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How to multiply two 64-bit integers by another 2 64-bit integers? I didn't find any instruction which can do it.

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What does "two 64 bit integers" mean in this context? Do you mean a pair of 64 bit integers (a la complex numbers), or a single 128 bit integer represented as a pair of 64 bit integers? – Eric Brown Jul 25 '13 at 16:21
    
I mean a single m128i bit integer represented as a pair of 64 bit integers – Ines Karmani Jul 25 '13 at 16:27
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Possible duplicate of this question, then. – Eric Brown Jul 25 '13 at 16:45

You would need to implement your own 64 bit multiplication routine using 32 bit multiply operations. It's probably not going to be any more efficient than just doing this with scalar code though, particularly as there will be a lot of shuffling of the vectors to get all the required operations.

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From the top of my head, wasn't there a pmuldqq or something in SSE4 added? – hirschhornsalz Jul 26 '13 at 16:44
    
There's a pmuldq in SSE4 which is a 32x32 => 64 bit multiply, so you could use that as a building block for a 64x64 bit multiply. – Paul R Jul 26 '13 at 16:55
    
Do you know the best scalar algorithm for this (assuming you only have 32-bit hardware)? This is what I would do. I would divide each number into its upper and lower 32-bit part and then do (ab) = (al+ah)*(blbh) = t1 + t2 + t3 + t4 where t1=albl, t2=albh, t3=ahbl t4=ahbh. Each term would be a 64-bit number. Then t2 and t3 would have to be split again into low and high and the final number would be (ab)l = t1 + t2l + t3l, (ab)h = t4 + t2h + t3h + c, where c is any carry from (a*b)l. That's 4 mults, and 7 adds. Is this somewhere on SO? – Z boson Feb 18 '15 at 17:26
    
I've never implemented this myself, but it should be something like the method you suggest. I can't imagine that it will be very efficient though, so probably only worthwhile if you have other 64 bit SIMD operations that you want to combine it with. – Paul R Feb 18 '15 at 17:35

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