# Is MOD operation more CPU intensive than multiplication?

Why is MOD operation more expensive than multiplication by a bit more than a factor of 2? Please be more specific about how CPU performs division operation and returns the result for MOD operation.

In the following example the threads each run for a second. The test was performed on a SPARC processor.

// multiplication

int a = 10234;
while (true) {
opers++;
a = a * a;
a++;
}

// opers ~ 26 * 10^6 in a sec.
}

// MOD

int a = 10234;
while (true) {
opers++;
a = a % 10000007;
a++;
}

// opers ~ 12 * 10^6 in a sec.
}
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Both code examples are the same. –  Robert Harvey Nov 5 '10 at 19:33
Fixed the problem. –  Leonid Nov 5 '10 at 19:35
Where is the version with +? ^^ –  user166390 Nov 5 '10 at 19:51
Compare multiplication algorithms (en.wikipedia.org/wiki/Binary_multiplier) with integer division algorithms (en.wikipedia.org/wiki/Division_(digital)). I don't know what the sparc implements for division. Maybe the non-restoring algorithm. –  indiv Nov 5 '10 at 20:21
-1 score for this question? Can the downvoters explain / comment? –  Rajan Aug 4 '11 at 0:03

Algorithms (processors execute the division and the multiplication by algorithms implemented in gates) for division are more costly than for multiplication. As a matter of fact, some algorithms for division which have a good complexity are using the multiplication as a basic step.

Even if you use the naive algorithms that are learned in school. They both have the same asymptotic complexity, but the constant for the division is greater (you have to find out the digit and that is not trivial, so you can mess up and have to fix the mess).

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Instruction latencies and throughput for AMD and Intel x86 processors

One operation is just inherently slower at the CPU :)

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MOD is a division operation, not a multiplication operation. Division is more expensive than multiplication.