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# What has a better performance: multiplication or division?

Which version is faster ? ```x * 0.5 or x / 2```

Ive had a course at the university called computer systems some time ago. From back then i remember that multiplying two values can be achieved with comparably "simple" logical gates but division is not a "native" operation and requires a sum register that is in a loop increased by the divisor and compared to the dividend.

Now i have to optimise an algorithm with a lot of divisions. Unfortunately its not just dividing by two so binary shifting is no option. Will it make a difference to change all divisions to multiplications ?

update:

I have changed my code and didnt notice any difference. You're probably right about compiler optimisations. Since all the answers were great ive upvoted them all. I chose rahul's answer because of the great link.

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well if you do a loop of 1mil operations and time it, I think you can get your answer that way :D – Lefteris Oct 19 '12 at 15:05
floating point multiplications and divisions are probably about equally fast. I suspect that for integers, multiplication is significantly faster. Also, integer operations tend to be faster than FP ones. In other words, iMult < iDiv < fpMult = fpDiv (WRT time) – Wug Oct 19 '12 at 15:09
Are you dividing by a constant or dividing by a variable? You didn't explicitly say. – Chris A. Oct 19 '12 at 15:17
@Wug, FP multiplication takes 5 cycles on modern Sandy Bridge processor, FP division takes 10 to 14 cycles for scalar SSE division and up to 29 cycles for vector AVX division. It also takes between 10 and 24 cycles to perform division in the x87 unit. – Hristo Iliev Oct 19 '12 at 15:26
On Sandy Bridge, depending on the instruction variant, for integer multiply the latency is 3 - 4 cycles, throughput is 1 - 2 cycles, whereas for integer division it's 20 - 103 cycles latency, 11 - 84 cycles throughput (the high end of the range is for 64 bit integer division, but even for 32 bit the numbers are still an order of magnitude greater than for multiplication). See Agner Fog's site for detailed info. – Paul R Oct 19 '12 at 18:46

Well if it is a single calculation you wil hardly notice any difference but if you talk about millions of transaction then definitely Division is costlier than Multiplication. You can always use whatever is the clearest and readable.

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Usually division is a lot more expensive than multiplication, but a smart compiler will often convert division by a compile-time constant to a multiplication anyway. If your compiler is not smart enough though, or if there are floating point accuracy issues, then you can always do the optimisation explicitly, e.g. change:

`````` float x = y / 2.5f;
``````

to:

`````` const float k = 1.0f / 2.5f;

...

float x = y * k;
``````

Note that this is most likely a case of premature optimisation - you should only do this kind of thing if you have profiled your code and positively identified division as being a performance bottlneck.

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That will likely depend on your specific CPU and the types of your arguments. For instance, in your example you're doing a floating-point multiplication but an integer division. (Probably, at least, in most languages I know of that use C syntax.)

If you are doing work in assembler, you can look up the specific instructions you are using and see how long they take.

If you are not doing work in assembler, you probably don't need to care. All modern compilers with optimization will change your operations in this way to the most appropriate instructions.

Your big wins on optimization will not be from twiddling the arithmetic like this. Instead, focus on how well you are using your cache. Consider whether there are algorithm changes that might speed things up.

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