Dual Core Desktop Performance: AMD's Athlon 64 X2 4400+

AMD didn't send out any Athlon 64 X2 processors for this review. They promised us chips for the real launch in June, but we don't like waiting and neither do most of you, so we improvised.

The Opteron x75 CPUs that AMD sent us run at 2.2GHz and have a 1MB L2 cache per core, which makes the specs basically identical to the Athlon 64 X2 4400+. Although the use of ECC memory and a workstation motherboard would inevitably mean that performance will be slower than what will be when the real Athlon 64 X2s launch, its close enough to get a good idea of the competitiveness of the Athlon 64 X2.

For these tests, we used the same workstation board that we used in the server performance tests, but in doing so, we encountered a lot of other random problems.

With only a single CPU installed in the Tyan S2985, the system would always hang upon restarting Windows. We could shut down Windows fine and we could manually restart the machine, but if we hit Start > Shut Down > Restart, our test bed would always hang at the "Windows is Shutting Down" screen. Populating the second CPU socket fixed that problem, but obviously for our desktop comparison, we only used a single CPU to simulate a single Athlon 64 X2 4400+. The problem is undoubtedly due to the dual core BIOS, but it was frustrating to say the least (note that our normal desktop benchmark suite requires over 200 reboots - and we did every last one by hitting the reset switch on that motherboard).

The next issue we had with the motherboard is that none of the four on-board SATA ports would detect a hard drive. Apparently, this is a common problem with this board and since we were using the absolute latest BIOS revision from Tyan (we had to in order to support dual core), there was no fix for the problem at the time of our testing. Because of this problem, we were forced to use a PATA hard drive, which unfortunately meant that we couldn't test with an NCQ enabled drive.

The final problem we had was that there were significant issues with regards to memory compatibility and performance on this Tyan board with the dual core BIOS. We were forced to run at much slower memory settings than we would normally run on a desktop Athlon 64 motherboard - we had to run with the bus turnaround option set to 2T in order to even get Windows to install. A side effect of some of these issues was that not all of our tests would run properly; most did, but a few didn't make it. Obviously, we'll fill in the blanks when we perform our actual tests for the Athlon 64 X2 review, but this will serve as a preview.

All in all, we were extremely disappointed with the only board that AMD would recommend us to use with their first dual core processors. The BIOS is far from ready and the board seems to have issues that extend beyond what can be attributed to the dual core BIOS. When Intel sent us a dual core setup earlier this month, we were surprised at how stable the system was. Our experience with AMD's platform was the exact opposite. While we're very confident that dual core Opteron systems from tier one OEMs won't have these sorts of issues, the fact that we were having these problems just weeks before the launch of a major CPU is worth mentioning. We've also held off on doing any sort of power consumption analysis between the Athlon 64 X2 and the Pentium 4 until we get desktop platforms in hand. That being said, AMD rates the Athlon 64 X2 as having the same thermal envelope as the current Socket-939 Athlon 64 processors. Thanks to a cool running 90nm process and slightly lower clock speeds, AMD is able to achieve just that.

With the problems out of the way, we were ready to get down to benchmarking. So, we put together a list of CPUs that made sense to compare for the desktop portion of this preview.

AMD's own marketing suggests that based on the price differences between their dual core CPUs and Intel's, the Athlon 64 X2 is in a class above the Pentium D. Instead, AMD suggests that the real competitors to the Pentium D 820, 830 and 840 are the Athlon 64 3400+, 3500+ and 3800+, respectively. To test that theory, we included an Athlon 64 3800+ as well as the fastest single core AMD processor, the Athlon 64 FX-55, in our comparisons.

The comparison that AMD makes is depicted below. Note that this is AMD's marketing comparison, not our own.

For the Athlon 64s, we used MSI's nForce4 SLI board; and for the Intel CPUs, we used Intel's own 955X board. All systems were configured with 1GB of memory and used the same Seagate 120GB PATA HDD and ATI Radeon X850 XT video card. We used the latest Catalyst 5.4 drivers.

Data Warehouse Results Business/General Use Performance
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  • saratoga - Thursday, April 21, 2005 - link

    " The three main languages used with .NET are: C# (similar to C++), VB.NET (somewhat similar to VB), and J# (fairly close to JAVA). Whatever language in which you write your code, it is compiled into an intermediate language - CIL (Common Intermediate Language). It is then managed and executed by the CLR (Common Language Runtime).
    "

    Waaah?

    C# is not similar c++, its not even like it. Its dervived from MS's experience with Java, and its intended to replace J#, Java and J++. Finally the language which is similar to c++ is managed c++ which is generally listed as the other main .net language.

    http://lab.msdn.microsoft.com/express/
  • Shintai - Thursday, April 21, 2005 - link

    #80, #81

    Tell me how much faster a singlecore 4000+ is compared to a 3800+ and you see it´s less than 5% in average, mostly about 2%. Your X2 2.2Ghz 1MB cache will perform same or max 1-1½% faster than a singlecore 2.2Ghz 1MB cache in games. So 10% lower for is kinda bad for a CPU with higher rating. Memory wont help you that much, cept in a fantasy world.

    And less take a game as example.
    Halo:
    127.7FPS with a 2.4Ghz 512KB cache singlecore.
    119.4FPS with a 2.2Ghz 1MB cache dualcore.
    And we all know they basicly have the same PR rating due to cache difference.

    And the cheap singlecore here beats the more expensive, powerusing and hotter dualcore CPU with 7% faster speed.

    So instead of paying 300$ for a CPU, you now pay 500$+, get worse gaming speeds, more heat, more powerusage....for what, waiting 2 years on game developers? Or some 64bit rescue magic that makes SMP for anything possible? It´s even worse for intel with their crappy prescotts, 3.2Ghz vs 3.8Ghz. Atleast AMD is close to the top CPU, but still abit away.

    Real gamers will use singlecores the next 1-2 years.
  • Shintai - Thursday, April 21, 2005 - link

    Forgot to add about physics engine etc. For that alone you can add a dummy dedicated chip on say..a GFX card for it for 5-10$ more that will do it 10x faster than any dualcore CPU we will see the rest of the year. Kinda like GFX cards are 10s of times faster than our CPUs for that purpose. Not like good o´days where we used the CPU to render 3D in games.

    The CPUs are getting more and more irrelevant in games. Just look how a CPu that performs worse in anything else as the Pentium M can own everything in gaming. Tho it lacks all the goodies the P4 and AMD64 got.

    It makes one wonder what they actually develop CPUs after, since 95% is gaming, 5% workstation/servers and corporate PCs could work perfectly and more with a K5-K6/P2-P3.

    Then we could also stay with some 100W or 200W PSU rather than a 400W, 500W or 700W.
  • cHodAXUK - Thursday, April 21, 2005 - link

    make that 'performed to 91% of the fastest gaming cpu around'.
  • cHodAXUK - Thursday, April 21, 2005 - link

    #79 Are you smoking something? A dual core 4400+ running with slow server memory and timing plus no NCQ drive peformed within 91% of the fastest gaming chip around. Now the real X2 4400+ with get at least a 15% pefromance boost from faster memory timings and unregistered memory and that is before we even think about overclocking at all.
  • Shintai - Thursday, April 21, 2005 - link

    So what the tests show is like 64bit tests.

    Dualcores are completely useless the next 2+ years unless you use your PC as a workstation for CAD, photoshop and heavy encoding of movies.

    And WinXP 64bit will be toy/useless the next 1-2years aswell, unless you use it for servers.

    Hype, hype, hype...

    In 2 years when these current intel and amd cores are outdated and we have pentium V/VI or M2/3 and K8/K9. Then we can benefit from it. But look back in the mirror. Those early AMD64 and those lowspeed Pentium 4 with 64bit wont really be used for 64bit. Because when we finally get a stable driverset and windows on windows enviroment. Then we will all be using Longhorn and nextgen CPUs.

    Dualcores will be slower than singlecores in games for a LONG LONG time. And it will be MORE expensive. And utterly useless cept for bragging rights. Ask all those people using dual xeons, dual opterons today how much gaming benefit they have. Oh ye, but hey lets all make some lunatic assumption that i´m downloading with p2p at 100mbit so 1 CPU will be 100% loaded while im encoding a movie meanwhile. yes then you can play your game on CPU#2. But how often is that likely to happen anyway. And all those multitasking things will just cripple your HD anyway and kill the sweet heaven there.

    It´s a wakeup call before you be the fools.
    games for 64bit and dualcores ain´t even started yet. So they will have their 1-3years developmenttime before we see them on the market. And if it´s 1 year it´s usually a crapgame ;)
  • calinb - Thursday, April 21, 2005 - link

    "Armed with the DivX 5.2.1 and the AutoGK front end for Gordian Knot..."

    AutoGK and Gordian Knot are front ends for several common aps, but AutoGK doesn't use Gordian Knot at all. AutoGK and Gordian Knot are completely Independent programs. len0x, the developer of AutoGK, is also a contributor to Gordian Knot development too. That's the connection.

    calinb, DivX Forums Moderator
  • cHodAXUK - Thursday, April 21, 2005 - link

    Hmm, it does seem that dual core with hyperthreading can be a real help and yet some times a real hinderance. Some benchmarks show it giving stellar performance and some show it slowing the cpu right down by swamping it. Some very hit and miss results for Intel's top dual core part there makes me wonder if it is really worth the extra money for something that can be so unreliable in certain situations.
  • Zebo - Thursday, April 21, 2005 - link

    even if i can't spell them.
  • Zebo - Thursday, April 21, 2005 - link

    Fish bits

    Words mean things sorry you don't like them.

    Cripple is true. The X2 is crippled in this test since it's not really and X2.

    It's a "misrepresentation" of it's true abilities.

    I was'nt bagging on Anand but highlithing what was said in the article then speculating of potential performance of the real X2 all things considered.

    Sorry I did'nt attend PC walk on my tip toes class. I say what I mean and use accurate words.

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