ASRock X79 Extreme4-M and X79 Extreme4 Review – Sandy Bridge-E meets mATX
by Ian Cutress on December 9, 2011 12:00 PM EST- Posted in
- Motherboards
- ASRock
- X79
In The Box
Back in the P67 days, if you remember the P67 Extreme4 by ASRock, for ~$160, we got a substantial haul in the box, including a front panel USB 3.0 panel and SSD holder. No such luck for the low end here, as we have:
2 x SATA Cables
IO Panel
Driver CD
2 Slot SLI Bridge
I am a little disappointed to be honest, given ASRock’s previous tenacity when it comes to box bundling.
Board Features
| ASRock X79 Extreme4-M | |
| Size | mATX |
| CPU Interface | LGA2011 |
| CPU Support | Intel Second Generation Core i7 Sandy Bridge E |
| Chipset | Intel X79 |
| Base Clock Frequency | 100.0 MHz |
| Core Voltage | Default, 0.6 V to 1.7 V |
| CPU Clock Multiplier | Auto, 12x to 60x |
| DRAM Voltage | Auto, 1.207 V to 1.806 V |
| DRAM Command Rate | Auto, 1N to 3N |
| Memory Slots |
Four DDR3 DIMM slots supporting up to 32 GB Up to Quad Channel Support for DDR3, 800-2400 MHz |
| Expansion Slots |
2 x PCIe Gen 3 x16 1 x PCIe Gen 3 x8 1 x PCI |
| Onboard SATA/RAID |
2 x SATA 6 Gbps, Support for RAID 0, 1, 5, 10 4 x SATA 3 Gbps, Support for RAID 0, 1, 5, 10 1 x SATA 6 Gbps (Controller) |
| Onboard |
4 x SATA 3 Gbps (PCH) 3 x SATA 6 Gbps (2 PCH, 1 Controller) 6 x Fan Headers 1 x 4-pin Molex CFX/SLI Power Connector 1 x HDMI_SPDIF Header 1 x Front Panel Header 1 x Front Panel Audio Header 2 x USB 2.0 Headers 1 x USB 3.0 Header 1 x COM Header 1 x IEEE 1394a Header Power / Reset / Clear CMOS Buttons + Debug LED |
| Onboard LAN | Broadcom BCM57781 Gigabit LAN |
| Onboard Audio |
Realtek ALC898 7.1 Ch HD, Supports THX TruStudio |
| Power Connectors |
1 x 24-pin ATX connector 1 x 8-pin 12V connector 1 x 4-pin Molex CFX/SLI Power Connector |
| Fan Headers |
2 x CPU Fan Header 3 x Chassis Headers 1 x SB Header (occupied) |
| IO Panel |
1 x PS/2 Mouse Port 1 x PS/2 Keyboard Port 1 x Optical S/PDIF Out Port 1 x Coaxial S/PDIF Out Port 6 x USB 2.0 2 x USB 3.0 1 x eSATA 6 Gbps 1 x Gigabit Ethernet 1 x Firewire 1 x Clear CMOS Audio Jacks |
| BIOS Version | 1.4 |
| Warranty Period | 2 Years |
ASRock are starting to use Broadcom NICs on their products, as you will see with the Extreme4 later in this review and the Extreme9 in a later review. As mentioned in the intro, it is nice to see a high end Realtek Audio Codec in there, even on a mATX board. On the flip side, with the 4-pin molex CFX/SLI power connector on board in an odd position, one has to wonder whether it is really needed when other boards do not require it.
Overclocking
Over this year, I have had a number of ASRock Sandy Bridge boards through my hands. On the whole, they tend to overclock well with one button settings, even if not able to overclock to the absolute extreme. This is usually useful for system builders or amateur users wanting some extra bang for their buck. But as we have already seen on the Patsburg chipset, these LGA2011 chips are hot beasts waiting to be tamed. In order to keep everything the same, we are testing the same exact processor on the exact same cooling – the Intel All-In-One Liquid Cooler.
Initial impressions for the X79 Extreme4-M looked good, however it does suffer from various throttling modes to prevent high temperatures. What I mean by this is that if you set the processor frequency high enough, and the cooler cannot deal with it properly (either it is not a good cooler, or clogged with dust), the system will reduce the multiplier to compensate for temperature. This is all well and good on the majority of systems, however there was no option to turn it off in the BIOS (think extreme overclocking, or perhaps just experienced users). So for example, if we set 4.6 GHz in BIOS, it would run at that speed in single threaded scenarios, but in multi-threaded tasks it would reduce back to 3.9 GHz. Then, as per Intel specifications, the CPU would reduce to stock (3.3 GHz) if it was at full load for a certain time. There seemed to be no way to turn any of these options off – the last point for 3.3 GHz is usually controlled by a timer stating how long Turbo can be engaged, but ASRock have not offered an option to disable it for ‘safety’. Each to their own, but it really hurts anyone who overclocks the system. The only way around this reduction to 3.3 GHz seemed to be to leave the CPU at stock frequencies, then it would only reduce to 3.6 GHz, as per Turbo core rules. It is rather disappointing.
Nevertheless, I did go through the Auto and Manual OC tasks as usual to see what was possible. In our Auto tests, we keep everything untouched as much as possible except the one setting. During our manual OC of X79, we set a CPU voltage limit of 1.4 V for a balance of performance and temperature.
In Auto OC mode, the BIOS offers several options from 4.0 GHz to 5.2 GHz in 200 MHz jumps, with the final three in a red font, showing their ‘extreme’ nature. I was able to start at 4.8 GHz; however the automatic settings on board gave the CPU 1.54 volts! This was quite extreme, resulting in throttling almost immediately, but still reaching 83ºC in our multithreaded 3DPM test, with 3.3 GHz scores.
At 4.6 GHz, these issues still persisted, and the CPU was still receiving 1.54 volts. However at 4.4 GHz, the system seemed stable, even if the CPU was getting 1.48 volts. No throttling took place, until the turbo period was up and the CPU cut back to 3.3 GHz.
In terms of Manual OC, I set the board to give the CPU 1.4 volts, and rose the Core Current Limit to 500A, to stop as much throttling as possible. Using this, I was able to reach a 47x multiplier, giving 4.7 GHz. In the OS, the CPU was recorded as receiving 1.456 volts at load, presumably due to load line calibration. At full multithreaded load, the CPU would reduce back to 3.9 GHz, and reach 71ºC when under 3DPM. After the allotted turbo time, the CPU would again reduce back to 3.3 GHz.
For the memory overclock, this was a bit frustrating. I am currently using a 4x4 GB set of GSkill RipjawsZ (DDR3-2133 9-11-9-28 1.65 V), in which I have had them running at 2752 MHz (even though at silly timings of 13-13-14, but still with 1.65 V) with Llano. However, it seems the Integrated Memory Controller with my LGA2011 chip is not that good. While we were able to set our XMP profiles on the memory, the next divider up was at DDR3-2400. In order to be comparable to XMP, I reduced the timings to 10-12-10-31 2T, but after one successful boot, it failed to get into the OS after many attempts, and thus is not stable.
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prophet001 - Friday, December 9, 2011 - link
b/c this is perfect grammar"Also, whats with fascination with older video "
mischlep - Friday, December 9, 2011 - link
Minor typo on recommendations page:(e.g. currently $219 at time of writing, saving £6) Should be "saving $6".
zanon - Friday, December 9, 2011 - link
Interesting review overall. A few comments:Page 6:
You still refer to setup stuff as "BIOS" even though it's clearly (I hope?) UEFI nowadays. Any particular reason for this? Or is it actually still BIOS for real despite clearly saying UEFI on that screen. It's confusing that you use both if you only mean one.
Also on page 6: "With the XFast RAM software, users can shift certain parts of the OS to the RAMdisk, such as the memory pagefile"
What. The entire *point* of a pagefile is that all your physical memory is used up and you're now hitting secondary storage. Reducing your main memory in order to make a RAMdisk that you then...use for memory? Nope nope nope.
Spivonious - Friday, December 9, 2011 - link
Yeah, I don't understand why you'd want the pagefile in RAM instead of just using the RAM.JonnyDough - Friday, December 9, 2011 - link
What he said. Some programs require a pagefile. Allocated memory and a pagefile are not the same.JonnyDough - Friday, December 9, 2011 - link
Also, a pagefile can be dumped/saved on shut down. RAM is cleared.Aisalem - Friday, December 9, 2011 - link
Some of the software will not work properly or will simply crash in some situation if you will have no pagefile enabled. That's why having RAMdisk is very good idea as even if you will have 32GB RAM you still need at least 300MB pagefile on the system to be sure that all software will run proper. Using XFast RAM you simply "cheating" system by creating special partition with only pagefile on it making sure that system is running stable.zanon - Friday, December 9, 2011 - link
Um, no. Windows doesn't have that crappy a VM system, nor does any other modern OS. While some applications may check for the presence of a pagefile if the authors that wrote them were brain dead morons (you should search for other applications in that case), the OS isn't going to start paging anything out of main memory while there is still free or inactive memory available. It'll only start hitting the VM when main memory is consumed. Leave it to the OS. If you want things to go faster once you exceed your maximum physical main memory, get an SSD. Get an SSD anyway, actually.Wardrop - Friday, December 9, 2011 - link
Actually, at work I regularly used up all 8GB of my RAM while running VM's and multi-tasking. When that happened, some programs would spontaneously crash and disappear. Re-enabling the page file (only a small 512MB page file) fixed the problem. This was on Windows 7 x64 by the way. I use to always turn off my page file, but now I always keep a small page file enabled for that reason.JonnyDough - Friday, December 9, 2011 - link
You and Spivonious are so obviously not researched on the matter of using a ramdisk. I suggest you study up before posting, you look like a fool.