the permutation_iterator, but I don't think it is what I need because, as far as I have understood, it supports only sequences with no equal values...

Many thanks in advance.

share|improve this question
Did you try addressing the elements in their current layout directly in the kernel? If it turns out that your kernel is not memory bound, then rearranging the elements to minimize global memory transactions would result in a net loss. –  Roger Dahl Nov 15 '12 at 19:12
@Neenster: Fundamentally, what are you trying to compute? –  Jared Hoberock Nov 16 '12 at 6:01

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