Test Setup


 Performance Test Configuration
Processor(s): AMD Athlon 64 4000+ (2.4GHz) Socket 939
RAM: 2 x 512MB OCZ PC3200 Platinum Rev. 2
Hard Drive(s): Seagate 120GB 7200 RPM IDE (8MB Buffer)
Video AGP & IDE Bus Master Drivers: SiS 1.17e
VIA 4in1 Hyperion 4.51 (12-02-2003)
nVidia nForce 6.11 Beta (nForce4)
nVidia nForce Platform Driver 4.24 (nForce3 Ultra)
Video Card(s): nVidia 6800 Ultra (AGP 8X)
nVidia 6800 Ultra (PCI Express)
Video Drivers: nVidia nForce 61.77 (SiS, VIA, nF3U, Intel 925X)
nVidia nForce 61.81 Beta (nForce4)
Operating System(s): Windows XP Professional SP1
Motherboards: Winfast 755FXK8AA (SiS 755FX)
Soltek K8TPro-939 (VIA K8T800 PRO)
Epox 9NDA3+ (nForce3 Ultra)
nVidia nForce4 Ultra Reference Board
Abit AV8 PRO (VIA K8T800 PRO)
ECS KV2 Extreme (VIA K8T800 PRO)
Gigabyte K8NSNXP-939 (nVidia nForce3 Ultra)
MSI K8N Neo2 (nVidia nForce3 Ultra)
MSI K8T Neo2 (VIA K8T800 PRO)

Tests used OCZ PC3200 Platinum Rev. 2, which uses Samsung TCCD chips. All memory ran at 2-2-2-10 timing in all benchmarks.

Since the nVidia 6800 Ultra AGP was used for testing in the 939 chipset, we used the 6800 Ultra AGP for benchmarking the Winfast. The PCI Express 6800 Ultra was used for all testing with the nForce4 and the Reference Intel 925X. Resolution in all benchmarks is 1024x768x32 unless noted otherwise.

Results for the SiS 755FX based Winfast are color-coded red in all graphs. VIA K8T800 Pro based motherboards are displayed in green in our results, and nVidia nForce4/nForce3 are in orange. Intel results are included for Reference only and are blue in the graphs. The color coding should allow easy comparison of the tested Winfast 755FXK8AA to other chipsets and processors.

Memory Stress Testing General Performance & Encoding
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  • sprockkets - Thursday, December 16, 2004 - link

    ut2004 is also not Direct 9.0 either.
    In case you are wondering, a 3 phase power supply on the motherboard provides better or cleaner power to the processor, and lasts longer as well since you have 3 phases to balance the output on. You can read more of an explanation somewhere on Lost Circuits website.
  • kmmatney - Thursday, December 16, 2004 - link

    With the $40 you save, you can easily upgrade from a Athlon 3200+, to a 3500+. Throw in some modest overclocking, and you are probably much better off with this board that more expensive "overclockers" board.

    Extreme overclocking is not really an issue, when you are saving enough money to upgrade the CPU!

    The MSI "K8T NEO2-F" VIA K8T800 is also $100 at NewEgg, though...
  • ChineseDemocracyGNR - Thursday, December 16, 2004 - link

    Now the you covered the SiS755FX it would be nice to see the ULI M1689. Reasons:

    1) it's cheaper. The retail price for this Foxconn board is around $100, you can get a socket 939 board with the ULI M1689 chipset for less than $80.

    2) the ASRock Combo-Z motherboard (based on the ULI M1689 chipset) is capable of doing over 250MHz on the "FSB", and it will be an even more interesting choice when the 1.4 (2600+) and 1.6GHz (2800+) socket 754 Semprons are released next year.

    --

    "In the end, only 2 SiS 755 motherboards made it to the AnandTech labs - an ECS and a Foxconn. Both were capable budget motherboards, but neither packed the kind of enthusiast features we hoped that we would see with the 755 chipset."

    It's too bad you didn't get the ASRock K8S8X (which has been discontinued in favor of the K8 Combo-Z). That motherboard had a working PCI/AGP lock and was a very capable overclocker for a budget board, as you can see here:
    http://www.ocworkbench.com/ocwbcgi/ultimatebb.cgi?...
    (267MHz reference clock).

    For those who like SiS chipsets, there are two socket 754 motherboards based on the SiS760GX chipset (755 with integrated graphics) that also have working AGP/PCI lock: ASUS K8S-MX and ASRock K8Upgrade-760GX.
  • LocutusX - Thursday, December 16, 2004 - link

    Foxconn probably got a really good volume deal on a particular part (of clockgen), which they found could be easily integrated into their mobo design, so they rolled with it.
  • Gnoad - Thursday, December 16, 2004 - link

    Is the clock gen problem even a problem or was it designed like this? I can't imagine any mobo company using a chipset that has great capabilities and then scaling it back on a hardware level. It just doesn't make sense. So is this an unfixible mistake or an intentional limiter?
  • Jeff7181 - Thursday, December 16, 2004 - link

    Maybe I missed it... was there any mention of when we can expect to be able to purchase one of these boards?
  • Wesley Fink - Thursday, December 16, 2004 - link

    #12 - Foxconn tells us a BIOS update cannot fix the CPU clock frequency limitation. They also just advised that a drop in Clock Generator is not available that can be substituted in this design. The board would require some redesign to use a Clock Gen supporting higher than 233.

    #9 - The tested Soltek is Socket 939 and it is very fast at stock speeds. If you click the motherboard tab at the top of AnandTech you will find the recent review.
  • Shinei - Thursday, December 16, 2004 - link

    Hey now, let's not split hairs over semantics; we all know what's being talked about here...

    Anyway, what I was going to ask about is the clockgen on the board; is it a physical part of the board, or is it something that a BIOS update can rectify? I happen to have a pair of Mushkin Level-II PC3500 sticks that I can't take a single Hertz over 200MHz because of the poor overclocking properties of my Athlon XP 2800+, and I'd like to see how far those Winbonds will go with a chipset that can go "balls to the wall", as it were.
  • Wesley Fink - Thursday, December 16, 2004 - link

    #10 - The SiS755FX "supports dual-channel memory". Did you explode? Then perhaps you should be more precise in your descriptions :-)

    We do know the difference, but while chipsets are theoretically capable of being combined with any CPU on A64 designs, they are usually tied to a specific CPU configuration - in this case Socket 939, which supports current A64 with dual-channel memory controllers on the CPU.

    As for what we used to call FSB, I have been trying very hard to consistently refer to this as "CPU clock frequency", and not FSB, because it is not technically the same in an HT design. If I slipped up I apologize. The end result is essentially the same, though the route there is certainly different.
  • Peter - Thursday, December 16, 2004 - link

    Next time I read about an AMD64 chipset "supporting dual memory", I'll explode.

    HELLOooOoOoOooo ... the RAM controller is in the CPU.

    Also, AMD64 chipsets do not "support" certain CPU socket shapes. They are completely agnostic about what kind of and how many CPUs there are.

    Finally, stop referring to the HT link as the "FSB". It is not a CPU front side bus, it's an I/O link.

    New architectures require fresh thinking. Brain in gear please!

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