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Starting with Pentium 4, Intel redesigned it's microprocessors and used internal RISC core under the old CISC instructions. Since Pentium 4 all CISC instructions are divided into smaller parts and then executed by mentioned RISC core.

At the beginning it was clear for me that Intel decided to hide new internal architecture and force programmers to use "CISC shell". Thanks to this decision Intel could fully redesign microprocessors architecture without breaking compatibility, it's reasonable.

However I don't understand one thing, why Intel still keeps an internal RISC instructions set hidden for so many years? Why wouldn't they let programmers use RISC instructions like the use old x86 CISC instructions set?

If Intel keeps backward compatibility for so long (we still have virtual 8086 mode next to 64 bit mode), Why don't they allow us compile programs so they will bypass CISC instructions and use RISC core directly? This will open natural way to slowly abandon x86 instructions set, which is deprecated nowadays (this is the main reason why Intel decided to use RISC core inside, right?).

Looking at new Intel 'Core i' series I see, that they only extends CISC instructions set adding AVX, SSE4 and others.

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No, the x86 instruction set is certainly not deprecated. It is as popular as ever. The reason Intel uses a set of RISC-like micro-instructions internally is because they can be processed more efficiently.

So a x86 CPU works by having a pretty heavy-duty decoder in the frontend, which accepts x86 instructions, and converts them to an optimized internal format, which the backend can process.

As for exposing this format to "external" programs, there are two points:

  • it is not a stable format. Intel can change it between CPU models to best fit the specific architecture. This allows them to maximize efficiency, and this advantage would be lost if they had to settle on a fixed, stable instruction format for internal use as well as external use.
  • there's just nothing to be gained by doing it. With today's huge, complex CPU's, the decoder is a relatively small part of the CPU. Having to decode x86 instructions makes that more complex, but the rest of the CPU is unaffected, so overall, there's just very little to be gained, especially because the x86 frontend would still have to be there, in order to execute "legacy" code. So you wouldn't even save the transistors currently used on the x86 frontend.

This isn't quite a perfect arrangement, but the cost is fairly small, and it's a much better choice than designing the CPU to support two completely different instruction sets. (In that case, they'd probably end up inventing a third set of micro-ops for internal use, just because those can be tweaked freely to best fit the CPU's internal architecture)

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Good points. RISC is a good core architecture, where GOOD means runs-fast and possible to implement correctly, and x86 ISA which has a CISC architectural history, is merely now, an instruction set layout with a huge history and fabulous wealth of binary software available for it, as well as being efficient for storage and processing. It's not a CISC shell, it's the industry defacto standard ISA. –  Warren P Apr 27 '11 at 15:40
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@Warren: on the last part, I actually don't think so. A well-designed CISC instruction set is more efficient in terms of storage, yes, but from the few tests I've seen, the "average" x86 instruction is something like 4.3 bytes wide, which is more than it'd typically be in a RISC architecture. x86 loses a lot of storage efficiency because it's been so haphazardly designed and extended over the years. But as you say, its main strength is the history and huge amount of existing binary code. –  jalf Apr 27 '11 at 15:43
    
although that's just from a a test I read a few years ago, so I'm not sure how accurate it is. :) –  jalf Apr 27 '11 at 15:50
    
I didn't say it was "well designed CISC", just "huge history". The GOOD parts are the RISC chip design parts. –  Warren P Apr 27 '11 at 17:10
    
@Warren: I know, and I didn't mean to imply that. My point was simply that a well-designed CISC instruction set could be made more compact than the equivalent RISC code, but because x86 is such a mess, this space advantage is more or less lost. :) –  jalf Apr 27 '11 at 18:12
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If Intel keeps backward compatibility for so long (we still have virtual 8086 mode next to 64 bit mode), Why don't they allow us compile programs so they will bypass CISC instructions and use RISC core directly? This will open natural way to slowly abandon x86 instructions set, which is deprecated nowadays (this is the main reason why Intel decided to use RISC core inside, right?).

You need to look at the business angle of this. Intel has actually tried to move away from x86, but it's the goose that lays golden eggs for the company. XScale and Itanium never came even close to the level of success that their core x86 business has.

What you're basically asking is for Intel to slit its wrists in exchange for warm fuzzies from developers. Undermining x86 is not in their interests. Anything that makes more developers not have to choose to target x86 undermines x86. That, in turn, undermines them.

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Yes, when Intel tried to do this (Itanium), the marketplace merely responded with a shrug. –  Warren P Apr 27 '11 at 17:11
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because in the case of RISC instructions are in reduce form so less no of transistor is required and also it takes less time to execute the instructions so performance will be good so for this reason intel hide internal RISC core in their processor.

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The answer is simple. Intel isn't developing CPUs for developers! They're developing them for the people who make the purchasing decisions, which BTW, is what every company in the world does!

Intel long ago made the commitment that, (within reason, of course), their CPUs would remain backward compatible. People want to know that, when they buy a new Intel based computer, that all of their current software will run in exactly the same way that it did on their old computer. (Although, hopefully, faster!)

Furthermore, Intel knows exactly how important that commitment is, because they once tried to go a different way. Exactly how many people do you know with an Itanium CPU?!?

You may not like it, but that one decision, to stay with the x86, is what made Intel one of the most recognizable business names in the world!

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The real answer is simple.

The major factor behind the implementation of RISC processors was to reduce complexity and gain speed. The downside of RISC is the reduced instruction density, that means that the same code expressed in RISC like format needs more instructions than the equivalent CISC code.

This side effect doesnt means much if your CPU runs at the same speed as the memory, or at least if they both run at reasonably similar speeds.

Currently the memory speed compared to the CPU speed shows a big difference in clocks. Current CPUs are sometimes five times or more faster than the main memory.

This state of the technology favours a more dense code, something that CISC provides.

You can argue that caches could speed up RISC CPUs. But the same can be said about CISC cpus.

You get a bigger speed improvement by using CISC and caches than RISC and caches, because the same size cache has more effect on high density code that CISC provides.

Another side effect is that RISC is harder on compiler implementation. Its easier to optimize compilers for CISC cpus. etc.

Intel knows what they are doing.

This is so true that ARM has a higher code density mode called Thumb.

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