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We can do left shift operators in C/C++ for faster way to multiply integers with powers of 2.

But we cannot use left shift operators for floats or doubles because they are represented in different way, having an exponent component and a mantissa component.

My questions is that,

Is there any way? Like left shift operators for integers to faster multiply float numbers? Even with powers of 2??

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Floats have two elements (mantissa and exponent) which are powers of 2. What are you asking? –  S.Lott Oct 13 '09 at 19:23
don't try to outsmart your compiler without profound reasons –  Christoph Oct 13 '09 at 19:23
There are many pdfs explaining fast floating point product algorithms in google –  Tom Oct 13 '09 at 19:25
The compiler choses how to implement multiplication. The fact that you can do it faster by shifting is an old, old myth. –  nos Oct 13 '09 at 19:50
It's true that most compilers have recognized multiplication of integers by statically defined powers of two, and turned them into shifts (if helpful) for quite a while. That doesn't apply to floating point though. Having written a few compilers, and examined the output from quite a few more, I feel quite safe in stating categorically that know more than any compiler I've seen yet. Contrary to popular belief, compilers do NOT seem to be improving in this respect either -- the best FP optimization I've seen was on mainframes, decades ago. –  Jerry Coffin Oct 13 '09 at 20:10

4 Answers 4

No, you can't. But depending on your problem, you might be able to use SIMD instructions to perform one operation on several packed variables.. Read about the SSE2 instruction set. http://en.wikipedia.org/wiki/SSE2

In any event, if you are optimizing floating-point multiplications, you are in 99% of the cases looking in the wrong place. Without going on a major rant regarding premature optimization, at least justify it by performing proper profiling.

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You could do this:

float f = 5.0;
int* i = (int*)&f;
*i += 0x00800000;

But then you have the overhead of moving the float out of the register, into memory, then back into a different register, only to be flushed back to memory ... about 15 or so cycles more than if you'd just done fmul. Of course, that's even assuming your system has IEEE floats at all.

Don't try to optimize this. You should look at the rest of your program to find algorithmic optimizations instead of trying to discover ways to microoptimize things like floats. It will only end in blood and tears.

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floating point multiplies are shit quick anyway ... –  Goz Oct 13 '09 at 19:30
Gah.. that code gives me the willies. Also, passing data between the floating point registers CPU registers, is often a very costly operation. Which is why even float-to-int conversions suck. –  Mads Elvheim Oct 13 '09 at 19:36

The speed of your floating point operations apparently depend on the instruction mix. Explained here:


One alternative is to use fixedpoint floatingpoint instead "real" floats.

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Truly, any decent compiler would recognize static-time power-of-two constants and use the smartest operation.

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I have to guess that you rarely (if ever) really examine the output of a compiler. I have -- nearly none of them is very smart, especially when it comes to floating point. Intel's does about as well as any I've seen recently, and I'd barely rate it as "mediocre" in this respect -- most of the others are substantially worse. –  Jerry Coffin Oct 13 '09 at 20:11

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