ASUS P7H57D-V EVO

ASUS's H7P57D-V EVO will set you back around $200, which is going to be a big hurdle...

ASUS P7H57D-M EVO
Market Segment H55 General Use/HTPC
CPU Interface LGA-1156
CPU Support LGA-1156 i3/i5/i7 Series of Processors
Chipset Intel H57 Express Chipset
BCLK Speeds 80-500MHz in 1MHz increments
DDR3 Memory Speed 800, 1067, 1333 Frequency Ratios
QPI Frequency All supported mutlpier ratios available
Core Voltage 0.85V ~ 1.70V in 0.00625V increments
CPU Vdroop Compensation On/Off
CPU Clock Multiplier Dependant on Processor, all available multipliers supported
DRAM Voltage DDR3 Auto, 1.20V ~ 2.50V in 0.0125V increments (1.50V base)
DRAM Timing Control tCL, tRCD, tRP, tRAS, + 15 Additional Timings
DRAM Command Rate Auto, 1N, 2N and 3N
PCH Voltage Auto, 1.05V ~ 2V in .01V increments, 1.05V Base
CPU VTT (Uncore) Voltage 1.1V ~ 1.90V in 0.02V increments
CPU PLL Voltage 1.8V ~ 2.2V in 0.02V increments, 1.80V Base
Memory Slots Four 240-pin DDR3 DIMM Slots
Dual-Channel Configuration
Regular Unbuffered DDR3 Memory to 16GB Total
Expansion Slots 2X PCIe 2.0 16X Slot (16x single slot, or 8x/ 8x when both slots occupied)
1x PCIe 2.0 X1 slots (running at 5GT/s)
2x PCIe 2.0 X1 slots (running at 2.5GT/s)
2 X PCI slots
Onboard SATA/RAID 6x SATA 3.0Gbps Ports - Intel Chipset (Supporting RAID 0,1,5 and 10, NCQ and Hot-Plug)
2X SATA 6.0 GB/s ports - Marvell PCIe SATA 6.0Gb/s Controller
Marvell 88SE6111 SATA and PATA Controller
1X Ultra DMA 133/100/66 for up to 2 PATA devices
1 X External SATA 3.0 Gb/s port
Onboard USB 2.0 12 USB 2.0 ports (4) I/O Panel, 8 via brackets
2 X USB 3.0 connectors on rear I/O (NEC USB 3.0 controller)
Onboard LAN Realtek 8112L Gigabit LAN (PCI/e)
IEEE 1394 2X IEEE 1394a ports (1X Onboard and 1X I/O) - VIA VT6308P Controller
Onboard Audio Realtek ALC889 High Definition Audio Codec, 7.1 Channel
Other Onboard Connectors 1X FP Audio, 1X 1394, 1X COM, 1X S/PDIF
Power Connectors ATX 24-pin, 8-pin EPS 12V
I/O Panel 1 x PS/2 Keyboard
1 x RJ45
1 x eSATA
4 x USB 2.0/1.1
2 x USB 3.0
1 x Optical Toslink
1 x HDMI
1 x RGB
6 Audio I/O jacks
Fan Headers 1 CPU + 3 Additional Headers
Fan Control Full temp/speed fan control for CPU header via BIOS or OS software
2 X Chassis FAN headers have 3 step speed control via BIOS or OS software. No control offered for the remaining fan header
Package Contents 2X SATA 3G cables, 2X SATA 6G cables, 1 X UDMA cable, User Guide, 1 X Q-Connector, 1 X Driver/software DVD, 1 X I/O Shield, 1X 2 Port USB 2.0 and eSATA module, 1X SLI Bridge.
Board/BIOS Revisions Used Board Rev
BIOS Files Used: 0401, 0503 and Beta BIOS 0999
Form Factor ATX (12 in. X 9.6 in.)
Warranty 3 Year Standard

Bundled with P7H57D-V EVO you get two SATA 3G cables, two SATA 6G cables, one UDMA cable, User Guide, Q-Connector, Driver/software DVD, I/O Shield, one 2-port USB 2.0 and eSATA module, and an SLI Bridge.

Realtek's ALC889 codec is utilized for audio purposes, although you get the DTS Surround Sensation features included in the Realtek driver package to sweeten the deal.

The big addition to this board is the SATA 6G controller; we're guessing this is ASUS's primary justification for the $200 price tag. It's still a little early to make full use of SATA 6G, but we guess it needs to be here well before the peripheral devices are.

At the price point, we'd have liked ASUS to include a high quality NIC like those from Intel; instead you get the standard Realtek offering which you find on boards costing half what you're paying here. Differences are not large, but the addition of quality components certainly doesn't hurt.

Software

The software bundle for the H57 EVO is virtually the same as the ASUS P7H55D-M EVO, adding nifty automated overclocking software to the mix. It's probably the best automated overclocking tool we've seen on any board to date.


One click of a button and the board performs a series stress tests, monitors temperatures, and then increases frequency in steps prompting the user for approval of the overclocked frequency before pushing further. Selecting the extreme profile will take your CPU over 4.5GHz and beyond if you have the right cooling.

You also have the option of automated overclocking in the BIOS, although it does not offer the options you get in the OS software. The automated BIOS level routine reboots the board 4-5 times, runs a few stress tests, and then applies a CPU/memory frequency accordingly. On an open test bed, this took our CPU to just shy of 4.3GHz, which is within 20MHz of where we'd have set it up manually. Memory speeds can be a little on the conservative side compared to what's possible if you do things yourself, but the overall delivery is very good.

One of the of the notable tools bundled with the board is Express Gate, ASUS' touted "fast boot" Linux based OS, offering web browsing, Skype/chat, and basic photo editing features. Although everything works fine when loaded, the issue is that you have to set the drive you've installed Express Gate onto in IDE mode for the whole thing to work. With most users utilizing AHCI for their drives, we can't imagine you'll be too impressed having to enter BIOS and set IDE mode every time you want to use Express Gate, only to change back to AHCI for your primary OS. It's not exactly "fast-boot" if you have to do this. We like the software; we'd just prefer it if ASUS could do something about setting AHCI mode in BIOS and have it working with Express Gate.

(Ed: I'm not as impressed with Express Gate, at least from my testing with laptops. It boots to the main menu in about seven seconds, true, but loading the web browser or other apps takes an additional 10-15 seconds in my experience. At that point, you should just use the regular OS. I feel ASUS is wasting time and money on something only a fraction of a percent of users will ever use. It's not a bad utility as such, but it feels more like a checklist item than anything users are actually demanding. Feel free to disagree and flame me. -Jarred)

The Board


General board layout is good, with sufficient slot spacing to suit a variety of configurations. Dual GPU loading leaves single slot spacing between both cards, which helps keep temperatures down. There's always access to at least one PCI-E x1 slot for soundcards.

ASUS utilizes a PLX PCI-E x4 bridge chip to multiplex some of the PCI-E lanes to accommodate the Marvell 6G SATA controller. We're not sure how much the bridge chip helps in this situation as Interrupt requests from the CPU are still going to be bandwidth limited according to the maximum data rate of the generic interface.

CMOS battery placement is far from ideal, needing removal of any card in the primary PEG slot for access. On a positive, the CMOS clear jumper is located at the lower right edge of the board, which should be sufficient to get you out of a fix. You might not even have to use that as BIOS recovery from failed overclocking is excellent. Our board came back to POST in safe mode every time we made a mistake, needing nothing power than a power down to get back into the BIOS.

The onboard heatsinks do a fine job of keeping board temperatures down too; moderate overclocking doesn't require much active cooling over the sinks at all. There's nothing blatantly in the way of larger CPU coolers, so you should be in for trouble free installations for the most part.

Most boards in this price range come with Hex post code readers and onboard power buttons for open test bed users, but you won't find either of those here, which is a shame. Instead, you get a couple of LEDs that blink on and off during the boot process to let you know things are underway; we'd have liked a little more at the price.

The "Mem OK" button is a safety feature that can bring the board back from a failed overclock if need be, without having to resort to CMOS clearing. Again, it's not something we've needed to use on the latest BIOS releases, as automated OC recovery seems to get the job done.

Overclocking

Probably the most consistent board of the bunch overall, edging out the smaller sibling H55D-M EVO in 8GB configurations. Oddly enough, it's not quite strong enough to match the ASRock with 4GB of memory when using a discrete GPU but it comes in a close second.


182MHz is about the BCLK limit of the 2:10 memory ratio given ideal circumstances, and by ideal we mean a top-end Elpida Hyper based memory kit. Use something more capacitive - which 99% of you will be - and you're looking at knocking around 5 BCLK off these figures depending on the ceiling frequency of your memory. On the A-side, this board is the only one that managed to take our 8GB Corsair kit to 1600MHz fully stable:


The ASUS P7H55D-M EVO gets close to this, falling shy by a couple of megahertz. Bear in mind what this board costs though for a small advantage in this department; it doesn't offer an earth shattering improvement for the additional outlay.

One thing we should mention here is that if you've got the cooling on tap and are looking at running a Clarkdale CPU hard for 24/7 use, we'd recommend one of the ASUS boards used here today. We've taken both boards over 4.5GHz with water-cooling easily and completed full stress tests without a glitch. The MSI and ASRock boards are a little more limited in the current department, so they're best used at speeds below 4.5GHz if you intend to load the CPU heavily.

BIOS

The 0401 and 0503 BIOS releases are nigh on identical to the BIOS offered on the P7H55D-M EVO. 0503 is well laid out, offering almost every available chipset and DRAM timing option for manipulation. Unlike MSI, every option presented has a working AUTO setting, so you're not forced to do things on your own. The 0999 beta BIOS lacks some of the finer tRD options and such, so we wouldn't recommend it. 0999 was released in a bid to enhance overclocking, but in our testing to date we've yet to see it offer any advantage over 0503. If anything, 0999 is a step backwards.

One thing to note with ASUS' AUTO settings for voltage is that if you leave them be while overclocking, the BIOS attempts to apply a level of voltage it deems necessary for the applied frequency. It's probably wise to set some of these voltages to a fixed value before you begin to push things hard; otherwise they may end at values a lot higher than what you actually need. iGPU voltage is one example: our board set the rail voltage for the IGP at 1.6V on one occasion when in reality it needed nothing more than 1.4V.

You get eight save locations for BIOS profiles, all of which can be named for reference purposes. BIOS flashing is made easy via the built in EZ-Flash BIOS routine, allowing you to update the BIOS from a USB stick or even from the hard drive.

ASUS tells us they will be moving forwards with the additional overclocking functions that were introduced in the 0503 BIOS rather than the 0999 beta, which we think is a good choice. In terms of layout and functionality, the ASUS BIOSes are head and shoulders above what you get from ASRock and MSI at this point.

ASUS P7H55D-M EVO MSI H55M-ED55
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  • crochat - Wednesday, February 3, 2010 - link

    In my opinion testing H5X boards should focus on IGP. Isn't that the aim of the chipset to use CPUs with IGP? Instead of the gaming benchmarks I'd be much more interested in multimedia and peripheral (firewire, esata, usb, networking) performance.

    Regards
  • thorgal73 - Tuesday, February 2, 2010 - link

    Just to let you know, Massman found the solution to the IGP overclocking problem :

    http://www.madshrimps.be/?action=getarticle&ar...">http://www.madshrimps.be/?action=getarticle&ar...

    Cheers!
  • Rajinder Gill - Tuesday, February 2, 2010 - link

    Thanks for the link.

    That actually makes a lot of sense and explains the extra IGP voltage you have to pump - even though BIOS shows a fixed IGP freqeuncy.

    Probably a good idea just to make it into an Excel calc so people can use it easily.

    http://www.mediafire.com/file/2go0yotyz5z/quick">http://www.mediafire.com/file/2go0yotyz5z/quick igp calc.xlsx

    later
    Raja


  • Rajinder Gill - Tuesday, February 2, 2010 - link

    This one's a bit better, easy to work out the required BCLK for and equivalent IGP frequency at various IGP multiplier ratios.

    http://www.mediafire.com/file/nhfnnedgzwb/quick">http://www.mediafire.com/file/nhfnnedgzwb/quick igp calc.xlsx
  • yuhong - Monday, February 1, 2010 - link

    "If you're going to use the IGP, you don't really need the extra PCI-E lanes, which essentially means that you're paying for the option to run RAID on the H57 PCH. "
    Well, USB 3.0 and SATA 6GBps takes 4 PCIe lanes.
  • Rajinder Gill - Monday, February 1, 2010 - link

    You're looking at $200 boards that offer both SATA 6G and USB 3.0 in tandem unfortunately. USB 3.0 can be had under $130, with enough PCI/e left over for upgrading IMO.
  • Nataku - Monday, February 1, 2010 - link

    Just wondering (may be I'm just being dumb)

    Do you know if any or all of the h55 boards support dual screen?
    I've been wanting to build a HTPC and dual screen it with my TV and a touch screen, but wasn't sure if the video out can actually work in dual screen mode.(ran into one that only ran in clone long ago =.=)

    Also, this is off topic but, will you guys be making some reviews on touch screen monitors? HP and Dell are selling 20"+ touchscreens at around 300CAD but Firebox and Elo are selling 15" at 4~500CAD. Just curious how that part of the industry are coming along (20" too big imo to be beside a TV...)
  • Rajinder Gill - Monday, February 1, 2010 - link

    Hi,

    Yes, dual display options are offered as part of Intel's drivers for the IGP. So you should be able to setup both options. I've tried with DVI and HDMI outputs simultaneously and it recognises both fine and allows you to set them up.

    Jarred's the guy for monitors and such, so I'll pass the info over to him.

    Hope this helps..

    Raja
  • Nataku - Thursday, February 4, 2010 - link

    Thanks :)
  • Rick83 - Monday, February 1, 2010 - link

    I am currently looking to upgrade my server and the savings from replacing the old nv 6200 with on-chip graphics are attractive.
    Now, normally this would be a done decision, but I am planning on running quite a few drives in that box, 14 to be precise. Currently I have one RAID 5, one RAID 1, one root disk and one optical drive, I will add another RAID 5 and another RAID 1 as part of the upgrade. All except 5 drives are attached via SATA. I already have an IDE-controller installed via PCI, but I'd like to avoid installing an extra SATA controller, as it seems much cheaper to just go for a board with 10x SATA on board.
    But due to my use of full-disk encryption, I'd really like to be able to access AES-NI, so it will have to be a clarksdale i5. There are P55 boards with 10 SATA ports, and X58 boards too, but I'd really like to go with the on-chip graphics, both to save what little pci-e I have on these boards, as well as to save the space and energy.
    Does anyone reasonably expect Asus or Gigabyte or MSI (as those are the usual suspects for 10x SATA) to release such a board based on H5x? If not, I'd best grab an old Gigabyte P55 UD5 soon...

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