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Is addition(+) operation more complex than comparison operation (>), both in integer as well as floating point arithmetic? I would appreciate answer in the context of both microprocessor- and FPGA-based systems.

My thought: I think comparison and addition are the same thing when we talk about microprocessor-based systems because comparison a>b can be solved by checking the sign bit of (a-b), i.e, an addition operation. But, in the context of FPGA-based systems, I guess the complexity of comparison operator can be reduced?

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How is this C++ related? In the language (and for integral types) they are just basic primitive operations. The language does not consider how complex they are in any particular architecture – David Rodríguez - dribeas Jun 25 '12 at 15:24
    
How are you defining complexity? On an FPGA, I guess you're talking about resource usage. On a microprocessor, I guess you're talking about cycle count? Either way, this is probably off-topic, and should be on electronics.stackexchange.com instead – Oliver Charlesworth Jun 25 '12 at 15:26
    
so that I can have an opinion of C++ developers (for desktop PCs) as well. I know they are not very much concerned with this thing but just wanted to know how things are in microprocessors for desktop PCs. – ubaabd Jun 25 '12 at 15:27
    
@Oli Charlesworth Oh my bad. I searched for hardware stackexchange but it turned out to be that there is no such thing as hardware dot stackexchange so i posted it here! I didn't know about electronics.stackexchange. – ubaabd Jun 25 '12 at 15:28
    
@Oli Charlesworth: My question can be put as follows: If I construct a special hardware for comparison and don't perform it using the sign bit of (a-b)>0, will it save me cycle count (microprocessor-based systems) or resource usage(fpga-based systems). – ubaabd Jun 25 '12 at 15:31
up vote 1 down vote accepted

Comparison is a bit "simpler" for integers, because we only need to compare each bit from msb to lsb (without a carry bit, which is needed by addition). In terms of complexity, both are O(log n) though.

But I doubt you can actually measure this small difference in terms of resource usage (logic slices or power consumption).

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So, its of no use if I convert an algorithm based on additions to an algorithm based on comparisons? – ubaabd Jun 25 '12 at 15:34
    
Why didn't you just ask your real question as your question - about how to optimize something? – tenfour Jun 25 '12 at 15:38
    
@tenfour In my opinion, it is always better to ask the specific question on these forums instead of putting it in generality. There will be many answers to 'How to optimize?' whereas the only thing I wanted to know whether 'an addition more complex than comparison' in current systems. – ubaabd Jun 25 '12 at 15:43
    
@timos Thanks.. – ubaabd Jun 25 '12 at 15:44

In theory, comparison could be quicker you just need to compare each bits and that can be done in parallel. This comparison is done in two stages, one wich compares all bits, and a second one which check if one bits is on. (it's technically (a0^b0)|(a1^b1)|...(an^bn). All the ai^bi can be done at the same time. That should be O(log(n))

However, for the addition, you need to propagate the carry from each bit to the other so you end up in O(n).

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