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I would like to know why, in the real world, compilers produce Assembly code, rather than microinstructions.

If you're already bound to one architecture, why not go one step further and free the processor from having to turn assembly-code into microinstructions at Runtime?

I think perhaps there's a implementation bottleneck somewhere but I haven't found anything on Google.

EDIT by microinstructions I mean: if you assembly instruction is ADD(R1,R2), the microinstructions would be. Load R1 to the ALU, load R2 to the ALU, execute the operation, load the results back onto R1. Another way to see this is to equate one microinstruction to one clock-cycle.

I was under the impression that microinstruction was the 'official' name. Apparently there's some mileage variation here.


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Define what you mean by micro-instruction. The binary? Or the decoded micro-ops within the processor? –  Mysticial Oct 15 '11 at 1:57
the micro operations.. I call them microinstructions. –  Felipe Almeida Oct 15 '11 at 1:57
Whats with the down-vote and close vote? This is a perfectly legitimate question. –  Shawn Mclean Oct 15 '11 at 1:58
You mean the decoded micro-ops in the processor? (Just double-checking.) If so, the answer is it's not possible because the decoded micro-ops will vary even within the same ISA and processor line. –  Mysticial Oct 15 '11 at 1:58
the compilers produce the machine code that the processor is able to execute. If there were a processor that could execute microcode directly AND users had access to it then you might see something like that. Not all processors are microcoded so you are already generating and executing the lowest level machine code. Except perhaps for the transmeta experiment the low level code is likely not what you are expecting and not something can write apps in. –  dwelch Oct 15 '11 at 2:11

5 Answers 5

up vote 16 down vote accepted

Compilers don't produce micro-instructions because processors don't execute micro-instructions. They are an implementation detail of the chip, not something exposed outside the chip. There's no way to provide micro-instructions to a chip.

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Because an x86 CPU doesn't execute micro operations, it executes opcodes. You can not create a binary image that contains micro operations since there is no way to encode them in a way that the CPU understands.

What you are suggesting is basically a new RISC-style instruction set for x86 CPUs. The reason that isn't happening is because it would break compatibility with the vast amount of applications and operating systems written for the x86 instruction set.

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That was one of the ideas behind RISC and later EPIC architectures. To simply put: "if we reduce complexity of CPU instructions and make them lower level, compilers can arrange things much better than a CPU can do in realtime". So these designs brought instructions closer to microcodes. However performance has not been that satisfactory, especially with EPIC. Itanium is a living example of it.

RISC's advantages are not performance-wise though. It's simple design means less cost, less footprint and less power consumption, and relatively outstanding performance. That's why today RISC has a widespread use on embedded devices.

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The answer is quite easy.

(Some) compilers do indeed generate code sequences like load r1, load r2, add r2 to r1. But this are precisely the machine code instructions (that you call microcode). These instructions are the one and only interface between the outer world and the innards of a processor.

(Other compilers generate just C and let a C backend like gcc care about the dirty details.)

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Compilers for Transport Triggered Architectures do just that. They have to. But as noted, other processors typically do not expose their microcode interface at all (and they usually don't publicly document it either) so there's no point in trying to use it.

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