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I am using Red Gates ANTS memory profiler to debug a memory leak. It keeps warning me that:

Memory Fragmentation may be causing .NET to reserver too much free memory.


Memory Fragmentation is affecting the size of the largest object that can be allocated

Because I have OCD, this problem must be resolved.

What are some standard coding practices that help avoid memory fragmentation. Can you defragment it through some .NET methods? Would it even help?

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It would help to have some information about what kind of app this is. Memory fragmentation would occur if you are leaving memory pinned (or using I/O functions that pin I/O buffers behind the scenes), allocations from native allocators (such as the COM task allocator), or create a lot of large objects, because the LOH doesn't get compacted. The .NET garbage collector already does compact the generational dynamic allocations, which has a side effect of defragmenting free space. If that's not happening, it's because something is preventing objects from being moved. – Ben Voigt Mar 9 '11 at 3:12
Because I have OCD, this problem must be resolved. + 1 for this comment alone - I actually like the question though – BrokenGlass Mar 9 '11 at 3:12
Uninstall tools that bitch at you but offer no help to diagnose the problem. Memory fragmentation is a fact of life, there's nothing you can do to prevent it that wouldn't be drastically unpractical. The low-fragmentation heap allocator is already the default for Vista and up. It is only a problem if you allocate more than half of the available address space anyway, pigs don't fly. – Hans Passant Mar 9 '11 at 3:35
@Hans - The low fragmentation heap is not relevant for exclusively managed code though - the managed heap doesn't use the native heap at all. The rest of your comment is totally spot on though. – Stewart Mar 9 '11 at 10:43
@Stewart - most fragmentation would be caused by unmanaged code. There's lots of it, even in a pure managed program. The GC causes little fragmentation since it compacts the heap, something unmanaged code cannot do. – Hans Passant Mar 9 '11 at 15:22
up vote 8 down vote accepted

You know, I somewhat doubt the memory profiler here. The memory management system in .NET actually tries to defragment the heap for you by moving around memory (that's why you need to pin memory for it to be shared with an external DLL).

Large memory allocations taken over longer periods of time is prone to more fragmentation. While small ephemeral (short) memory requests are unlikely to cause fragmentation in .NET.

Here's also something worth thinking about. With the current GC of .NET, memory allocated close in time, is typically spaced close together in space. Which is the opposite of fragmentation. i.e. You should allocate memory the way you intend to access it.

Is it a managed code only or does it contains stuff like P/Invoke, unmanaged memory (Marshal.AllocHGlobal) or stuff like GCHandle.Alloc(obj, GCHandleType.Pinned)?

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The GC doesn't compact the large object heap, which is where objects > 85KB live. Once the LOH is fragmented, there's no way to defragment it. – Tim Robinson Jan 27 '12 at 13:32

The GC heap treats large object allocations differently. It doesn't compact them, but instead just combines adjacent free blocks (like a traditional unmanaged memory store).

More info here:

So the best strategy with very large objects is to allocate them once and then hold on to them and reuse them.

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Out of curiosity, I wonder why LOH object sizes aren't rounded up to the next multiple of 4096? It would seem like that would facilitate compaction in some OS contexts (simply move virtual page pointers rather than copying memory), and would also greatly reduce fragmentation. Since LOH objects are generally a minimum of 85K, overhead from rounding up to 4K blocks would be 5% or less. – supercat Mar 18 '11 at 16:04

The .NET Framework 4.5.1, has the ability to explicitly compact the large object heap (LOH) during garbage collection.

GCSettings.LargeObjectHeapCompactionMode = GCLargeObjectHeapCompactionMode.CompactOnce;

See more info in GCSettings.LargeObjectHeapCompactionMode

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