The answer lies in history

As we mentioned in our recent Pentium 4 review, there are two factors that must come into play in order for the Pentium 4 to become a truly successful chip.  The first being that the SSE2 instruction set that gives the Pentium 4 its floating-point prowess must be taken advantage of in upcoming software titles.  The second, and more pertinent to today’s discussion is that the Pentium 4 needs to ramp up in clock speed.

Believe it or not, but these are the same two characteristics that every Intel processor has required at minimum, to succeed in comparison to its predecessor.  If we make the same statement in a more general fashion we get that in order for a new processor to be successful its architecture must be taken advantage of in the current software and it must be able to increase the amount of work that it is capable of doing, quite possibly by boasting an increased clock speed.  Let’s find some examples:

Remember the introduction of the first Pentium processors?  It seemed almost silly purchasing a 5V Pentium 60 when there were cheap AMD 486 alternatives out there that didn’t require a motherboard upgrade and performed identically if not superior to these crude Pentiums.  But in the end, the 486 died off and gave way to the superior P5 architecture of the Pentium as the processor demonstrated its ability to reach amazingly high clock speeds of 200MHz and beyond. 

What about the Pentium Pro and its P6 core?  While the market was still adopting 32-bit applications, the Pentium Pro suffered as a desktop solution since it unfortunately boasted very poor 16-bit performance.  To Pentium and Pentium MMX users, the Pentium Pro’s 16-bit performance was a joke and that’s what mattered to most desktop users in 1995, remember, these users were still running DOS and Windows 3.11.  Giving the industry some time to make the move over to a predominantly 32-bit OS (Win95) Intel also took some time to play with a few of the Pro’s shortcomings and debuted the Pentium II, another P6 processor, in 1997.  The P6 quickly shed its history as an architecture to laugh at and made the Pentium II the processor of choice throughout 1998.  Again, once the architecture was taken advantage of, and the processor was given the ability to ramp up in clock speed (450MHz by the end of 1998) the CPU became a success. 

What limits clock speed

This discussion of trends in processor history is leading us somewhere.  While Intel or any other manufacturer can try to push for the architecture specific optimization in software in order to make their CPUs successful that is still largely dependent on factors that relate more to developers.  If an architecture offers no benefits to the developer or demonstrates severe drawbacks, the developing community will fail to support it. 

What CPU manufacturers can do directly to ensure the success of their processors is increase the amount of work that they are capable of doing.  This generally can be done either by increasing the number of instructions a processor can handle per clock (IPC) or by increasing clock speed.


Intel's Hyper Pipelined Technology that allows the Pentium 4 to reach higher clock speeds

The obvious question is why not increase the IPC and clock speed together, unfortunately the more work a processor is handling (the higher the IPC) the lower clocked it will have to be before running into physical limitations.  The solution to that is to decrease the IPC in favor of a higher clock speed.  This is the tradeoff both Intel and AMD have made in the past with every succeeding processor generation, the most recent example being the Pentium 4 and its hyper pipelined technology which we explain in greater detail here.

This brings us the issue of what limits clock speed.  We just discussed one limitation, the processor’s architecture, the second limitation happens to be the manufacturing process. 

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  • SlyNine - Wednesday, August 18, 2010 - link

    It'll be much much longer then we all thought. :P
  • cdurkinz - Monday, June 29, 2020 - link

    You had no idea.... Just checking in, another decade on from when this article released! ;)
  • karasaj - Wednesday, June 20, 2012 - link

    They're 7 years overdue! :)

    History really is interesting.
  • Shahnewaz - Sunday, April 12, 2015 - link

    It has been 10 years and the only processor even remotely close enough to 10GHz is an AMD FX-9590@5GHz.
    No, you're not realistically speaking. At least not Intel.
  • name99 - Monday, February 29, 2016 - link

    IBM z12 clocked at 5.5GHz, and IBM has claimed POWER8 runs at 5GHz (though I don't know if they've ever sold those on the open market).

    Back in the day (2007) POWER6 WAS sold at 5GHz, and IBM claimed they had versions running at 6GHz (which they may well have sold not on the open market).
  • NJCompguy - Monday, February 29, 2016 - link

    15 years later, we can now have facial recognition on a Surface Pro 4 to log in! Yay for the fast pace!! lol
  • name99 - Monday, February 29, 2016 - link

    "These are things that Intel is claiming will be possible by 2005 with the type of processors that will be available in desktop systems.... Intel is working very hard in developing the software that will help make these visions a reality. "

    Let's all remember this next time Intel predicts something, anything. Intel has three skills
    - process/manufacturing
    - circuit design
    - micro-architecture design.
    Unfortunately NOT on that list are things like
    - software design
    - ISA design
    - vision for the future, and prediction

    Which means you're going to be in a bubble if you live in the Intel world. That was obvious here with the absolute lack of mention of any other manufacturer (TSMC was 13 yrs old in 2000), and the lack of mention of other uses of CPUs (Apple Newton was 7 yrs old in 2000). Instead of asking what better processes might enable in less powerful machines, all we get is the question "how do we do more of the same?" The question to ask, usually, should NOT be "what do I do with a 10x faster processor" but "what do I do with a 100x CHEAPER" processor" or what do I do with a "100x lower power processor?"
    The post-iPhone revolution has broken through this bubble in some respects, but not all. Almost everyone is willing to concede that CPUs in cell-phone are important, interesting, and worth following. But we get the same blindness when it comes to the next shrink in size, whether its smartwatches or IoT. And we get an absolute blindness when it comes to the idea of substantially restructured OSs, substantially restructured languages (and development paradigms) --- apparently we're going to be using UNIX-like OS's and C/C++ for the next hundred years...
  • Dr AB - Saturday, May 9, 2020 - link

    Yes I agree .. it seems like they were totally limited in thinking because of living entirely in "intel world".
    For future yes thats what happening everyone is just following the "trends", too scared to do something of the box or taking an entirely different approach. In smartphones yes every year or so there are only performance/efficiency improvements that look so negligible in "real world" scenarios. More like 50 years from now nd looking back at the current era, feeling would be the same : "How the heck we are still stuck in the same ancient technology introduced years ago nd only recently has been implemented in a productive way." Thats what happen when I read some article from 20 years back.
  • zerghumper - Wednesday, February 8, 2017 - link

    SlyNine,

    Much. Much longer. :(
  • PanZhang - Thursday, February 27, 2020 - link

    It takes me 15 years to realize that a dream may never come ture.

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