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I'm setting up software to work with multiplication of large numbers, and I'd like to compare the speed between several techniques, one of which is OpenCL. How can I pass in and multiply two 256-bit unsigned integers? What are the performance implications of this? What's the practical limit of how large numbers can get before the performance becomes terrible?

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@Nesktarios were you able to figure out a workaround? I am facing the same problem. –  μακακας Nov 8 '13 at 19:42

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OpenCL only has intrinsic support for 8, 16, 32 and 64 bit integers. There might be vendor extensions for big integers on some platforms, but at least on the ones I am familiar with, there is not. If you want larger integer types, you will have to implement them yourself.

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Which, for 128bit integers, will cost you 4 64-bit multiplies and some shifts. –  Jasper Bekkers Jun 16 '11 at 8:29
@Jasper Bekkers: I think you're not exact, because with 64-bit multiplies you can loose precision. Nektarious will have to use mul_hi function as well to get the carry, resulting in 7 multiplies. –  Flavius Jun 16 '11 at 9:44
In fact, this number can by probably lowered by Karatsuba algorithm, but the need of mul_hi stands. –  Flavius Jun 16 '11 at 9:49
Yes, you are right. The 4 64-bit multiplies will result in a value that fits in a 128-bit value and that effectively means you can only multiply 64-bit values. –  Jasper Bekkers Jun 16 '11 at 10:50

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