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I am not really trying to optimize anything, but I remember hearing this from programmers all the time, that I took it as a truth. After all they are supposed to know this stuff.

But I wonder why is division actually slower than multiplication? Isn't division just a glorified subtraction, and multiplication is a glorified addition? So mathematically I don't see why going one way or the other has computationally very different costs.

Can anyone please clarify the reason/cause of this so I know, instead of what I heard from other programmer's that I asked before which is: "because".

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"After all they are supposed to know this stuff." - You might be surprised what most people don't know. –  David Apr 1 '13 at 15:01
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You will have to ask an electronics engineer, it is a circuit design problem. Creating a hardware multiplier is pretty easy, a hardware divider is not. Practical divider circuits are iterative and therefore take longer. Ask at electronics.stackexchange.com –  Hans Passant Apr 1 '13 at 15:08
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Wikipedia (cf. article on FLOPS) and other sources (en.community.dell.com/techcenter/high-performance-computing/w/…) claim that typical CPUs can execute 4 floating point operations per clock cycle. This seems to be regardless of the type. Following this, division would be as expensive/cheap as multiplication. Who is volunteering to do a benchmark? –  Axel Kemper Apr 1 '13 at 15:52
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In short: quotient estimate and correction steps. –  Brett Hale Apr 1 '13 at 17:18
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You're right that multiplication breaks down into multiple additions and division breaks down into multiple subtractions. The difference is that the additions in multiplication can be done in parallel, whereas in division, you can't do the next subtraction until finish the previous one and do a comparison. So a hardware multiplier will exploit this inherent parallelism by computing and summing up many sub-products simultaneously at the cost of increased area real-estate. Division does not have this luxury. –  Mysticial Apr 3 '13 at 4:07
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CPU's ALU (Arithmetic-Logic Unit) executes algorithms, though they are implemented in hardware. Classic multiplications algorithms includes Wallace tree and Dadda tree. More information is available here. More sophisticated techniques are available in newer processors. Generally, processors strive to parallelize bit-pairs operations in order the minimize the clock cycles required. Multiplication algorithms can be parallelized quite effectively (though more transistors are required).

Division algorithms can't be parallelized as efficiently. The most efficient division algorithms are quite complex (The Pentium FDIV bug demonstrates the level of complexity). Generally, they requires more clock cycles per bit. If you're after more technical details, here is a nice explanation from Intel. Intel actually patented their division algorithm.

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