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I would like to swap two variables. and i would like to do it through the pipeline using a Read After Write hazard to my advantage.


STORE X, Y ---------- ---------- ---------- ----------
STORE Y, X STORE X, Y ---------- ---------- ----------
---------- STORE Y, X STORE X, Y ---------- ----------
---------- ---------- STORE Y, X STORE X, Y ----------
---------- ---------- ---------- STORE Y, X STORE X, Y
---------- ---------- ---------- ---------- STORE Y, X

how do i go about telling the compiler to do that (and exactly that) without automatic locks and warning flags? can you suggest any literature/keywords?


  • -> target: modern architectures which support multistation (more than 4) pipelining

  • -> this is not related to any particular 'problem'. just for the sake of science.

current hurdles:

  • if you know how to ignore datahazards, please share.
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Pipeline hazards are dealt with by the CPU, not the compiler... –  Oliver Charlesworth Dec 8 '11 at 13:06
The C++ abstract machine does not have an instruction pipeline. What is the actual problem that you are trying to solve? –  Mankarse Dec 8 '11 at 13:32
@CLASSIFIED - In that case you would be better off writing the whole thing in the assembly language for the architecture that you are interested in. C++ provides almost no access to the underlying hardware (although compilers often extend the language to give you slightly more control). –  Mankarse Dec 8 '11 at 13:49
+1 for an interesting question for which I have no idea of the answer. –  John Dibling Dec 8 '11 at 14:01
@CLASSIFIED: If you're after portability, then I'd suggest writing T tmp = x; x = y; y = tmp; (or simply std::swap(x,y)). I would hope that the compiler would always do the most optimal thing given the limitations of the architecture. –  Oliver Charlesworth Dec 8 '11 at 14:06

2 Answers 2

I suggest that you read the first parts of Intel's optimization manual. Then you will realize that a modern, out-of-order, speculative CPU does not even respect your assembly language. Manipulating pipeline to your advantage? Based on this document, I'd say -- forget it.

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you're right - might not be the most efficient way to get it done at all - however it still respects instructions which translate into individual microops. I'm still gonna try to get it in there. –  CLASSIFIED Dec 9 '11 at 18:44

This would depend on which CPU you're targeting, and which compiler. You don't specify either.

In general, a CPU will go to great lengths to pretend that everything is in-order-executed, even when in reality it's superscalar behind the scenes. Code that tries to take advantage of hazards doesn't break, but instead it executes more slowly as the CPU will wait for the hazard to clear before continuing. Otherwise, almost all code would fail on future generations of the CPU as superscalar behavior increases.

In general, unless you're on a very specialized architecture and you have complete assembly-level control of execution, you will not be able to go anywhere with this idea.

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