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On a 32 bit systems, the virtual address space was limited to 4GB, so it was important to defragment the memory, so that that we do not run out of address space just due to fragmentation problem.

However, In 64 bit systems, we have an address space of virtually unlimited size. To prevent overuse of the RAM or swap space, the free function could just return the memory to the OS when an unused block is of size bigger than 4096 (Page size) and never use that address again. So while I know freeing RAM is important, I'm saying that defragmentation is not.

So, my question is if memory defragmentation is still relevant. If not, then perhaps we can have a different sort of malloc/free for 64 bit systems, which might be more efficient if it does not try to spend time defragmenting memory. At least for applications that we know are not gonna use the whole 256 TB of address space. What are your opinions?

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closed as not constructive by mauris, Mat, Lazarus, Lightness Races in Orbit, shodanex Feb 28 '12 at 12:43

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In 64 bit systems, we have an address space of virtually unlimited size How's that, then? –  Lightness Races in Orbit Feb 28 '12 at 12:13
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Existing malloc/free implementations typically don't make any effort to defragment memory because they can't. They can't move things around in virtual memory and they have no idea how long an allocation will be around for, so they can't try to pick the chunks to give out wisely. –  David Schwartz Feb 28 '12 at 12:15
    
@MetallicPriest : Sorry to have to say this but this is a Q&A site, not an opinion site. –  Lazarus Feb 28 '12 at 12:16
    
@LightnessRacesinOrbit: Typical modern 64-bit operating systems support a 256TB address space. That's likely to remain effectively virtually unlimited (compared to physical memory, which is the relevant comparison here) for a long time. You'd need some amazing fragmentation! –  David Schwartz Feb 28 '12 at 12:17
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"256TB should be enough for anyone" ;-) –  Steve Jessop Feb 28 '12 at 12:19
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It'll always be relevant, but not because of the lack of address space, but because of memory coherency. Thanks to the 32bit systems we also already have many algorithms for low fragmentation allocators and free-space coalescing allocators, and there is no reason why they would just be ignored on 64bit systems, they don't add much overhead at all and the amortized overhead may even drop on a 64 bit system).

However, In 64 bit systems, we have an address space of virtually unlimited size.

Not even close, most systems only have 16TB of addressable virtual space, as currently only 44 bits are used for addressing as per AMD64's specs (kernel address space uses the upper bit as well).

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Also, the suggestion in the question of "and never use that address again" would go down the drain pretty fast. It's quite easy for an application to allocate 256TB over its entire lifespan. (and it would put more strain on the OS, current allocators only return memory to the OS in quite specific circumstances, to have every free() of > a pagesize result in a syscall that fiddles with memory mappings would not help in making things faster) –  nos Feb 28 '12 at 12:24
    
@nos: yeah, most of Googles BigTable based services probably break that regularly (hourly) –  Necrolis Feb 28 '12 at 12:29
    
Also, there's cost associated with virtual address space usage due to page tables and the like. It's small, but if you're wasting TBs, it will add up. –  David Schwartz Feb 28 '12 at 12:33
    
@DavidSchwartz: wasteful design/implementation is bad no matter how many resources you have IMO. –  Necrolis Feb 28 '12 at 12:36
    
@Necrolis: although you are right in every specific use case, I find it sometimes difficult to define the right trade-off between wasteful and keeping the code maintainable. –  Tobias Langner Feb 28 '12 at 12:47
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