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I've read a bit about compressed object pointers in some 64 bits Java VM implementations. As I understood it, the principle is storing a reference as a relative 32 bits address offset from one object to another instead of a full 64 bits pointer, to gain memory.

I believe that this kind of optimization is not currently applied to the .NET CLR. At least I couldn't find anything about it. Could it be potentially applied to it or would that be an impossible/useless/performance-degrading optimization because of how the CLR internally works?

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Pretty pointless in .NET, just set the platform target to x86. The only point of running in 64-bit mode is to get past the 2 gigabyte virtual memory limit. Using compressed pointers utterly defeats that point. –  Hans Passant Jul 30 '11 at 14:47
I disagree. There are ways of doing compressed pointers that allow up to 32gb (or more) of memory, so there is value. As is the value in the performance wins. (of course, this is all hypothetical in CLR today.) –  Trent Gray-Donald Aug 2 '11 at 13:11

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Though I'm not sure if you can do such a thing in .NET, a 64 bit machine generally has an abundant amount of memory (generally 4 or 8G), so saving a few 4 bytes won't have much effect. I would class it as "not very useful".

A quick Google hasn't shown me any signs of .NET being able to support (or even any interest in pointer compression/ORA).

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I disagree. While there may not be a 64 bit CLR, there would be value in compressed object pointers if they were to build one. 8 extra registers in 64 bit mode and better cache efficiency are the main reasons. –  Trent Gray-Donald Aug 2 '11 at 13:06
To highlight "better cache efficiency": L2 cache is a few megabytes, and stuff outside the cache takes ~100 cycles to access. –  Blaisorblade Jan 26 at 22:03

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