Test System Configuration and Methodology

Test System Configurations
Processor(s) Intel Core 2 Duo E8500 (ES)
Dual-core, 3.16GHz, 6MB Unified L2 Cache, 9.5x Multiplier, 1333 FSB
Intel Core 2 Extreme QX9770 (ES)
Quad-core, 3.20GHz, 2x6MB Unified L2 Cache, 8.0x Multiplier, 1600 FSB
Motherboard(s) ASUS Striker II Extreme (NVIDIA 790i Ultra SPP and MCP)
EVGA NVIDIA nForce 790i Ultra SLI (NVIDIA 790i Ultra SPP and MCP)
EVGA NVIDIA nForce 780i SLI (NVIDIA 780i SPP and MCP, nForce 200)
MSI PN7 SLI Platinum (NVIDIA 750i SPP and 480 MCP)
ASUS P5E3 Premium (Intel X48 Experss MCH and ICH9R)
DDR2 Memory 2x1GB Crucial Ballistix PC2 8500 (DDR2-1066)
DDR3 Memory 2x1GB Crucial Ballistix PC3 12800 (DDR3-1600)
Graphics Card(s) MSI 8800 GTS 512MB (G92) - single and SLI configurations
675MHz core, 1625MHz shader, 970MHz (DDR-1940) memory
Cooling D-tek FuZion CPU block, EK-FC88 GT/GTS full coverage GPU blocks, ThermoChill PA120.3 radiator, 3x SUNON KDE1212PMB3-6A 120x38mm fans, Laing D5 pump, 1/2" ID (3/4" OD) Tygon tubing
Power Supply OCZ EvoStream 600W Modular PSU
Hard Drive WD 74GB Raptor, 10K RPM, SATA 3Gbps, 8MB buffer
Video Driver NVIDIA 169.25 (WHQL)
Operating System Windows Vista Ultimate (x64) SP1 with DirectX 10.1

Each motherboard was flashed with the latest available BIOS - some of which were still labeled beta at the time of testing - and any unneeded functionality was disabled (unused serial ports, onboard HD audio, IDE controllers, etc.). This streamlined the OS and driver installs for optimum performance.

Prior to each round of motherboard testing we loaded a fresh install of Windows Vista Ultimate (x64), followed by platform drivers, then Service Pack 1 (SP1) including all patches and hot fixes currently offered by Microsoft's online Windows Update service. We made sure that our hard disk's write-back caching was enabled and the prefetch folder was cleared before each test run.

The latest WHQL-certified video drivers for our pair of MSI 8800GTS 512MB (G92) cards were then installed and all NVIDIA control panel settings were left as-is with the exception of SLI functionality, which was selectively enabled and disabled depending on which round of benchmarks were being run. Additionally, rather than deal with comparison issues arising from GPU core, shader, and memory clocks speed discrepancies seen from card to card, depending on the vendor, we chose to flash our pair of graphics cards to the NVIDIA reference clocks as listed on their site. Therefore, if some of our scores seem low to you it may be because the cards you have been working with come factory-programmed with higher clock frequencies.

Our test suite consists of Futuremark 3DMark 2006, a popular 3D benching program, Futuremark PCMark Vantage (x64), Crysis (32-bit executable), Unreal Tournament 3, Company of Heroes: Opposing Fronts, and Lavalys' EVEREST Cache and Memory Benchmark tool. All game benchmarks are run at a higher resolution (1920x1200) and a lower resolution (1280x1024), always on "High Quality" settings - with the exception of Crysis that was run at "Medium" settings - and in each case results are reported with and without SLI enabled, whenever possible. In addition, these tests used our Core 2 Duo E8500 dual-core CPU as well as our quad-core QX9770. Finally, we show scores at both stock processor frequencies and rated bus speeds and when overclocked to 4.00GHz (8x500MHz for the E8500 and 10x400MHz for the QX9970).

We ran each test five times, threw out the high and the low score, and then averaged the remaining three. These results fully qualify the advantages (or not) of purchasing a more powerful CPU - whether that means higher frequencies or more cores - along with any real-world benefits of NVIDIA's SLI Technology.

There is one exception to this: the ASUS P5E3 Premium. Although a worthy contender, the P5E3 Premium is not SLI-capable due to drivers, and as such we do not provide SLI results. Future testing using Crossfire-capable ATI/AMD HD 3800-series cards will be completed in the next roundup, but for now we're concentrating on SLI. We've really added the P5E3 Premium to the mix just to get a feel for how X48 stacks-up against NVIDIA's 750i, 780i and 790i Ultra when it comes to single-card graphics performance. This will be good information for those that are not necessarily in the market for an SLI-capable motherboard or feel gaming may not be their top priority.

Before we get into the specifics let's look at overall system performance. We chose PCMark Vantage for this task as it does an excellent job of documenting the performance of nearly every subsystem and then combines the results in a meaningful way. This allows us to conduct a broad sweeping check of the system as a whole; then, if the score is unusually low, we can decide whether investigation and further testing may be prudent.

ASUS Striker II Extreme Specifications Overall System Performance with PCMark Vantage
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  • seamusmc - Friday, April 11, 2008 - link

    For folks considering this board, I strongly recommend visiting xstremesystems.org's forums.

    Several people are experiencing data/OS corruption when performing any FSB overclocking. (Brings back memories of the early days of the 680i.)
  • nomagic - Friday, April 11, 2008 - link

    LGA775 Core2 Duo/Extreme/Quad, Pentium EE, Pentium D, Pentium including next-generation 45nm CPU support

    Which would include Nehalem, I suppose? Should I also assume that a BIOS update would be required for Nahalem support? Is it possible that a custom board like this might have trouble supporting Nehalem when the times comes?
  • TemjinGold - Friday, April 11, 2008 - link

    No. NOTHING out right now can support Nehalem as that's a completely different socket (different pin count too).

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