It's been a good year for AMD; they've been making money (not as much as Intel, but at least they're in the black) and ask the majority of PC enthusiasts and they're recommending AMD chips. There's obviously good reason; the Athlon 64, while not priced as aggressively as AMD's chips in the past, ends up offering better performance than the Pentium 4, for less money. What more could you want?

Recently AMD made the transition to 90nm with their Athlon 64, but did so on lower clocked parts, much like what Intel used to do whenever they would introduce a new manufacturing process. The first 90nm Athlon 64s came in the flavor of 3000+, 3200+ and 3500+ chips on the desktop, and despite initial overclocking success, 2.2GHz was the highest clock speed AMD introduced at 90nm.

There's no hiding the fact that all chip manufacturers have had some issues moving to 90nm. If they had all of their cards lined up beforehand, the biggest unavoidable issue becomes power density, which you can't simply get around regardless of how mature your 90nm process is. Fighting the incredible power densities of these extremely small cores requires a significant rethinking in how the cores are designed, laid out and even the functional nature of the logic these transistors represent.

Not to be held back by the move to 90nm, AMD continued with the release of two new flagship chips: the Athlon 64 4000+ and the Athlon 64 FX-55. We'll get to the specs momentarily, but needless to say that AMD's approach is in significant contrast to what Intel has recently announced. With the axing of the 4GHz Pentium 4, Intel has effectively let AMD win this latest war of high-cost, low yield CPUs at the very high end. While the victory itself may not mean much come next year or this year for that matter, it is a very interesting change in policy over at Intel. Remember the last time there was a similar push for Intel to ramp up clock speed, the decision was much different, and the market was given a 1.13GHz Pentium III that later had to be recalled. Intel's playing it very safe this time around.

AMD on the other hand has a different strategy. When we published a roadmap calling the Athlon 64 4000+ a 2.6GHz 512KB Socket-939 part back in January, we got a strange email from AMD warning us that the specifications of the Athlon 64 could change. We chalked it up to AMD just doing their usual duty whenever we publish data that is not yet publicly available (or talked about for that matter). But it turns out that their caution was not simply from a PR standpoint; today with an Athlon 64 4000+ in our hands AMD didn't release a 2.6GHz Athlon 64, they just re-released an Athlon 64 FX-53 - a 2.4GHz, 1MB L2 cache part, as a regular Athlon 64 4000+.

CPU manufacturing is all about yields, if AMD can make more chips that work by increasing the die size by adding a larger cache instead of upping the clock speed, then that's the route AMD will take. With the Athlon 64 4000+, it's clear what the outcome of AMD's equations was.

The Athlon 64 FX-55 is however, in line with what we expected. Like the 4000+ and all FX processors before it, the FX-55 features a 1MB L2 cache, but AMD managed to crank the chip up to a full 2.6GHz with the help of some tweaked manufacturing.

The FX-55 uses a type of strained silicon developed with one of AMD's partners, but unfortunately at this point AMD is not releasing much information on their implementation of strained silicon. IBM has been demonstrating strained silicon for years now so it is not too much of a surprise that AMD would have access to this technology for use in their CPUs. Intel first introduced strained silicon to desktop CPUs with their 90nm Prescott chips.

We've already talked about strained silicon in the past, but for a quick refresher here's basically what the technology allows. Silicon atoms found in microprocessors are arranged in a relatively repetitive lattice, with the space in between the atoms allowing electrons and thus electrical current to flow through. The spacing between the atoms creates resistance to the flow of electrons, the greater the spacing, the less the resistance, the greater the flow of electrons. Place a layer of silicon next to a layer of a silicon compound with greater atomic spacing (for example Silicon Germanium), and the pure silicon atoms will end up spacing themselves out more to match up with the SiGe lattice, thus straining the silicon lattice. The end result are freer flowing electrons allowing for faster transistor switching, and in this case higher clock speeds.

The big announcement will be whenever AMD brings strained silicon technology down to their 90nm chips, since 130nm advancements won't mean much going forward. It does appear that AMD's manufacturing partnerships are definitely paying off though, which has helped them address manufacturing as a serious weakness in years past.

So here's what we've got: an Athlon 64 4000+ that is basically a FX-53 (but still clock locked for all higher multipliers like a regular Athlon 64), and an Athlon 64 FX-55 that uses a 130nm strained silicon on insulator process to hit 2.6GHz. Pricing on the two chips is, well, pricey: $827 for the FX-55 and $729 for the FX-53 err we mean Athlon 64 4000+.

Alongside AMD's launch of the FX-55 and 4000+, NVIDIA has announced what may be the chipset to get for the Athlon 64: the long awaited nForce4. For a look at this chipset, which we feature in our review today, read our in-depth look at the nForce4.

Model Numbers Help and Confuse
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  • HardwareD00d - Tuesday, October 19, 2004 - link

    Fantastic article, obviously very well thought out.

    I would have liked to see a comparison between the 4000+ and the "real" FX-53 to really back up your rebadging theory (yeah I know speed+cache+memory width are equal between the two, but just to make sure AMD isn't pulling some magic out of there butt somewhere else).
  • Marsumane - Tuesday, October 19, 2004 - link

    Yes, thanks for the XP comparison. I find it interesting how its not performing as well as it used to in games. (doom 3, farcry, cs:s)

    Also, your ut2k4 benches seem off. How is doom 3 pulling 50% more frames at the same res? Maybe your ut is at 16x12? I pull similar frames on ut w/ my 9800p oced.
  • ksherman - Tuesday, October 19, 2004 - link

    I like the ending... It sounds mysterious!
  • alexruiz - Tuesday, October 19, 2004 - link

    I will suggest again to include some Ulead Video Studio 8.0 benchmarks for video encoding. Ulead is by far the fastest consumer grade video editor / renderer, it is the most complete and one of the most popular. In fact, it is almost 50% faster than Pinnacle 9, and almost 100% faster than videowave.

    Roxio has really been working with Intel as all previous version of video wave ran better on AMD hardware. As reference, results video wave 6 or 7 would be interesting. Newer doesn't always mean better, as you can see from Adobe Premiere. Version 7.0 is quite slower than 6.5 doing the exact same thing in the same platform.

    For DivX encoding, a run with virtualdub/virtualdubmod or DVD2AVI would be nice, as they are very fast and extensively used.


    Just some comments


    Alex
  • Araemo - Tuesday, October 19, 2004 - link

    Thank you thank you thank you for including an Athlon XP.

    This allows me to better judge where my current Barton 2.4 Ghz sits. ;P So I know when an upgrade to the next cheap overclocker will give a good enough performance boost to be worth the money.
  • stephenbrooks - Tuesday, October 19, 2004 - link

    Here's an idea to play with: how about some 2D scatter plots of Performance/£ and Performance/Watt? Obviously not on everything - that would clutter it - but perhaps on one or two key things it'd be nice to see.
  • Zar0n - Tuesday, October 19, 2004 - link

    EDIT #22 There is no 3400+ for SK 939 only 3500+
  • Zar0n - Tuesday, October 19, 2004 - link

    Nice article BUT:
    You should make C&C power consumption and temperature
    Also some OC tests.

    The Battle for Value is not correct:
    1º WHAT about price of DDR1 VS DDR2?!
    2º MB for INTEL are more expensive, ~40€ is a great difference in a MB price.
    3º 0.09 AMD are just introduced so they are going to come down, not much but they are.

    In order to be fair you should compare with AMD 3400+
    AMD as a clear winner here.
  • mczak - Tuesday, October 19, 2004 - link

    power consumption at idle - is this with or without cool 'n' quiet (I suspect without)?
  • Uff - Tuesday, October 19, 2004 - link

    I have to agree with #18 - it's not worth paying more than twice the price of a 3400+ just to get 3800+ on 939 platform.

    Many say 'OH! But s939 is more upgradable!', but if you think about it, by the time you upgrade next there are very likely going to be new motherboards available aswell and you end up upgrading that anyway. Not to mention motherboards cost virtually nothing compared to cpus.

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