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I've been trying to optimize a numeric program of mine, and have run into something of a mystery. I'm looping over code that performs thousands of floating point operations of which 1 call to pow - nevertheless, that call takes 5% of the time... That's not necessarily a critical issue, but it is odd, so I'd like to understand what's happening.

When I profiled for cache misses, VS.NET 2010RC's profiler reports that virtually all cache misses are occurring in std::pow... so... what's up with that? Is there a faster alternative? I tried powf, but that's only slightly faster; it's still responsible for an abnormal number of cache misses.

Why would a basic function like pow cause cache-misses?

Edit: this is not managed code. /Oi intrinsics are enabled, but the compiler may at its option ignore that. Replacing pow(x,y) by exp(y*log(x)) has similar performance - just now all the cache misses are in the log function.

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Is it managed code? – wheaties Mar 20 '10 at 19:08
    
depending on the values, power function may require lookups to table, rather than using nr method. It depends on implementation. – Anycorn Mar 20 '10 at 20:05
up vote 1 down vote accepted

If you replace std::pow(var) with another function, like std::max(var, var), does it still take up 5%? Do you still get all the cache misses?

I'm guessing no on time and yes on cache misses. Calculating powers is slower than many other operations (which are you using?). Calling out to code that's not in the cache will cause a cache miss no matter which function it is.

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Cache misses are slow - so if I remove the cache misses, I expect the performace to improve as well. For instance, in this same code, the previous huge source of cache misses was the first access of the input. I now _mm_prefetch the next iterations input before starting this iteration - and no more cache misses! – Eamon Nerbonne Mar 20 '10 at 19:57
    
Thanks for the idea of trying other functions - I'll experiment! – Eamon Nerbonne Mar 20 '10 at 19:58
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std::max is probably a bad example, as it'll almost certainly get inlined so the cache miss will disappear as well. – jalf Mar 20 '10 at 20:41
    
@jalf: good point, I forgot about that. Do you have any suggestions for a function that's less likely to be inlined but will still be measurably faster than pow? – Bill Mar 20 '10 at 21:03
    
@Eamon: As jalf pointed out, inlining could mess this up. (I assume you're compiling with optimizations including inlining.) – Bill Mar 20 '10 at 21:04

Yea.. it's slow. As to why in detail someone else who feels more confident can try to explain.

Want to speed it up ? here : http://martin.ankerl.com/2007/10/04/optimized-pow-approximation-for-java-and-c-c/

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Just keep in mind that's an approximation and doesn't actually give you the power. – Billy ONeal Mar 20 '10 at 19:23
    
He, neat! I don't need a lot of accuracy here, so this may be an option... – Eamon Nerbonne Mar 20 '10 at 19:59

Can you give more information on the 'x' as well as the environment where pow is evaluated?

What you are seeing might be the hardware prefetchers at work. Depending on the profiler the allocation of the 'cost' of the different assembly instructions might be incorrect, it should be even more frequent on long latency instructions like the ones needed to evaluate pow.

Added to that, I would use a real profiler like VTune/PTU than the one available in any Visual Studio version.

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Thanks for the idea! I looked into it, and... most values of x are near 1.0 (perhaps that's extra slow?) I also cross-compile the code in mingw, and there, it turns out it is, anyhow! By changing the code to exp-log style, the overall speed is almost twice as fast (!!), so apparently, x near 1.0 really messes up pow on gcc on x64 (sourceware.org/ml/libc-help/2009-01/msg00003.html). Perhaps the effect is there for pow on VS.NET too - just differently? – Eamon Nerbonne Mar 22 '10 at 8:52
    
Incidentally, what's wrong with the Visual Studio profiler? Looks quite reasonable to me; I'm using the 2010 RC version: blogs.msdn.com/profiler (I know it's an RC, but "free" is still a lot better price than "way overpriced" - apart from the fact that I don't feel like spending a day mulling over all the different VTUNE licensing options.) – Eamon Nerbonne Mar 22 '10 at 10:03

If your code involves some heavy number-crunching, I wouldn't be too surprised that std::pow is consuming 5% of the running time. Many numeric operations are very fast, so a slightly slower operation like std::pow will appear to take more time relative to the other already-fast operations. (That would also account for why you didn't see much improvement switching to std::powf.)

The cache misses are somewhat more puzzling, and it's hard to offer an explanation without more data. One possibility is that if your other code is so memory-intense that it gobbles up all the allocated cache, then it wouldn't be completely surprising that std::pow is taking all the punches on the cache misses.

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@John Ferninella: The OP says he has but one call to pow() in his program. – Billy ONeal Mar 20 '10 at 19:21
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@Billy: But he didn't say whether it was in a loop. – Bill Mar 20 '10 at 19:42
    
Also - doesn't std::pow act on valarrays? If so, how big are they? And - doesn't VC++ have a habit of doing double arithmetic instead of float? If so, might it be converting valarrays before processing them? – Steve314 Mar 20 '10 at 19:46
    
@Bill: Good point. (Plus I need to upvote a comment from another "Bill") :) – Billy ONeal Mar 20 '10 at 19:47
    
pow's slow, but it shouldn't be that slow - and in any case, why would pow be causeing cache-misses? If the rest of my code where memory intensive, I'd expect each cache miss caused by pow to be matched by a cache-miss later on when it needs to reload that other data - but no, pow causes well over 2/3's of cache misses (the precise amount varies depending on which variant of pow I use or if I use exp/log) – Eamon Nerbonne Mar 20 '10 at 19:54

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