I would like to know if current cpus avoid multiplying two numbers when at least one of them is a zero. Thanks

Let's say there are 1% of multiplications by zero (and is probably much lower) in an average program. That would mean that comparision to zero would have to 200 times faster than multiplying to be just account for overhead (and much more for this to be useful in practice). I think you are looking at this question too much from human perspective. When you multiply, you clearly see that one of the multiplicands is zero and conclude. But however, things are very different with computers. Computer actually has to check all 64 or 32 bits to be sure that something is equal to zero.



This varies widely depending on the CPU and (in some cases) the type(s) of the operands. Older/simpler CPUs typically use a multiplication algorithm something like this:
Since the loop executes only when/if That, however, is fundamentally a one bit at a time algorithm. For example, when multiplying 32bit operands, if each bit has a 50:50 chance of being set, we expect approximately 16 iterations on average. A newer, highend CPU will typically work with at least two bits at a time, and perhaps even more than that. Instead of a single piece of hardware executing multiple iterations, it'll typically pipeline the operation with separate (albeit, essentially identical) hardware for each stage of the multiplication (though these won't normally show up as separate stages on a normal pipeline diagram for the processor). This means the execution will have the same latency (and throughput) regardless of the operands. On average it improves latency a little bit and throughput a lot, but does lead to every operation happening at the same speed, regardless of operands. 


I would expect that a modern desktop CPU would have such a thing in it. 

