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As I understand it there's a 2 GB limit on single instances in .NET. I haven't paid a lot of attention to that since I have mainly worked on 32 bit OS so far. On 32 but it is more or less an artificial limitation anyway. However, I was quite surprised to learn that this limitation also applies on 64 bit .NET.

Since collections such as List<T> use an array to store items, that means that a .NET application running on 32 bit will be able to hold twice as many reference type items in a list compared to the same application running on 64 bit. That is quite surprising imo.

Does anyone know if this limitation is addressed in CLR 4.0 (I don't have a 4.0 installation at hand at the moment).

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Update 2012: As of .NET 4.5, on x64 systems, developers can now allocate objects larger (much larger) than 2GB. The 2GB limit is dead. centerspace.net/blog/nmath/large-matrices-and-vectors/… –  Paul Jul 27 '12 at 21:52
    
Correct link appears to be centerspace.net/blog/nmath/large-matrices-and-vectors –  Brian Rasmussen Jul 27 '12 at 22:13

3 Answers 3

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It's worse than that - you're process space, when you're working in .NET in 32bit is much smaller than the theoretical limit. In 32bit .NET apps, my experience is that you'll always tend to start getting out of memory errors somewhere around 1.2-1.4gb of memory usage (some people say they can get to 1.6... but I've never seen that). Of course, this isn't a problem on 64bit systems.

That being said, a single 2GB array of reference types, even on 64bit systems, is a huge amount of objects. Even with 8 byte references, you have the ability to allocate an array of 268,435,456 object references - each of which can be very large (up to 2GB, more if they're using nested objects). That's more memory than would ever really be required by most applications.

One of the members of the CLR team blogged about this, with some options for ways to work around these limitations. On a 64bit system, doing something like his BigArray<T> would be a viable solution to allocate any number of objects into an array - much more than the 2gb single object limit. P/Invoke can allow you to allocate larger arrays as well.


Edit: I should have mentioned this, as well - I do not believe this behavior has changed at all for .NET 4. The behavior has been unchanged since the beginning of .NET.


Edit: .NET 4.5 will now have the option in x64 to explicitly allow objects to be larger than 2gb by setting gcAllowVeryLargeObjects in the app.config.

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I am aware of all the limitations on 32 bit, but that is not really the point of my question. The surprise was that things are actually worse on 64 bit. I'll take a look at the blog post. Thanks for the link. –  Brian Rasmussen Jul 6 '09 at 16:56
    
No problem - I just added that because it's really not worse in 64bit than 32bit. The theoretical limit is 1/2 of the objects, but since you're really limited to a total of 1.4gb of process space, there's no way to make an array of object references even close to half the allowable size. (Each reference requires it to point to something, as well as the size of the reference.... so you really cap out most of the time around 1/4gb worth of references in .NET 32bit). –  Reed Copsey Jul 6 '09 at 17:02
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Brian: This is just one more (albeit minor, IMO) disadvantage of 64bit vs. 32bit. There are many reasons NOT to move to 64bit - but people seem to forget that, thinking that 64bit is automatically better. –  Reed Copsey Jul 6 '09 at 17:07
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I've read that Mono supports 64bit arrays in C# (e.g.arrays with more than 2^32 entries) –  Alex Black Jul 6 '09 at 18:41
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Yes, Mono does that. Note that the theoretical capability is there for all CLR implementations (all arrays have long LongLength property), but so far only Mono actually used it. –  Pavel Minaev Sep 24 '09 at 16:39

This is a big deal in the numerical field. Anyone using numerical class libraries in .NET has their matrices stored as arrays underneath. This is so native libraries can be called to do the number-crunching. The 2GB limit seriously hampers the size of matrices possible in 64-bit .NET. More here.

  • Trevor Misfeldt
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We've talked with Microsoft about this issue. It's unlikely to be fixed in .NET 4.0 but they seemed very receptive to finding a solution. I think we'll end up with long-indexed arrays but more likely some sort of giant blob object. –  Trevor Misfeldt Oct 8 '09 at 2:51
    
How does the performance of a 65536*65536 array of float compare with that of 65536 arrays of 65536 floats? The performance of 256 arrays of 256 floats will be inferior to that of a 256*256 array, since the latter will have better cache locality and the former won't, but if one is accessing rows of a matrix that are sufficiently localized to benefit from cache locality, I would think one the processor would be able to cache the object-table references. –  supercat Mar 24 '11 at 3:39

.NET Framework 4.5 allows creating arrays larger than 2GB on 64 bit platforms. This feature is not on by default, it has to be enabled via config file using the gcAllowVeryLargeObjects element.

http://msdn.microsoft.com/en-us/library/hh285054(v=vs.110).aspx

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I hadn't noticed. Thanks for the link. –  Brian Rasmussen Mar 9 '12 at 20:46
    
Still only 4GB!? why can't they do real 64-bit? –  Rick Minerich May 24 '12 at 4:22
    
@Rick where are you seeing 4GB ? –  Marc Gravell Jun 26 '12 at 6:44
    
@MarcGravell "The maximum number of elements in an array is UInt32.MaxValue." –  Rick Minerich Jul 10 '12 at 19:11
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@Rick k; so how big is an int[] with uint.MaxValue elements? –  Marc Gravell Jul 10 '12 at 19:13

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