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Say if core A is modifying a variable X and core B is reading that variable (X). Ofcourse in this case a cache coherence protocol will update the cache of core B, because X has been modified by core A and ofcourse this cache coherence will slowdown execution on core B. However, will this cache coherence also affect the performance of core A, assuming that variable X resides in its cache.

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Yes. There are several ways that it can affect the performance. The standard protocol that people use is some variant of MSI (Modified, Shared, Invalid) sometimes with O (Owner) and often E (Exclusive) added to the protocol. In your example, core A would start in the Modified (or Exclusive) state, and core B's read would force core A to change it to the Shared state. This action takes up cycles in the cache since there are only so many operations that the core can perform at any given time. The impact of this on Core A isn't very high though since it is not in the critical path. The bigger impact is if Core A does a write again. Since the cache line is in the shared (or invalid) state, it must issue a request to upgrade itself to M or E. That request must go to Core B. This operation is on the critical path and the write can't finish until the cache block is upgraded. That said, writes are generally buffered and the processor will generally not be blocked on this operation.

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In my case Core A is writing frequently, and core B sometimes read frequently, so I guess it will hurt the performance quite a bit. right? – pythonic Apr 7 '12 at 17:15
If most of what core a is doing is writing and most of what core b is doing is reading, then yes, you can run into problems. This is generally called ping-ponging. What sort of communication are you trying to do? There are tons of papers on this stuff. For example, if you're producing something on core A and want to consume it on core B, then you should use a cacheable, lockless queue datastructure that avoids as much ping-ponging as possible. (It should have concepts like shadow head and shadow tail.) – Nathan Binkert Apr 7 '12 at 17:32
Nathan, thanks for such an informative comment. I'll look into this ping-ponging think in more detail. – pythonic Apr 7 '12 at 17:34

Yes, on present-day microarchitectures using ME(O)SI coherence protocols, it will slow down A's updates to X as well. The reason for this is that B's read will put the cache line containing X into the 'shared' state before copying it, and then A's write will have to invalidate B's copy to enter the 'exclusive' state before it can modify it again.

That all said, A's writes to X might not actually stall A's execution pipeline. This depends on the memory consistency model of the architecture and programming language, and whether the write is forced out as an atomic operation or a subsequent write fence.

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