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Running a .NET application on Windows Server 2008 x64 with 16GB of RAM. This application needs to fetch and analyze a very large amount of data (about 64GB), and keep it all in memory at one time.

What I expect to see: Process size expands past 16GB to 64GB. Windows uses virtual memory to page the extra data to/from disk as needed. This is the classic virtual memory use case.

What I actually see: Process size is limited to the amount of physical memory (16GB). Application spends 99.8% of its time in the garbage collector.

Why is our application failing to use virtual memory? Is this a problem in the configuration of the .NET garbage collector, or in the Windows x64 virtual memory manager itself? What can I do to get our application to use virtual memory rather than be limited to physical memory?

Thanks.

-- Brian

Update: I have written a very small program that exhibits the same behavior:

using System;

namespace GCTest
{
    class Program
    {
        static void Main()
        {
            byte[][] arrays = new byte[100000000][];
            for (int i = 0; i < arrays.Length; ++i)
            {
                arrays[i] = new byte[320];
                if (i % 100000 == 0)
                {
                    Console.WriteLine("{0} arrays allocated", i);
                    System.Threading.Thread.Sleep(100);
                }
            }
        }
    }
}

If you want to try it, make sure to build for x64. You may have to modify the constants a bit to stress your system. The behavior I see is that the process bogs down as it approaches a size of 16GB. There is no error message or exception thrown. Performance monitor reports that the % of CPU time in GC approaches 100%.

Isn't this unacceptable? Where's the virtual memory system?

  • What are you using to determine the size of the process? (Let's just eliminate the easy options first :) ) – Paolo Jun 22 '10 at 14:40
  • "Commit size" from Windows Task Manager. Also using "# Total committed Bytes" in Performance Monitor. I'm pretty sure I'm measuring the process's virtual memory size rather than its physical working set. – brianberns Jun 22 '10 at 16:03
  • Can I ask the obvious? Do you really need to load all of this into memory at once? Is it possible to take another approach and do some sort of manual paging on your own? – CodingGorilla Jun 22 '10 at 21:58
  • @Gorilla: The application was designed with much smaller data sets in mind, so it does all analysis in memory. We could rewrite it, but that would be a massive effort. Meanwhile, there's no technical reason why a server with 16GB of RAM and 500GB of free hard drive space should have such a problem handling this analysis. It's like asking whether a 32-bit Windows NT machine with 16MB of RAM should be able to load 64MB of data into memory. It might not be lightning fast, but it should at least work. – brianberns Jun 22 '10 at 22:47
  • @brianberns OK, imagine on our NT box there are other processes that wish to stay in memory (let's say the operating system) and those processes take up 12MB RAM. Your 64MB application grows from nothing quickly and adds an item to an expanding collection, but before it does this it checks every elements in the collection to see if it's already there. Not all applications are ideal - they have issues. This is an example of an application which is going to page a lot. It can't check its collection without attempting to page everything else out. – Tim Lloyd Jun 22 '10 at 23:51
10

Have you checked to make sure that your paging file is configured so that it can expand to that size?

Update

I've been playing around with this quite a bit with your given example, and here's what I see.

System: Windows 7 64bit, 6GB of triple-channel RAM, 8 cores.

  1. You need an additional paging file on another spindle from your OS or this sort of investigation will hose your machine. If everything is fighting over the same paging file, it makes things worse.

  2. I am seeing a large amount of data being promoted from generation to generation in the GC, plus a large number of GC sweeps\collections, and a massive amount of page faults as a result as physical memory limits are reached. I can only assume that when physical memory is exhausted\very high, that this triggers generation sweeps and promotions thus causing a large amount of paged-out memory to be touched which is leading to a death spriral as touched memory is paged in and other memory is forced out. The whole thing ends in a soggy mess. This seems to be inevitable when allocating a large number of long-lived objects which end up in the Small Object Heap.

Now compare this to allocating objects in a fashion will allocate them directly into the Large Object Heap (which does not suffer the same sweeping and promotion issues):

private static void Main()
{
    const int MaxNodeCount = 100000000;
    const int LargeObjectSize = (85 * 1000);

    LinkedList<byte[]> list = new LinkedList<byte[]>();

    for (long i = 0; i < MaxNodeCount; ++i)
    {
        list.AddLast(new byte[LargeObjectSize]);

        if (i % 100000 == 0)
        {
            Console.WriteLine("{0:N0} 'approx' extra bytes allocated.",
               ((i + 1) * LargeObjectSize));
        }
    }
}

This works as expected i.e. virtual memory is used and then eventually exhausted - 54GB in my environment\configuration.

So it appears that allocating a mass of long-lived small objects will eventually lead to a vicious cycle in the GC as generation sweeps and promotions are made when physical memory has been exhausted - it's a page-file death spiral.

Update 2

Whilst investigating the issue I played with a number of options\configurations which made no appreciable difference:

  • Forcing Server GC mode.
  • Configuring low latency GC.
  • Various combinations of forcing GC to try to amortize GC.
  • Min\Max process working sets.
  • No, but shouldn't the Windows virtual memory manager automatically start paging, at least to some degree past 16GB? What's the point of having virtual memory if it's limited by the amount of physical memory? – brianberns Jun 22 '10 at 16:08
  • It is configurable - worth checking. Problems could range from an unexpected policy, to some bright spark turning paging off. – Tim Lloyd Jun 22 '10 at 16:08
  • OK, I increased the pagefile to 30GB, but it had no effect. I think the .NET garbage collector is preventing me from allocating more than 16GB worth of objects, so the Windows virtual memory system never has a chance to start paging. – brianberns Jun 22 '10 at 17:41
  • Thank you very much for your updates. The problem for me, of course, is that my objects are naturally smaller than LargeObjectSize (as are most objects in a typical OO application). Are you seeing actual paging to/from the OS paging file? My hunch is that it's not happening that way. Instead, I suspect that the .NET garbage collector "panics" as physical memory is exhausted, and thus is constantly interrupting the program to look for unreferenced objects that it can deallocate. As a result, the process never even gets a chance to allocate any memory beyond the amount of physical RAM present. – brianberns Jun 22 '10 at 21:13
  • 1
    @brianberns Yes I am definitely seeing a massive amount of hard page faults\page file activity. You can see this in perfmon. I am assuming that a Low Memory Situation is being triggered by the OS is causing GC activity and that then this is causing the page-file death spiral as generations are scanned and so memory is paged in and forced out right on the very limits. – Tim Lloyd Jun 22 '10 at 21:19
2

It sounds like you're not keeping a reference to the large data. The garbage collector will not collect referenced objects.

  • I don't think that's relevant. None of the data is actually garbage - it's all referenced. Thus, I'm not expecting the GC to collect any memory at all. It appears that the GC is consuming 100% of CPU because the process has run out of physical memory and .NET is trying to free some. However, there's nothing to be freed - ideally, the process should just expand using virtual memory instead of spending all its time in the GC trying to free (non-existent) unused objects. – brianberns Jun 22 '10 at 16:06
  • If you're allocating 64 GB worth of data, but only 16 GB is actually allocated, then the rest of it isn't being referenced and has been GC'ed. Unless I'm not understanding your question. – Stephen Cleary Jun 22 '10 at 16:21
  • You're not understanding the question. I'm trying to allocate 64GB of data, but the process bogs down after I've only allocated 16GB of data. I never get a chance to allocate the rest of the data. – brianberns Jun 22 '10 at 16:50
  • Even if it's not garbage, the collector still has to walk through 16GB of data to decide what's in and what's ready to throw out which would cause it to potentially touch paged data and end of in the "death spiral" Stephen describes. Have you tried using the server GC version (mscorsvr.dll) instead of the default workstation version (mscorwks.dll)? – Paolo Jun 22 '10 at 20:40
  • @Paolo I stupidly updated the wrong post. See my update. I did try a lot of things including: forcing server GC, low latency GC, changing working set sizes, forced GC - they did not make any appreciable difference. – Tim Lloyd Jun 22 '10 at 20:44

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