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When my program performs a load operation with acquire semantics/store operation with release semantics or perhaps a full-fence, it invalidates the CPU's cache.
My question is this: which part of the cache is actually invalidated? only the cache-line that held the variable that I've used acquire/release? or perhaps the entire cache is invalidated? (L1 + L2 + L3 .. and so on?). Is there a difference in this subject when I use acquire/release semantics, or when i use a full-fence?

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What are you using to invalidate the CPU cache (Assembler, OS call?) and also which architecture/cpu type does this apply to? –  Johannes Rudolph Feb 7 '10 at 10:40
@Johannes Rudolph, Let's say that the actual code is written in C# (volatiles, Interlocked operations, MemoryBarriers), but eventually it's translated to the appropriate assembler opcode. In my personal situation I'm working with a SMP machine with Intel chipset (Xeon, particularly). But I'd like to know how this invalidation process occur in a more "general" spectrum (AMD/Intel, SMP/NUMA etc.) –  unknown Feb 7 '10 at 12:23

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up vote 1 down vote accepted

I'm not an expert on this, but I stumbled on this document, maybe it's helpful http://www.rdrop.com/users/paulmck/scalability/paper/whymb.2009.04.05a.pdf

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When you perform a load without fences or mutexes, then the loaded value could potentially come from anywhere, i.e, caches, registers (by way of compiler optimizations), or RAM... but from your question, you already knew this.

In most mutex implementations, when you acquire a mutex, a fence is always applied, either explicitly (e.g., mfence, barrier, etc.) or implicitly (e.g., lock prefix to lock the bus on x86). This causes the cache-lines of all caches on the path to be invalidated.

Note that the entire cache isn't invalidated, just the respective cache-lines for the memory location. This also includes the lines for the mutex (which is usually implemented as a value in memory).

Of course, there are architecture-specific details, but this is how it works in general.

Also note that this isn't the only reason for invalidating caches, as there may be operations on one CPU that would need caches on another one to be invalidated. Doing a google search for "cache coherence protocols" will provide you with a lot of information on this subject.

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