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Which one is faster -

val = val*10;


val = (val<<3) + (val<<2);

How much clock cycle does imul take when compared to shift instruction?


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Similar questions have been asked before -- the end result: "look at the instruction documentation provided by the manufacture" (this will vary per model) and "it's complicated" (modern super-scalar out-of-order pipelined CPUs can't just be tallied-up like a "traditional" microprocessor). – user166390 May 25 '11 at 6:11
At the very least, include the target CPU model. This may actually lead to something somewhat interesting. – user166390 May 25 '11 at 6:13
the more reasons to let the compiler worry about it: writing it the standard way is more readable (for humans), and there is more chance the compiler will do the right thing for the architecture at hand. – Henno Brandsma May 25 '11 at 6:14
I can't say this enough: Measure it! And lookup your CPU docs. – Michael Foukarakis May 25 '11 at 6:18
up vote 4 down vote accepted

In this case they probably take the same amount of cycles, though your manual "optimization" needs one more register (which can slow down the surrounding code):

val = val * 10;
lea    (%eax,%eax,4),%eax
add    %eax,%eax


val = (val<<3) + (val<<1);
lea    (%eax,%eax,1),%edx
lea    (%edx,%eax,8),%eax

The compiler knows how to do strength reduction, and probably much better than you. Also, when you port your code to other platform (say, ARM), the compiler knows how to do strenght reduction on that platform too (x86's LEA provides different optimization opportunities than ARM's ADD and RSB).

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This is the 21st century. Modern hardware and compilers know how to produce highly optimised code. Writing multiplication using shifts won't help performance but it will help you to produce code with bugs in.

You have demonstrated this yourself with code that multiplies by 12 rather than 10.

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+1 for "You have demonstrated this yourself with code that multiplies by 12 rather than 10". A most excellent answer! – Ben May 25 '11 at 9:36

I'd say, just write val = val * 10; or val *= 10;, and let the compiler worry about such questions.

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+1 "We should forget about small efficiencies, say about 97% of the time: premature optimization is the root of all evil" – ThiefMaster May 25 '11 at 6:12
Especially considering that this optimization can be done easily by the compiler if wanted (Warren has a whole chapter about that stuff in Hacker's delight). – Voo May 25 '11 at 11:45

Doing silly "optimizations" like this by hand will accomplish nothing but showing people you're out of touch with modern technology and programming practices.

With that said, there are a few cases where the compiler won't be able to optimize something like this. Consider an array of possible multiplicative factors, each consisting of exactly 2 nonzero bits, with code like:

x *= a[i];

If profiling shows this to be a major bottleneck in your program, you might consider replacing that by:

x = x<<s1[i] | x<<s2[i];

as long as you plan to measure the results. However I suspect it's rare to find a situation where this would help, or where it would even be possible.

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