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I am trying to find out what an x86 processor does when it encounters a store conditional instruction. For instance does it stall the front end of the pipeline and wait for the ROB buffer to become empty before it stops stalling the front end and execute the SC? Basically does it force the processor to become non speculative...


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2 Answers 2

I'm guessing that you're referring to the CMOV*cc* instructions.

I don't know about older x86 processors, but modern ones (ever since they became speculative and out of order) implement conditional stores as:

old value = mem[dest address]
if (condition) 
    mem[dest address] = new value
    mem[dest address] = old value

The condition part can be implemented in hardware like this:

    |\ |
----| \|
new |  \
    |   |    dest
    |   |---------
    |   |     |
  __|  /      |
 |  | /       |
 |  |/        |

So there's no need to break speculation. A store will in fact take place. The condition determines if the data to be written will be the old value or a new one.

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A (generic) x86 processor does none of the things you mentioned. It just fetches one instruction after another and executes them.

Everything else is handled transparently and heavily depends on which processor you are looking at, so there is no generic answer to your question.

If you are interested in methods around stalling problems you should start at the wikipedia page on x86 (register renaming to mention one. Just throw away results from the non-taken branch).

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