When we first analyzed the Z170 chipset from Intel, we were pleased to see that it offered 26 high speed input/output ports, which included 20 PCIe 3.0 lanes and support for up to three PCIe storage devices in RAID. Although there are some limitations with the PCIe lanes (networking is limited to five specific lanes), this development opened up the landscape for motherboard manufacturers to develop interesting products and stretch their engineering muscle. In typical fashion, ASRock has gone straight in the deep end and taken like a duck to water with this Z170 Extreme7+. For $240 it offers three M.2 ports, all capable of PCIe 3.0 x4 and with RAID in mind, as well as some other interesting add-ons for USB 3.1.

Other AnandTech Reviews for Intel’s 6th Generation CPUs and 100-Series Motherboards

Skylake-K Review: Core i7-6700K and Core i5-6600K - CPU Review
Comparison between the i7-6700K and i7-2600K in BenchCPU Comparison
Overclocking Performance Mini-Test to 4.8 GHzOverclocking
Skylake Architecture Analysis - Architecture
Z170 Chipset Analysis and 55+ Motherboards - Motherboard Overview
Discrete Graphics: An Update for Z170 Motherboards - PCIe Firmware Update

100-Series Reviews so far:

The MSI Z170 Gaming M7 Review ($230)
The ASUS Z170-A Review ($165)

To read specifically about the Z170 chip/platform and the specifications therein, our deep dive into what it is can be found at this link.

ASRock Z170 Extreme7 Overview

How many different features can you put into 20 PCIe 3.0 lanes from a chipset, using a maximum of sixteen features and four lanes at one time? It almost sounds like a game of imagination, or some building blocks similar to Duplo, Lego or Meccano. This is the feeling that the Z170 chipset gives when we look at it, which makes it exciting. It allows for anything that can run through PCIe lanes to be used – RAID controllers, network ports, SATA ports, M.2, USB 3.0/3.1, WiFi, FPGAs, ASICs, specialized function units and any weird idea that springs to mind (most of those end up in the enterprise space). There is only one barrier to entry – actually doing the correct engineering and trace routing, making sure the electrons go the right way and are not interfered with. Technically the engineering is easy if we are speaking in hypotheticals, but what makes it difficult is moving it to a consumer platform with both space and cost to consider. Extra PCIe devices cost money, so it’s important for a manufacturer to design a motherboard with both cost and utility in mind.

So insert the Z170 Extreme7+ from ASRock. The headline feature, as noted already, is the use of multiple M.2 slots on the motherboard. Each of these uses a PCIe 3.0 x4 connection to the chipset, and sits on HSIO lanes to enable Intel’s RST on all three, which enables RAID. To put that to the test, as shown in the image at the top of this page, ASRock put three M.2 to U.2 converter kits and three Intel SSD 750 drives in RAID, for fun, and reported 3.5 Gbps peak read speed and 3.2 Gbps peak write speed. Unfortunately I only have one SSD 750 to corroborate those results, but M.2 drives should work as well.

Each M.2 slot is connected to a PCIe switch that enables either an M.2 or a SATA Express port, perhaps unsurprisingly. That being said, almost everyone involved in motherboard and storage technology has called for the death of SATA Express, due to zero drives coming to market, making it redundant. ASRock is one of the motherboard manufacturers who is bundling in a device on certain motherboard models (any model with a plus ‘+’ in the name) that can take advantage of SATAe: a USB 3.1 front panel.

It’s a simple concept of a connector that goes into a SATAe port, add in some SATA power, also add in a USB 2.0 header cable, and the result is a pair of USB 3.1 ports (one Type-A and one Type-C) provided on a 5.25-inch front bay module. While it isn’t an elegant solution to solving the miasma of SATA Express, at least they can be used for something. Also, two more USB 3.1 ports is never a bad thing, especially when the Z170 Extreme7+ already comes with two on the rear panel.

Other functionality for the Extreme7+ comes in the form of double Intel network ports (I219-V and I211-AT), an enhanced Realtek ALC1150 audio solution, an x8/x4/x4 arrangement for graphics with another PCIe 3.0 x4 slot from the chipset (again, switched with a few features), six fan headers, TPM/COM, and a new look EZ BIOS mode that allows a simpler view of the overall system being used. If you really want a WiFi module, a half-height mini-PCIe slot is also in the middle of the motherboard.

In our benchmarks, ASRock’s regular characteristics shine through, offering a low power solution that has one of the shortest POST times. This comes at the expense of DPC Latency, which is abnormally high, but we’re told that this might be due to a BIOS bug which they are in the process of adjusting. With the BIOS we used, Multi-Core Turbo was not enabled which put a slight damper on our CPU benchmarks, but overclocking performance to 4.7 GHz is a good midfield compared to the 4.6 GHz to 4.8 GHz results we are getting on other products.

For ASRock’s motherboard models, some will be offered as a base model or with a plus in the name, indicating a USB 3.1 front panel bundled. The price difference is $20-$30, but the Extreme7+ does not come as a base package. This means for $240, if you really need M.2 functionality, very few other motherboards come close. The other features on board (USB 3.1, abundant SATA/USB 3.0, dual Intel NIC, audio) and a good display of benchmark results makes the Extreme7+ worthy of your consideration.

Quick Links to Other Pages

Page 2: In The Box and Visual Inspection
Page 3: BIOS
Page 4: Software
Page 5: System Performance (Audio, USB, Power, POST Times on Windows 7, Latency)
Page 6: CPU Performance, Short Form (Office Tests and Transcoding)
Page 7: Gaming Performance 2015 (R7 240, GTX 770, GTX 980)
Page 8: Conclusions

Quick Board Feature Comparison

Motherboard Comparison
  ASRock Z170 Extreme7+
Socket LGA1151 LGA1151
MSRP at Review $240 $230
DRAM 4 x DDR4 4 x DDR4
PCIe Layout x8/x4/x4 x8/x8
BIOS Version Tested 1.4 142
MCT Enabled Automatically? No Yes
USB 3.1 (10 Gbps) ASMedia ASM1142
1 x Type-A
1 x Type-C
ASMedia ASM1142
1 x Type-A
1 x Type-C
M.2 Slots 3 x PCIe 3.0 x4 2 x PCIe 3.0 x4
U.2 Ports No No
Network Controller 1 x Intel I219-V
1 x Intel I211-AT
1 x Killer E2400
Audio Controller Realtek ALC1150 Realtek ALC1150
HDMI 2.0 No No

ASRock Z170 Extreme7 Overclocking

Experience with ASRock Z170 Extreme7

ASRock’s overclocking features, especially for new users, have been somewhat hit and miss for a couple of years. There are a good number of preset automatic options that use a lookup table, but automated testing and manual operating system overclock options seem basic compared to some of the competition. In the BIOS, we are offered several options under CPU OC Setting:

There is also an ‘Advanced Turbo’ mode for a Gear 1/Gear 2 overclock, and when on the integrated graphics we get a few IGP OC options as well. In the operating system, this manifests in A-Tuning which seems to have been lobotomized for Z170:

A-Tuning offers similar results to the BIOS.

For our testing, we used the CPU OC options and manual selections.


Our standard overclocking methodology is as follows. We select the automatic overclock options and test for stability with PovRay and OCCT to simulate high-end workloads. These stability tests aim to catch any immediate causes for memory or CPU errors.

For manual overclocks, based on the information gathered from previous testing, starts off at a nominal voltage and CPU multiplier, and the multiplier is increased until the stability tests are failed. The CPU voltage is increased gradually until the stability tests are passed, and the process repeated until the motherboard reduces the multiplier automatically (due to safety protocol) or the CPU temperature reaches a stupidly high level (100ºC+). Our test bed is not in a case, which should push overclocks higher with fresher (cooler) air.

Overclock Results

OC results for both Optimized OC and manual results gave very similar results, both in performance, power consumption, voltage and temperatures. This makes me think that somehow ASRock stole my processor overnight and tweaked their BIOS with it. Either that, or we’re just extremely lucky. The automated overclock option did not seem to work properly, and is rather basic, making it not the best tool to use. In that instance, the CPU Optimized OC options take the baton sufficiently.


Board Features, Visual Inspection
Comments Locked


View All Comments

  • Idrathernotsay - Friday, November 27, 2015 - link

    Dunno about the actual quality of the motherboard, but Newegg has, for example, an MSI board for $89, with USB 3.1, m.2 slot (PCIe 3.0 x4), and Realtek audio/network. I'd just like to know if a fancy network card can justify 2x the price, or if the bottom-of-the-barrel motherboards are made of literal garbage and will burst in flames if you look at them the wrong way, because, -for me specifically-, a network card just has to be there and the audio is useless (as I've a xonar for my headphones).

    Are there actually any stability issues with the cheaper motherboards? Weaker power delivery circuitry that limits the possible overclocks— if so, by how much? $80 dollars can be quite a bit, and either saving or spending them somewhere else on the machine might make a bigger difference than going for a pricier mobo...
  • Aspiring Techie - Friday, November 27, 2015 - link

    The cheaper motherboards probably can't handle much of an i5 overclock. However, I own a $60 Asrock H81m DGS board, and I can maintain a stable 4.0 GHz at low temps with the stock cooler. Cheaper motherboards don't have as elaborate vrm cooling solutions, so high overclocks can bust the board. However, cheaper boards will do roughly the same as a more expensive board as long as you aren't running a PCIe SSD or a very high end graphics card with an overclocked i7.
  • Idrathernotsay - Friday, November 27, 2015 - link

    Fine, but that's a bit vague tho. The "problem" with the cheaper end of the spectrum is that you have to rely on word of mouth, or occasional reviews on stores, that might or might not actually apply to the motherboard you're considering. How does "probably can't handle much of an overclock" translate in numbers? It's obviously gonna run stock (or they wouldn't sell it), and it —does— support overclock, but how would that be affected by the power delivery with the specific Skylake architecture? If it runs 4.6 fine, I (and a bajillion other people) would be perfectly fine with that while putting $80 more onto the GPU (or back in my wallet).

    I'm not asking for an in-depth review (as there's not much point in a feature-light product, when the general architecture of the platform has already been analyzed in details), but I just wonder how useful reviewing pieces of hardware that are full of "gimmicks" and targeted to the smallest of niches (as the article itself states in the conclusion), and not even give a quick glance to the bottom-tier that actually moves the most units.

    I'm not saying that any of the writers here —have— to, or that the reviews that are currently published aren't interesting, just that I'd like to see some Anandtech-quality numbers of shit I might actually buy. They do test cheaper SSDs and the less expensive GPUs, less pricey mobos wouldn't be that far out.
  • alexdi - Saturday, November 28, 2015 - link

    There isn't any significant difference. You'll have fewer PCIe lanes, fewer third-party chips, and somewhat simplified voltage regulation. That stuff will matter for some edge cases and not at all for everyone else. Otherwise, IME, the manufacturer of the board is considerably more important than what it has on it. They apply the same QC, good or bad, to L the boards.
  • JlHADJOE - Friday, November 27, 2015 - link

    OC software is getting really good. In this case it looks like it actually outdid your manual OC, getting 4.7GHz stable at lower voltage and temps.
  • extide - Monday, November 30, 2015 - link

    x2, I was surprised that this was not mentioned in the article!!
  • rallyhard - Friday, November 27, 2015 - link

    The "Conclusions" link, under "Quick Links to Other Pages" actually links to page 1.
  • Ian Cutress - Friday, November 27, 2015 - link

    I'm not sure why that is. The link should work as it was.
    I've updated it now to include the slug, and it seems to be fixed.
    Thanks for letting us know :)
  • ghostmuse - Friday, November 27, 2015 - link

    Man, that is a bummer about the DPC latency. As someone who does a lot of pro audio work, which requires the lowest possible DPC latency, and someone who wants to build an enthusiast system for 4k gaming, Skylake thusfar is not letting me have my cake and eat it too. I was looking at this board because it looked like you'd be able to run Dual SLI and still use one of the M.2 ports, AND was hoping the DPC latency would be low, but that looks like that's not the case. My first choice, ASUS' Z170 Deluxe scored well on the DPC latency tests but if you try to use SLI you block the M.2 port. I guess I'll just save my cash until some next gen boards pop up, or hope that ASROCK manage to get that DPC latency figure down with bios updates.
  • Byte - Saturday, November 28, 2015 - link

    I just got one of these puppies running the past week and its awesome. I just got the latest BIOS update, is there an accurate way to measure DPC latency in Win10?

Log in

Don't have an account? Sign up now