Final Words

If you were looking for a changing of the guard today it's just not going to happen. Phenom is, clock for clock, slower than Core 2 and the chips aren't yet yielding well enough to boost clock speeds above what Intel is capable of. While AMD just introduced its first 2.2GHz and 2.3GHz quad-core CPUs today, Intel previewed its first 3.2GHz quad-core chips. We were expecting Intel to retain the high end performance crown, but also expected AMD to chip away at the lower end of the quad-core market - today's launch confirms that Intel is still the king of the quad-core market.

As we've seen from our mainstream CPU comparisons however, all of this could change with some clever pricing - something AMD seems to have forgone with its Phenom launch.

Phenom manages to fill a major gap in AMD's desktop CPU product lineup: the company can now offer quad-core CPUs. And with the needed updates to the K8 architecture AMD is now competitive in some areas that it sorely needed improving in. Windows Media and x264 encoding are both strong points of the Phenom architecture, making it on par with Intel's quad-core offerings. The same can be said about some games, but at the same time Intel really pulls ahead in our DivX and other game tests.

Inevitably some of these Phenoms will sell, even though Intel is currently faster and offers better overall price-performance (does anyone else feel weird reading that?). Honestly the only reason we can see to purchase a Phenom is if you currently own a Socket-AM2 motherboard; you may not get the same performance as a Core 2 Quad, but it won't cost as much since you should be able to just drop in a Phenom if you have BIOS support.

If you ask AMD, this is platform story; after all, who wouldn't want to combine a Phenom with the 790FX chipset and a pair of Radeon 3850 graphics cards. The problem is that you can pair up 3850s on an Intel chipset just as easily, leaving the biggest benefit to 790FX the ability to run 3 or 4 3850s, which we're not even sure is a good idea yet. There are some auto-overclocking features, but talking about Phenom's overclocking isn't really accenting one of its strong points. The platform sell is a great one to an OEM, but it's simply not compelling enough to the end user - if Phenom were more attractive, things would be different.

To make the CPU more attractive AMD desperately needs to drop the price, and from what we've heard, that will happen in Q1. From what we've seen, AMD needs to be at least 200MHz ahead of Intel in order to remain competitive - that means bringing out a Phenom 9900 that's cheaper than the Q6600, at least. If AMD can do that, it's quite possible that in early 2008 we'll have the first sub-$200 quad-core part as the 9500 drops in price.

Oh and just in case AMD is listening: the Phenom 9600 has no business being here, the extra 100MHz only clutters up the product line. Once the 9700 and 9900 are out let's try and stick to 200MHz increments shall we?

Here's what really frightens us: the way AMD has priced Phenom leaves Intel with a great opportunity to increase prices with Penryn without losing the leadership position. Intel could very well introduce the Core 2 Quad Q9300 (2.33GHz) at $269 and still remain quite competitive with Phenom, moving the Q9450 into more expensive waters. Intel has't announced what it's doing with Penryn pricing in Q1, but our fear is that a weak showing from Phenom could result in an upward trend in processor prices. And this is exactly why we needed AMD to be more competitive with Phenom.

It's tough to believe that what we're looking at here is a farewell to the K8. When AMD first released the Athlon 64, its performance was absolutely mind blowing. It kept us from recommending Intel processors for at least 3 years; Phenom's arrival, however, is far more somber. Phenom has a difficult job to do, it needs to keep AMD afloat for the next year. Phenom is much like the solemn relative, visiting during a time of great sorrow within the family; let's hope for AMD's sake that it can lift spirits in the New Year.

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  • Proteusza - Monday, November 19, 2007 - link

    Actually, there is every possibility that he is right.

    First off, how much do you know about instruction sets and compilers? I'm going to assume nothing. If you do know something, then consider this for the edification of other readers.

    Compilers take code written in one language and produce an output in another. Specifically, compilers take code written in a language that can be easily understood by humans (ie C++) and output code that a machine can understand (machine code, or bytecode in the case of a JVM).

    Now, the problem with enhanced instruction sets, like SSE4, and SSE4.1 and SSE4a, is that they require compiler support. Imagine an instruction set as a vocabulary. And compilers are the programs that produce books, using a specified vocabulary. Now, the simple truth is that Intel makes extra effort to get its vocabulary into use. Thus, Cinebench was most likely compiled with Intel's latest vocabulary, and not AMD's.

    So, part of the K10 update was that it allowed SSE operations to be completed much faster, and I'm presuming this requires the use of its new instruction set. If so, that means that Cinebench was basically running in K8 mode.

    Not so far fetched, just means AMD has to make sure people update their code. The instruction set issue is another reason why RISC CPU's are generally simpler and faster.
  • JumpingJack - Monday, November 19, 2007 - link

    Look... it is code, that is all ... AMD and Intel are both designing to the same code base, run it on one... then run it on the other... which is faster?

    Architectural jargon of IMC and victim L3 cache, and x-bit look up ... if it doesn't work it doesn't work.
  • Kiijibari - Monday, November 19, 2007 - link

    Lol .. just code ... imagine a guy talking in a south west Chinese dialect to you. You do not understand anything ? Well .. it is just a language ... ;-)

    No offense intended: Please do some read up on compliers and programming languages .. it is interesting :)

    cheers

    Kiiji
  • Brunnis - Monday, November 19, 2007 - link

    Acutally, there shouldn't be any code modifications needed to make use of the new SSE functionality. The difference is internal to the CPU, meaning that it now processes SSE instructions without splitting them. The instructions used are the same as before.

    That said, there may be untapped potential in the CPU that can be uncovered by the use of a different compiler (due to other reasons). Though, as far as I know, Intel compilers often produce faster code even for AMD CPUs...

    About the "architectural advantage" Anand mentioned: Of course the Core 2 has an architectural advantage. It's pretty obvious from the fact that it performs faster, clock-for-clock, in almost all cases while having much higher frequency potential. Not even AMD's integrated memory controller can raise the computational efficiency of their CPU enough to really challenge Intel. AMD may have a more elegant external design and interface to the rest of the system (native quad, HyperTransport, integrated memory controller), but Intel obviously has the more refined internal design. Sadly for AMD, a computational advantage seems to weigh heavier than a neat system/core interface in this case.
  • Kiijibari - Monday, November 19, 2007 - link

    quote:

    Acutally, there shouldn't be any code modifications needed to make use of the new SSE functionality. The difference is internal to the CPU, meaning that it now processes SSE instructions without splitting them. The instructions used are the same as before.
    Yes I know what you mean, the SSE instructions are the same, they are just executed faster (in 1 clock compared to 2 clocks before). That is correct, however I wonder how much code is out there that is compiled with the old Intel compilers until 9.X.

    The problem with these compilers were, that they did not executed the SSE2 codepath on AMD chips, even if the CPU would have been capable of executing it. Instead a slower FPU code is used for AMD K8s.

    The newest Intel 10 Compilers have now new compiler flags that can generate SSE2 code for non-intel CPUs, however I did not have seen benches of these so far.

    Even the M$ Compiler had some nasty SSE disable "features":
    http://einstein.phys.uwm.edu/forum_thread.php?id=6...">http://einstein.phys.uwm.edu/forum_thread.php?id=6...

    All in all, I guess there are a lot of programs out there that disable SSE on AMD CPUs :( Therefore a plain compile test of several open-sorce prgorams with gcc / Sun / Pathscale compilers would be nice. Intel CPUs could be benched with Intel compiler, too, any CPU should gets it best code.

    cheers

    Kiiji
  • Kiijibari - Monday, November 19, 2007 - link

    Yet another wise guy knowing nothing ...

    Lets imagine an English native speaker ... would he understand Spanish ? No, not much ... but maybe his fried, who learned Spanish in school is better in speaking Spanish, nevertheless, he wont be as good as a native Spanish speaker ...

    Who would be the guy with the "superior, best language capabilities" now? The Spanish, the English speaking guy, or his friend ?

    Think about it a little bit I am curious about your reply ^^

    cheers

    Kiiji
  • MrKaz - Monday, November 19, 2007 - link

    “AMD couldn't simply get enough quantities of the Phenom at 2.4GHz to have a sizable launch this year (not to mention a late discovery of a TLB error in the chips),…”

    I’m very interested in the bug you talked Anand.
    Could you say if you know how it affects the CPU:
    -Performance?
    -Clock speed?
    -Slow northbridge clocks?
    Or the bug no longer exists in these CPUs?


    Complete disappointment.
    At least AMD release the 790 motherboards so I can at least put my old CPU on that system with two Ati 3850 cards… ;)
  • Spoelie - Monday, November 19, 2007 - link

    The bug freezes the system at high workloads. It shouldn't have any performance impact.

    I'm extremely disappointed with phenom, I was planning to get the entire spider platform for my yearly upgrade cycle, but that seems to be a bad idea.
  • fitten - Monday, November 19, 2007 - link

    quote:

    The bug freezes the system at high workloads. It shouldn't have any performance impact.


    I would think that transitioning from a running, working system into a brick (not running and not working) would be a fairly significant performance impact ;)
  • Viditor - Monday, November 19, 2007 - link

    quote:

    I'm extremely disappointed with phenom, I was planning to get the entire spider platform for my yearly upgrade cycle, but that seems to be a bad idea


    I'm waiting for the review on Quad-Crossfire first...
    I figure I can get 4 x 3850s for about the same price as an 8800 Ultra. The question is, is it worth it?
    If XfireX is good, then I will pull the trigger on 4 x 3850s (or 3870s if I can get them before Xmas), a 790FX mobo, and probably a Phenom 9500...
    Then I'll upgrade the Phenom in March when the B3s finally come out.

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