Several years ago Intel discovered surprisingly enough that its NetBurst architecture was not very good for the mobile space.  As wonderful as the idea of battery powered space heaters was, Intel quickly discovered that to build the perfect mobile platform you had to start from scratch and design a CPU that was built for the mobile space.  By doing so Intel could make tradeoffs that it wouldn't normally make, performance for power reduction, many of which we diagrammed in our first Centrino articles.

Intel also discovered the power of the platform; by bundling a good CPU with a good chipset and wireless controller, three independent Intel products were transformed into a marketing powerhouse.  The Centrino brand simplified notebook purchasing and quickly became a mark associated with a notebook you wanted to buy.

It took AMD a bit longer to get on the bandwagon, putting marketing first and worrying about architecture last.  We had heard rumors of a mobile-specific AMD microarchitecture, but nothing ever surfaced until now.  AMD's design team out of Massachusetts worked on the project, and today we're finally able to tell you about it.  The processor is called Griffin, and the platform is called Puma, both are codenames; AMD will undoubtedly come up with a phenomenal name for the final product (sorry we couldn't resist).

When Intel started development on the first Centrino processor, Banias, it had to go back to the P6 for a starting point.  The Pentium 4's NetBurst architecture was hardly suitable and the design team was intimately familiar with the P6 core at the time.  The end product hardly resembled a P6 and if you look at what the architecture evolved into today, you would be hard pressed to say it was similar at all to a Pentium III. 

AMD didn't make the misstep of a Pentium 4, it made a solid evolutionary step to K8 from K7.  Griffin's execution core and underlying architecture is based on the current generation 65nm K8 design, not Barcelona/Phenom.  You can take everything you are looking forward to being in Phenom and throw it out the window, as AMD is starting from the same K8 core that launched in 2003.

By no means is it a bad starting point, but thankfully AMD did toss in some enhancements.  Griffin gets a new North Bridge, a new memory controller, a power optimized Hyper Transport 3 interface and a 1MB L2 cache per core.  Griffin will still be built on a 65nm process as AMD will have, at best, only begun its 45nm production by the time Griffin debuts. 

Right off the bat you see a disparity between AMD's approach and Intel's approach; while the K8 is arguably a better starting point for a mobile-specific architecture than the P6, the K8 was heavily designed for servers and scaled down.  But as we've seen, the K8 is quite power efficient, with 35W TDPs easy achievable for dual core versions, so the race isn't over before it has started.

Griffin will go into production at the end of this year, and AMD is targeting availability in the first half to middle of 2008.  Given the launch timeframe, much like Phenom, AMD won't be competing with today's Core 2 processors but rather tomorrow's Penryn based notebooks.  Penryn does have some mobile-specific power improvements that even Griffin does not, but the opposite is also true as you will soon see.  AMD quoted a maximum TDP of 35W for dual core Griffin CPUs.  AMD hopes that notebooks based on Griffin can offer beyond 5 hours of battery life, but do keep in mind that battery life will vary greatly based on OEM implementation.

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  • Roy2001 - Friday, May 18, 2007 - link

    AMD stated that it didn't want to clue Intel in on what it had up its proverbial sleeve
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    I really want to laugh. 64bit is really a revolution? What else AMD invented except IMC? Intel invented X86 and AMD copied it.
    Reply
  • TA152H - Friday, May 18, 2007 - link

    AMD invented the integrated memory controller? You're joking, right?

    They weren't even the first x86 company to make one, it was NexGen, a company they bought when they realized they weren't competent enough to make their own x86 processors without copying Intel. It was during the K5 debacle, and Jerry Sanders was smart enough to buy them, and that is where the K6 came from.

    AMD copied a lot more than x86 from Intel. I actually have one of their 1981 product sheets, they even copied Zilog stuff like the Z8001 and Z8002. They, of course, copied the 8080 and 8085 as well. So, the fellow that goes on about IBM making that relationship is dead wrong. It started a lot sooner than that, and only when Intel got greedy with the 386 was it ended with acrimony. Intel was annoyed AMD would sell everything for so cheap.
    Reply
  • Regs - Sunday, May 20, 2007 - link

    Thank god for the caveman that invented the wheel or we really be screwed.

    Do you guys get hard-on's googling information about who "invented" what first just to shove it back at someone's face? Who knows, maybe the guy who invented the IMC now works for AMD. Who the hell knows what original idea or concept it came from either. Though I'd say AMD did a hell of a job making it work!

    Reply
  • TA152H - Sunday, May 20, 2007 - link

    What a dork.

    You think I used Google for this? You wouldn't understand because you're a moron, but it bothers me when people say things I know are wrong and perpetuate misinformation.

    They had built computers on a chip well before the x86 world ever saw the IMC, so making weird claims about AMD and them inventing the IMC is flat wrong. They were the first to make that tradeoff, but anyone could have done it.

    Making it work isn't particularly difficult, and I'm not even sure it's proven to be a great idea. You give up a lot to get it, and only when compared to the ultra-sophisticated, and horrible Pentium 4 did it shine. Against the Core 2, this great feature is part of a product that gets totally raped by Intel's solution. So, I'm not sure it was greatest thing in the world to spend the transistors on, Intel obviously found better ways. Even now, the Barcelona still won't have memory disambiguation like the Core 2, and will have only the store/load OOP ability of the P6 core. It's a step in the right direction, but I'm thinking they should have spent a few more transistors there, although I think they'd be better off taking them from x87. What is the point of that now?
    Reply
  • Starglider - Friday, May 18, 2007 - link

    AMD copied x86 at Intel's request. Intel was bidding for IBM's original PC project, IBM said 'you must have a second manufacturing source', so Intel contacted AMD, asked them to manufacture 8086 chips and supplied them with the semiconductor masks to do so. AMD cunningly made the ability to use the x86 ISA in their later chips a requirement of the contract, though it took a court case to confirm the legality of this. But no, AMD did not slavishly clone Intel's ISA, Intel specifically asked them to do so. Reply
  • hechacker1 - Friday, May 18, 2007 - link

    AMD's announcement sounds like a good idea. It will allow them to catch up to current battery life improving technologies.

    My Dell 700m inpirion (which costed $800 shipped new 2 years ago) features a pentium-m dothan 1.7GHz single core. Hardly the latest technology. I've managed to get 5+ hours with wifi always on and moderate screen brightness (this screen gets too bright!) in linux.

    In windows xp battery life is ~3.9hours with similar usage. In vista it dwindles even further. (note i have 2GB of ram to prevent swap usage/hard disk activity).

    But in linux there are great power management capabilities and intel provides a good amount of open source drivers. And now they released this very useful application:
    http://www.linuxpowertop.org">http://www.linuxpowertop.org

    Already there are many new patches to even further reduce power consumption by badly coded programs. Some of these fixes will work their way into Windows (like firefox), but I wonder how carefully Microsoft evaluated their power consumption due to code?

    All of these "extra lower power states" are useless if the software never allows the CPU to reach those lower power states. My own computer had several problems that forced my lowest power state to "C2". After using powertop I have managed to get my computer go into C4 power state. I'll be getting even better battery life now!

    As far as AMD is concerned, I believe they have waited too long to match intels capabilities in the fastest growing mobile market. Why wait for Griffen when Santa Rosa is essentially the same? And I already know intel has great open source support (all of my cheap dell hardware works perfectly).
    Reply
  • TA152H - Friday, May 18, 2007 - link

    How is what is being done with the Barcelona and this Griffin different from what AMD did with the CXT core in the K6-2? They called it write combining back then. It seems remarkably similar to me, but I might be missing something. Can someone elaborate on the differences? Reply
  • tayhimself - Friday, May 18, 2007 - link

    AFAICT it is the same thing except one layer down the memory hierarchy. Instead of your (L2) cache controller combining writes to your memory controller, your memory controller combines writes to the memory banks. Reply
  • TA152H - Friday, May 18, 2007 - link

    I thought the same thing, but wanted to make sure.

    One little thing, it was the L1 cache controller, the K6-2 didn't have a L2 cache on the chip, it was on the motherboard. The K6-III, K6-2+, and K6-III+ all had the on-chip L2 cache.
    Reply
  • TA152H - Friday, May 18, 2007 - link

    OK, this line "while the K8 is arguably a better starting point for a mobile-specific architecture than the P6", is completely wrong, even though it is qualified.

    Are you kidding? Do you remember the K7 when it came out and how it compared to the Pentium III? Sure it was faster, but the power use was WAY higher and in no way consistent with the marginal performance improvement. Once you improved the cache on the Pentium III with the Coppermine, and did so later with the Thunderbird, the difference in performance was greatly reduced. People were still preferring the Tualatin 1.4 to the newer stuff until the Core 2 came out, because they were so power efficient and easy to cool, and the performance was excellent, mainly because of the 512K cache. The main reason the Athlon had any advantage, which it did because of frequency headroom is the Pentium III was seriously memory bottlenecked, and that wasn't a huge architecture step forward.

    More to the point, why didn't they start with the K6-III????? It was way better than the Pentium III in terms of performance per watt, although not so in floating point. But, AMD is always talking about these coprocessors, so put a K6-III that is cleaned up a little to address its deficiencies, integrate the northbridge and graphics into it (it's a tiny die, it would still be small) and put a small socket for a coprocessor if people need floating point. Why put a power hog like the K8 as the starting point? They could also make a K8 mobile part for the devil may care about power mobile group, but I think the K6 derived group would have extremely low power use, function very well, and be relatively inexpensive to make. A K6-III+ at 600 MHz, even with terrible memory bandwidth and a tiny 256K L2 cache still does fine surfing the internet and opening office apps, etc... Someone needs to go back to these shorter pipelined units for power savings, I was hoping it was AMD. Intel doesn't really have anything, the Pentium wasn't decoupled, and the Pentium Pro had the long pipeline :( .
    Reply

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