Our First X58 Motherboard Preview: The ASUS Rampage II Extreme

We utilized the ASUS Rampage II Extreme motherboard for our overclocking and memory tests in today’s article. We will take a detailed look at this board and others from MSI, Gigabyte, ASUS again, and Intel in few days. Boards from these particular manufacturers will be available shortly and our review samples now feature retail production kits, not engineering or early production samples.

All of the boards have performed very well so far, but we have been on the BIOS of the day merry-go-round for the last week or so. However, it appears the current BIOS releases are finally to the point of being acceptable for public release, not exactly perfect yet, but a multitude of problems have been addressed over the past few weeks.

That said, this particular board is designed for a very niche market and will see limited production numbers. The mainstream enthusiast board from ASUS will be the P6T Deluxe board, a board that we actually prefer in most cases. This ROG board will be ASUS’s primary weapon in the ultra high-end market against some stiff competition from the Gigabyte EX58 Extreme board. Pricing is not set yet, but we expect it to be around $400. ASUS includes an extensive accessory kit that features their external LCD poster.

As expected with an Republic of Gamers motherboard, the BIOS options are extensive and well laid out. Of note, the QPI/DRAM Core Voltage is not the DRAM voltage setting. We think it should actually be called QPI/IMC or just Uncore voltage. In fact, as we discussed earlier, this voltage setting could potentially be more damaging to the CPU than the 1.65V recommendation on DRAM. Otherwise, the BIOS is straight forward and allows for a myriad of tuning options. We were able to easily get our i7 965 samples up to 4.2GHz on air (not the retail cooler), water, and our CoolIT Systems Freezone Elite. Our i7 920 samples reached about 3.8GHz, although we think there is a possibility for stable 4GHz operation with them.

The Big Picture

This board compares well to the previous Maximus Formula II and Rampage Extreme boards. We have the return of an eight-layer board dressed out in our favorite black, silver, and Ferrari red primary color scheme. The memory and peripheral slots return in a blue and white motif with the first PCI Express x1 slot that usually houses the SupremeFX X-FI audio card sporting black.

Due to the new LGA 1333 (Socket B1) design that is larger than the current LGA 775 along with six DIMM slots, the area around the CPU is crowded, resulting in a creative layout design that manages to squeeze all the options in a slightly extended ATX format. However, the layout just does not look as clean as previous ROG offerings to us although it is still aesthetically pleasing. ASUS throws in eight fan headers that can be controlled and monitored in the BIOS or via a Windows utility program.

Around the Board

Six DDR3 DIMM slots are included for tri-channel goodness. Performance and compatibility continues to be better when utilizing the blue slots. The memory sub-system receives a three-phase power delivery system.

The TweakIT toggle and power/reset switches carry over from the Rampage Extreme board. This system lets you overclock on the fly from within Windows or even during applications when the CPU is loaded. Eight different solder points and pin-outs allow multimeter readings of DIMM, ICH, ICH PCIe, IOH, QPI, CPU PLL, and Core voltages.

The ICH10R Southbridge is utilized and provides the six SATA ports (dark blue) along with RAID 0,1,5,10. ASUS reverted to the JMicron JMB363 for an extra SATA port (black), an eSATA port on the IO panel and IDE duties. The iROG chipset returns and offers the same features as before, on-board LED control, time keep function, BIOS flashback, additional voltage controls, and a temperature based protection scheme if you enable it.

ASUS includes two PCI Express 2.0 x1 slots, three x16 PCIe 2.0 slots (dual x16 or tri x16/x8/x8), and a lonely PCI slot. Tri-Crossfire and SLI support is included, we just need better drivers from AMD/NVIDIA to recognize the graphics potential of this platform. If you utilize double slot GPU cards, the second PCIe x1 slot and the PCI slot will be physically unavailable with a CF or SLI setup.

The black PCIe x1 slot doubles as the HD Audio slot that features the ADI SoundMAX 2000B chipset with support for Creative X-FI 4.0 routines via a software implementation. This is the last hurrah for the ADI chipset as they have exited the on-board audio business but will continue to provide support into the near future.

Below the ROG silkscreen is the VTT CPU Power Card. The second heatsink is for the X58 chipset and works quite well in early testing. However, if you are running a CF or SLI setup and need the first PCIe x1 slot for audio or other purposes, you are out of luck as the last set of fins on the heatsink blocks full-length cards. We hope that ASUS will address this before commencing retail production.

The IO panel is standard and almost legacy free. The PS/2 keyboard port is a nod to the overclocking crowd as is the clear CMOS switch. Six USB 2.0 ports are available along with six more via headers on the motherboard. An IEEE 1394a port courtesy of the fast VIA VT8308P chipset and the eSATA port via a JMicron 363 are included along with dual RJ-45 ports sporting the Marvell 88E8056-NNC1 controller chips that offer teaming capability.

CPU Real Estate

The CPU socket area is crowded but manageable for most cooling setups. ASUS utilizes their “16-phase” power delivery system along with a 3-phase system for the Northbridge. The EPU2 design allows switching between four or sixteen phases to save energy although we think anyone with this board is probably not concerned with it. The board utilizes a combination of Fujitsu ML and Solid Aluminum capacitors.

That concludes our quick overview of the ASUS Rampage II Extreme board. We will be back shortly with full reviews of several X58 boards.

X58 Multi-GPU Scaling The Test
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  • Spectator - Monday, November 3, 2008 - link

    that sht is totally logical.

    And Im proper impressed. I would do that.

    you can re-process your entire stock at whim to satisfy the current market. that sht deserves some praise, even more so when die shrinks happen. Its an apparently seemless transition. Unless world works it out and learns how to mod existing chips?

    Chukkle. but hey im drunk; and I dont care. I just thought that would be a logical step. Im still waiting for cheap SSD's :P

    Spectator.
  • tential - Monday, November 3, 2008 - link

    We already knew nehalem wasn't going to be that much of a game changer. The blog posts you guys had up weeks ago said that because of the cache sizes and stuff not to expect huge gains in performance of games if any. However because of hyperthreading I think there also needs to be some tests to see how multi tasking goes. No doubt those gains will be huge. Virus scanning while playing games and other things should have extremely nice benefits you would think. Those tests would be most interesting although when I buy my PC nehalem will be mainstream.
  • npp - Monday, November 3, 2008 - link

    I'm very curious to see some scientific results from the new CPUs, MATLAB and Mathematica benchmarks, and maybe some more. It's interesting to see if Core i7 can deliver something on these fronts, too.
  • pervisanathema - Monday, November 3, 2008 - link

    I was afraid Nehalem was going to be a game changer. My wallet is grateful that its overall performance gains do not even come close to justifying dumping my entire platform. My x3350 @ 3.6GHz will be just fine for quite some time yet. :)

    Additionally, its relatively high price means that AMD can still be competitive in the budget to low mid range market which is good for my wallet as well. Intel needs competition.
  • iwodo - Monday, November 3, 2008 - link

    Since there are virtually no performance lost when using Dual Channel. Hopefully we will see some high performance DDR3 with low Latency next year?
    And which means apart from having half the core, Desktop version doesn't look so bad.

    And since you state the Socket 1366 will be able to sit a Eight Core inside, i expect the 11xx socket will be able to suit a Quad Core as well?

    So why we dont just have 13xx Socket to fit it all? Is the cost really that high?
  • QChronoD - Monday, November 3, 2008 - link

    How long are they going to utilize this new socket??
    $284 for the i7-920 isn't bad, but will it be worth the extra to buy a top end board that will appreciate a CPU upgrade 1-2 years later? Or is this going to be useless once Intel Ticks in '10?
  • Strid - Monday, November 3, 2008 - link

    Great article. I enjoyed reading it. One thing I stumbled upon though.

    "The PS/2 keyboard port is a nod to the overclocking crowd as is the clear CMOS switch."

    What makes a PS/2 port good for overclockers? I see the use for the clear CMOS switch, but ...
  • 3DoubleD - Monday, November 3, 2008 - link

    In my experience USB keyboards do not consistently allow input during the POST screen. If you are overclocking and want to enter the BIOS or cancel an overclock you need a keyboard that works immediately once the POST screen appears. I've been caught with only a USB keyboard and I got stuck with a bad overclock and had to reset the CMOS to gain control back because I couldn't cancel the overclock.
  • Clauzii - Monday, November 3, 2008 - link

    I thought the "USB Legacy support" mode was for exactly that? So legacy mode is for when the PC are booted in DOS, but not during pre?
  • sprockkets - Monday, November 3, 2008 - link

    No, USB legacy support is for support during boot up and for the time you need input before an OS takes control of the system. However, as already mentioned, sometimes USB keyboards just don't work in a BIOS at startup for one reason or another, and in my opinion, this means they should NEVER get rid of the old PS/2 port.

    I ran into this problem with a Shuttle XPC with the G33 chipset, which had no ps/2 ports on it. There was a 50/50 chance it would not work.

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