Intel Z77 Motherboard Review with Ivy Bridge - ASRock, ASUS, Gigabyte, and MSI
by Ian Cutress on May 7, 2012 7:40 PM EST- Posted in
- Motherboards
- MSI
- Gigabyte
- ASRock
- Asus
- Ivy Bridge
- Z77
MSI Z77A-GD65 - In The Box
The MSI Z77A-GD65 is currently available for $190, just north of the Gigabyte board. With this in mind, we also get a few more extras in the box than the Gigabyte:
IO Shield
Driver CD
User Manual
Certification of Military Class testing (FWIW)
Four SATA cables
Flexi-SLI bridge
M-Connectors (to help front panel connections)
V-Check cables (to help with voltage read points)
Voltage Readings
Using OCCT we monitor the voltage change of the motherboard under load. This represents the direct correlation between the Load Line Calibration and how the processor/motherboard deals with voltage requests while under load. This is not to be confused with the quality of power delivery, but more an indication of how aggressive the default LLC settings are on a motherboard.
Similarly to the ASUS board in this review, the MSI has minor variations in the CPU voltage. Worthy of note though is the lower VCore used by the MSI board compared to the other boards in this review while at load, suggesting more aggressive LLC settings.
Overclocking
Note: Ivy Bridge does not overclock like Sandy Bridge. For a detailed report on the effect of voltage on Ivy Bridge (and thus temperatures and power draw), please read Undervolting and Overclocking on Ivy Bridge.
Overclocking options on the MSI Z77A-GD65 are relatively straightforward. With the OC Genie button on board, give it a press and it lights up, causing the next boot to initialize a series of predefined settings for an overclock. Manual overclocks can be done by the Click BIOS software in the operating system, or by adjusting the BIOS directly.
Automatic Overclocking: After pressing the OC Genie button, it essentially seemed to enable the Enhanced Turbo option in the BIOS. The system booted without issue, and I was greeted with a 39x multiplier under all loads, showing 1.080 volts and 65ºC with PovRay. This is a rather disappointing automatic overclock. This is also indicative of issues relating to one button overclocks - the manufacturer is supplying a series of presets that has to work on every processor out of the factory. It is perhaps time that MSI introduces their own stress-testing overclock into the mix to get a better result.
Manual Overclock: Given the previous overclocking results achieved, with the MSI board we jumped straight in with 1.2 volts, with PLL Overvoltage enabled just for good measure. At this voltage, 46x multiplier was the highest multiplier stable, giving 82ºC with PovRay and showing 1.184 volts at load. In order to get the 47x multiplier to work, it required 1.250 volts on the CPU, although this gave 90ºC during PovRay and 1.240 volts at load.
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DarkRogue - Tuesday, May 8, 2012 - link
First off, thank you for the review.I am a bit bummed that the UD5H and the Z77 Deluxe were not reviewed, since those were the two I was looking at. Especially since the UD5H can be had for under $200.
Anyway, the voltage ripple/stability charts were quite interesting for me.
But my main concern lies with the Gigabyte's chart. It looks good... but in my eyes, TOO good. It's too perfectly straight. On one hand, I thought, "Wow, this board has awesome VRM or something."
On the other hand, it made me suspicious about why it was so stable. I have to ask, is it measuring the correct voltage?
The reason is because I had a similar finding when I was looking at the vcore requried to OC an IVB CPU (or any CPU, really) on the new Z77 mobos.
Per my thread here: http://forums.anandtech.com/showthread.php?t=22417...
We found that Gigabyte mobos were incorrectly reporting its VTT voltage as the vCore, which resulted in "vcore" readings in CPU-Z and other programs reporting the same, or very similar, 1.0xx voltages regardless of what the CPU OC'd to.
I hope to be able to get some clarification on this.
Only other suggestion I have is to really test more of the features of each motherboard. (mSATA, firewire, audio, etc; how do they compare with other chipsets, how are their drivers, etc..)
Thank you, and keep up the good work!
IanCutress - Tuesday, May 8, 2012 - link
Hi DarkRogue,I have the Deluxe on my test bed right now, so keep your eyes peeled for when I finish the review.
Regarding the voltage reading charts, it merely reads the OS reported voltage. This is loosely a smoothing of what ripple actually happens on board. After consideration, it only serves to show LLC on board, and how the board reacts to requested load by the processor. It's fairly easy for a manufacturer to override this to make sure only a straight line is reported. But, if it is a messy line, then there could be a problem (e.g. check my 990FX review a little while ago).
I'd love the kit to test more features on the boards (mSATA etc), if you've got any kit spare! :) Though keep in mind that each test can't take 2 hrs, or we would end up with 1 board a month reviewed (as we do this part time)! I'm open to suggestions regarding tests if anyone has a good one with a simple output I can report and analyse.
Ian
DarkRogue - Tuesday, May 8, 2012 - link
Thank you for your response, Ian!I wish I had the funds to send in spare items, though. Unfortunately, I'm not quite rich enough, haha. We'll have to be bound by the generosity of the various vendors to this site.
As far as tests go, I imagine some people would be interested in a quick RMAA test of the various audio chipsets. It's of no concern to me, since I insist onboard solutions are never going to be as good as a dedicated external DAC+amp, but it should be good for a lot of people.
I'd also be interested in how the eSATA and Firewire performs, as I'm of the camp that says anything firewire related that isn't Texas Instruments is not worthwhile. The eSATA, mainly it's to see if there are any quirks with the drivers from each manufacturer allowing hotswap properly or not, and whether it causes DPC latency issues. My friend's ASUS board was plagued with problems related to eSATA not allowing him to eject drives, BSOD'ing on resuming from sleep, causing massive DPC latency when a drive was connected, etc. It's these little things that really make or break the experience of a board.
I'd also like to see how well the fan controls are on each motherboard. ASUS' Fan Xpert 2 really drew me in, as it seems no one else can match the level of customization for fans. I dug a bit and found out that Gigabyte's boards not only cannot do this, but it even struggles to stay consistent between its various headers. (One header runs straight +12v no matter what, while the others make the fans spin at different speeds with the same settings.)
ANYWAY, back to the issue at hand - Gigabyte's voltage readings.
As I found in my thread linked above, Gigabyte appears to be reporting the wrong voltage, for some unknown reason. This to me seems to invalidate the test result for the Gigabyte board, because it's incomparable to the others.
I know that the purpose of the test is to test for variation in the voltage to the CPU, not necessarily the exact ripples, but the VTT supplies voltage to a completely different segment than the vcore, unless I'm mistaken. I wouldn't think that the voltage supplied toward the IMC would vary as much when the CPU ramps up and down.
Is there a way to force that program to probe a specific/different voltage reading, or have you already done this and the chart actually does represent Gigabyte's handling of vcore voltage? I wasn't able to figure that out from the article.
Thank you again!
UltraWide - Tuesday, May 8, 2012 - link
Thank you so much for covering the fan control features on each board! I truly appreciate this as it is often left out in other reviews.Keep up the great work!
AeroRob - Tuesday, May 8, 2012 - link
I don't know about anyone else, but I'm really sick of seeing VGA and PS/2 ports wasting space on new motherboads.I know some gamers might think that PS/2 does the job better than USB, and I can appreciate that, but VGA? Who even uses VGA connections anymore? They should be avoided like the plague.
And even if you do insist on using a VGA connection, what's the point of putting a DVI-D connector and a VGA together? Chances are you won't be using both, so just make it a DVI-I connector and throw in one of the cheap DVI>VGA adapters, and use the newly freed up space for a connector that isn't an ancient piece of garbage. Let's see HDMI or DP up there. Move things around so you can perhaps throw an eSATA connector on the back, or more USB ports--you can never have too many USB ports!
Paapaa125 - Wednesday, May 9, 2012 - link
PS/2 has one single thing that makes it superior to USB: you can turn your computer on by clicking space bar on a PS/2 keyboard or clicking mouse button on a PS/2 mouse. USB does not have this feature which is a big problem if your computer case is not easily reachable.Agree about VGA ports. Nobody uses them anymore. Nobody.
AeroRob - Wednesday, May 9, 2012 - link
As I understand it, gamers feel there's an issue with USB's polling rate, and prefer PS/2 for that reason.As for turning on your computer, I never heard about that. I rarely shut my computer completely off, and my wireless USB keyboard can wake it up from sleep just fine. Hell, my computer's so sensitive to any change, just flipping my monitor back on wakes it up (probably due to the built-in USB hub).
mcquade181 - Thursday, May 10, 2012 - link
I know whole organizations that still use VGA, and there are tons of KVM switch boxes in development and testing centres everywhere that only support VGA. Yes I know you can get HDMI and DVI KVM's but most places won't have them yet.I still use VGA occasionally and would be annoyed if it wasn't there.
Paapaa125 - Friday, May 11, 2012 - link
And how many of those organizations are switching to Z77 boards and still keeping their VGA?Ramon Zarat - Tuesday, May 8, 2012 - link
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