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Imaging you got some memory containing bytes: [++++++-----++++--++-++++++++--------+++++]

Let us say "+" means allocated and "-" means free.

I'm searching for the formula of howto calculate the percentage of fragmentation.

Background: I'm implementing a tiny dynamic memory management for an embedded device with static memory. My goal is to have something i can use for storing small amounts of data. Mostly incoming packets over the wireless connection ~128 Bytes each.

Thank you for your help.

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Ahh...I see. It depends on how big my allocation blocks are. –  Bigbohne Jan 3 '11 at 18:21
If all your blocks are about the same size, and your memory is static and your system too small to use caching for memory access, fragmentation may not really matter - you have to keep track of which slots are free and which aren't, but jumping around in access shouldn't cost you much. That's in contrast to an electromechanical disk drive where you have to move the heads when you skip around, or perhaps a system of slow DRAM and chache where skipping around would cause a lot of cache misses. –  Chris Stratton Jan 4 '11 at 20:22

3 Answers 3

up vote 4 down vote accepted

As R. says, it depends exactly what you mean by "percentage of fragmentation" - but one simple formula you could use would be:

(free - freemax)
----------------   x 100%    (or 100% for free=0)


free     = total number of bytes free
freemax  = size of largest free block

That way, if all memory is in one big block, the fragmentation is 0%, and if memory is all carved up into hundreds of tiny blocks, it will be close to 100%.

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I like this. have to evaluate :) –  Bigbohne Jan 3 '11 at 18:25

Calculate how many 128 bytes packets you could fit in the current memory layout. Let be that number n.

Calculate how many 128 bytes packets you could fit in a memory layout with the same number of bytes allocated than the current one, but with no holes (that is, move all the + to the left for example). Let be that number N.

Your "fragmentation ratio" would be alpha = n/N

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If your allocations are all roughly the same size, just split your memory up into TOTAL/MAXSIZE pieces each consisting of MAXSIZE bytes. Then fragmentation is irrelevant.

To answer your question in general, there is no magic number for "fragmentation". You have to evaluate the merits of different functions in reflecting how fragmented memory is. Here is one I would recommend, as a function of a size n:

fragmentation(n) = -log(n * number_of_free_slots_of_size_n / total_bytes_free)

Note that the log is just there to map things to a "0 to infinity" scale; you should not actually evaluate that in practice. Instead you might simply evaluate:

freespace_quality(n) = n * number_of_free_slots_of_size_n / total_bytes_free

with 1.0 being ideal (able to allocate the maximum possible number of objects of size n) and 0.0 being very bad (unable to allocate any).

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