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Why does a busy loop often uses 100% of the cpu time while loops that implement complex algorithms would use much much less?
thanks :)

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sleep once in a while... – ismail May 1 '11 at 19:36
I know, but why do we need to sleep? (not as humans but as mach...ines? O_o) – Idov May 1 '11 at 19:37
up vote 3 down vote accepted

A complex algorithm can certainly use 100% of the cpu. However, many loops that implement complex algorithms either explicitly yield the thread periodically and/or have some code that calls down into the OS at some point, where either the thread is yielded or something that requires a wait (such as calling on a co-processor) happens.

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JUMP instructions in the CPU architecture are inefficient because they cause the pipeline to flush. A busy loop is effectively an infinite series of JUMP instructions.

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This is why i always unroll my busy loops, for better performance. – Tom Anderson May 1 '11 at 19:52
On the other hand, the branch prediction in the CPU works really well for unconditional jumps. – Greg Hewgill May 1 '11 at 19:56

A "busy loop" does not have to talk to memory, so the CPU is basically doing all work itself without waiting for external input.

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Depends what that "complex algorithm" is doing. Does it do Hard Drive access? Network requests? Interact with any other hardware? When that happens the CPU will have to wait for those things to complete, so it sits around doing nothing (or does a context switch to some other work) while it waits for that information to come back.

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First, if your busy loop uses 100% then you aren't doing it right. Sleep for a bit.

Second, complex algorithms often involve memory to store values as opposed to just looping. Any time the thread needs to use an external resource like memory, disk, etc. the CPU has to wait a bit. This is why you would see it use less than 100%.

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Wow! lots of answers while I typed this. I need to go back to my Mavis Beacon typing software! – Richard Brightwell May 1 '11 at 19:44
I would say that if your busy loop doesn't use 100% of your CPU then you aren't doing it right. That is what a busy loop is. It is essential to its nature. I think what you're getting at is that a busy loop is generally not what you want, which is a fine point. – Tom Anderson May 1 '11 at 19:51
I wasn't sure what the accepted definition for busy loop was, so I looked at What is a busy loop? It seemed the most accepted answer was a polling loop. I did write a program to warm my sandwiches which did a 100% busy loop, so I can see a use for that too. – Richard Brightwell May 1 '11 at 20:01
Interesting. I've always understood 'busy wait' to mean something like 'without any suspension of execution', so not including a poll, sleep, or yield. Perhaps it depends on context - i mostly come across busy waits in the really low-level threading algorithms, like the implementation of a semaphore (where you go around a tight loop with a CAS instruction until you've acquired the lock). There, there's no way to poll, sleep, or yield, because this is the code that's implementing polling, sleeping, and yielding! – Tom Anderson May 1 '11 at 20:32
And yes, i've dried a pair of socks by iterated modular multiplication of bigints, so there is definitely a thermal use too. – Tom Anderson May 1 '11 at 20:32

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