# Is Multiplication Faster Than Comparison in .NET?

Good morning, afternoon or night,

Up until today, I thought comparison was one of the basic processor instructions, and so that it was one of the fastest operations one can do in a computer... On the other hand I know multiplication in sometimes trickier and involves lots of bits operations. However, I was a little shocked to look at the results of the following code:

``````Stopwatch Test = new Stopwatch();

int     a = 0;
int     i = 0, j = 0, l = 0;
double  c = 0, d = 0;

for (i = 0; i < 32; i++)
{
Test.Start();

for (j = Int32.MaxValue, l = 1; j != 0; j = -j + ((j < 0) ? -1 : 1), l = -l)
{
a = l * j;
}

Test.Stop();

Console.WriteLine("Product: {0}", Test.Elapsed.TotalMilliseconds);
c += Test.Elapsed.TotalMilliseconds;

Test.Reset();
Test.Start();

for (j = Int32.MaxValue, l = 1; j != 0; j = -j + ((j < 0) ? -1 : 1), l = -l)
{
a = (j < 0) ? -j : j;
}

Test.Stop();

Console.WriteLine("Comparison: {0}", Test.Elapsed.TotalMilliseconds);
d += Test.Elapsed.TotalMilliseconds;

Test.Reset();
}

Console.WriteLine("Product: {0}", c / 32);
Console.WriteLine("Comparison: {0}", d / 32);
}
``````

Result:

Product: 8558.6
Comparison: 9799.7

Quick explanation: `j` is an ancillary alternate variable which goes like `(...), 11, -10, 9, -8, 7, (...)` until it reaches zero, `l` is a variable which stores `j`'s sign, and `a` is the test variable, which I want always to be equal to the modulus of `j`. The goal of the test was to check whether it is faster to set `a` to this value using multiplication or the conditional operator.

Can anyone please comment on these results?

Thank you very much.

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I don't have a strong .Net background but since you are not using the result of the assignment (a) anywhere, I would expect the assignment to be left out of the entire run, leaving you comparing two identical loops. – Lieven Keersmaekers Mar 15 '11 at 8:57
@Lieven: you're right, in fact optimizer (in release mode) removes all the operations involving variable "a" unless you used it, for example printing the value at the end. (tested checking the generated IL) – digEmAll Mar 15 '11 at 11:54
Another major problem is that you are testing the effects of memory alignment on jump targets with this code. Just swap the two tests to get very different results. – Hans Passant Mar 16 '11 at 0:21

You should try to run this test a 1000 or so times and use avrage to compare you never now what CLR is doing in background

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-1. The test is run 32 times, and the two before-to-last intructions are exactly calculating the average... – Miguel Mar 15 '11 at 9:02

I guess one comment I would make is that you are doing a lot more in the second operation:

``````a = (j < 0) ? -j : j;
``````

Not only are you doing a comparison, but also effectivly a "if..else.." with the ? operator and a negation of j.

-

It can often be very difficult to make such assertions about an optimising compiler. They do lots of tricks that make simple cases different from real code. That said, you aren't just doing a comparison, you're doing a compare/assign in a very tight loop. The thread you're working on may have to pause many times at the branch; the multiplication can assign as many times as it likes, as long as the last assignment is still last, so many multiplies can be going on at once.

As is the general rule, make your code clear and ignore minor timing issues unless they become a problem. If you do have a speed problem a good tracing/timing tool will guide you much better than knowing if one operation is faster than other in a specific case.

-

Your second test it's not a mere comparison, but an if statement.

That's probably translated in a `JUMP/BRANCH` instruction in `CPU`, involving branch prediction (with possible blocks of the pipeline) and then is likely slower than a simple multiplication (even if not so much).

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Integer multiplication takes only three clock cycles on an Intel Core Duo, too. – Tim Pietzcker Mar 15 '11 at 8:56
@Tim: yes, as stated for example here. A conditional jump requires 3 assembly instructions (2 actually performed), but given that the result is (usually) unpredictable, it causes pipelining problems therefore it's slower... – digEmAll Mar 15 '11 at 9:13
Yeah, you were right about the compiler optimizing out the code inside of the loops. I neglected to check the generated IL before posting an answer. I should have learned by now that most profiling code is somehow incorrect. ;-) – Cody Gray Mar 15 '11 at 9:39
@Cody: eh eh, after a lot of mistakes like that, I always check IL twice before profiling :) – digEmAll Mar 15 '11 at 10:36
I missed the link in my comment to @Tim Pietzcker --> software.intel.com/en-us/forums/showthread.php?t=61481 – digEmAll Mar 15 '11 at 11:40