The ASRock DeskMini 310 Mini-PC Review: A Cost-Effective Mini-STX Platform
by Ganesh T S on March 15, 2019 9:30 AM EST
Small form-factor PCs and gaming systems have emerged as bright spots in the mature PC market over the last decade or so. Intel's NUC form-factor introduction was the turning point in the SFF segment, though it came with a few limitations for DIY enthusiasts. While mini-ITX systems are quite flexible and compact, Intel realized that the market could do with an option between the NUC and the mini-ITX systems. The mini-STX (5-inch by 5-inch, known as '5x5') form-factor was launched in 2015. ASRock and ECS have introduced a number of mini-STX form-factor boards and systems. Today, we are taking a look at a low-cost H310 chipset-based mini-STX system from ASRock: the DeskMini 310.
The ASRock DeskMini 310: Barebones Going Small
ASRock was one of the pioneers in the SFF PC space with their Core and Vision series of products using customized boards. After Intel's NUC and mini-STX became popular, the company introduced the Beebox (NUC clone) and the DeskMini (mini-STX and micro-STX) series into the market. The DeskMini units are sold as barebone packages, coming with the chassis, motherboard, power supply, Wi-Fi module, and assorted cables. Users need to supply a CPU, a CPU cooler, DRAM, and storage.
We have reviewed the DeskMini 110 mini-STX barebones PC back in mid-2016, and the DeskMini Z370 micro-STX PC (with a GTX 1060 discrete GPU in a MXM card) in mid-2018. The DeskMini 310 that we are looking at today is a follow-up product to the DeskMini 110. While the DeskMini 110 was based on the Intel H110 chipset and supported the LGA 1151 Skylake processors, the DeskMini 310 is based on the Intel H310 chipset and supports the 8th Generation and 9th Generation Intel processors. Similar to the DeskMini 110, the 310 also supports the stock Intel cooler and can accommodate processors with TDP of up to 65W.
The DeskMini 310 comes with the motherboard pre-installed in the chassis. Users need to supply their own CPU, DDR4 SODIMMs, and M.2 PCIe SSD and/or 2.5" drives. Installing them involves the removal of four screws and pulling out of the motherboard tray. The M.2 Wi-Fi module comes in a separate package (as shown in the above picture) and is not pre-installed. The other cables (such as the dual USB 2.0 port cable for connecting to the motherboard's USB 2.0 header, the serial port cable, and the SATA connectors) also need to be user-installed. The package also comes with a 120W (19V @ 6.32A) power adapter
The chassis of the DeskMini 310 is barely different from that of the DeskMini 110. The only update is the presence of two USB 2.0 ports on the left side panel (assuming the system is oriented vertically) - we saw this in the DeskMini Z370, and we are glad that the feature also makes it to the DeskMini 310. The location of these two USB 2.0 ports makes them perfect for plugging in the receivers for wireless keyboards and mice.
Moving on to the features of the motherboard itself, we find the DeskMini 310 enabling the M.2 SSD slot with four PCIe 3.0 lanes directly from the CPU. The PCIe lanes off the H310 chipset are used by the Wi-Fi module. The main difference compared to the DeskMini 110 board is the presence of a micro-SD slot. Other features (such as the ability to accommodate two 2.5" drives) are carried over from the DeskMini 110.
ASRock sampled us a barebones unit of the DeskMini 310. In order to complete the build, Intel helped us out with a Core i3-8100 (the budget H310-chipset is usually paired with one of the compatible low-end Core-series or Pentium/Celeron processors). We used a 240GB Phison PS5007 reference design with MLC flash for the NVMe drive (roughly equivalent to the Corsair FORCE MP500 or the Kingston KC1000) and Team Group's Vulcan DDR4 SODIMMs rated for 2400 MHz operation.
The specifications of our ASRock DeskMini 310 review configuration are summarized in the table below.
| ASRock DeskMini 310 Specifications | |
| Processor | Intel Core i3-8100 8th Gen. (Coffee Lake), 4C/4T, 3.6 GHz, 14nm++, 6MB, 65W TDP |
| Memory | Team Group TEAMGROUP-SD4-2400 DDR4 SODIMM 16-16-16-39 @ 2400 MHz 2x8 GB |
| Graphics | Intel UHD Graphics 630 |
| Disk Drive(s) | TEKQ PSE7 NVMe (comparable to Corsair FORCE MP500) (240 GB; M.2 2280 PCIe 3.0 x4; Toshiba 15nm MLC) |
| Networking | Intel Dual Band Wireless-AC 3168 (1x1 802.11ac - 433 Mbps) -Intel I219V Gigabit Ethernet Controller |
| Audio | 3.5mm Headphone Jack Capable of 5.1/7.1 digital output with HD audio bitstreaming (HDMI) |
| Miscellaneous I/O Ports | 3x USB 2.0 2x USB 3.0 Type-A, 1x USB 3.1 Gen 1 Type-C 1x micro-SDXC |
| Operating System | Retail unit is barebones, but we installed Windows 10 Enterprise x64 |
| Pricing (As configured) | $162 (barebones) $523 (as configured, No OS) |
| Full Specifications | ASRock DeskMini 310 Specifications |
In the table below, we have an overview of the various systems that we are comparing the ASRock DeskMini 310 against. Note that they may not belong to the same market segment. The relevant configuration details of the machines are provided so that readers have an understanding of why some benchmark numbers are skewed for or against the ASRock DeskMini 310 when we come to those sections.
| Comparative PC Configurations | ||
| Aspect | ASRock DeskMini 310 | |
| CPU | Intel Core i3-8100 | Intel Core i3-8100 |
| GPU | Intel UHD Graphics 630 | Intel UHD Graphics 630 |
| RAM | Team Group TEAMGROUP-SD4-2400 DDR4 SODIMM 16-16-16-39 @ 2400 MHz 2x8 GB |
Team Group TEAMGROUP-SD4-2400 DDR4 SODIMM 16-16-16-39 @ 2400 MHz 2x8 GB |
| Storage | TEKQ PSE7 NVMe (comparable to Corsair FORCE MP500) (240 GB; M.2 2280 PCIe 3.0 x4; Toshiba 15nm MLC) |
TEKQ PSE7 NVMe (comparable to Corsair FORCE MP500) (240 GB; M.2 2280 PCIe 3.0 x4; Toshiba 15nm MLC) |
| Wi-Fi | Intel Dual Band Wireless-AC 3168 (1x1 802.11ac - 433 Mbps) |
Intel Dual Band Wireless-AC 3168 (1x1 802.11ac - 433 Mbps) |
| Price (in USD, when built) | $162 (barebones) $523 (as configured, No OS) |
$162 (barebones) $523 (as configured, No OS) |
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ciparis - Friday, March 15, 2019 - link
For SFF machines like this, the industry standard I/O backplane needs to be replaced with a much more modern solution, sized appropriately for modern ports. Such an eyesore and a terrific waste of space.Death666Angel - Friday, March 15, 2019 - link
"waste of space" What would you put there to use up the space? It seems to me that the cooler might interfer with higher stacks of sockets.Hixbot - Friday, March 15, 2019 - link
You really need to add noise measurements to your SFF reviews.zodiacfml - Saturday, March 16, 2019 - link
The STX form factor will become more interesting in the years to come, considering Intel's tech roadmap (better integrated graphics, 3D chip stacking).zodiacfml - Saturday, March 16, 2019 - link
Forgot the most important, 10nm chips which could allow 10core CPUs in 65w TDPLord of the Bored - Saturday, March 16, 2019 - link
Assuming Intel ever figures out how to make chips in quantity again. I can't decide if the ongoing supply issues are sad, funny, or a sinister ploy to get people used to higher processor prices in advance of a new suggested retail cost plan.ajp_anton - Saturday, March 16, 2019 - link
I have a question about these "65W max" motherboards. What limitations have they put in place for 95W CPUs? Does the BIOS simply reject them, or will it fry the board at some point? I was thinking if it's possible to plug in a 95W -K processor but undervolt and underclock it so that it stays within 65W, but hopefully at a higher frequency than a stock 65W CPU thanks to the manual undervolting.ajp_anton - Saturday, March 16, 2019 - link
Especially since that 65W CPU never really uses 65W anyway. With a -K CPU it might be possible to create your own custom CPU that hits 65W max.MoreloveXXX - Sunday, March 17, 2019 - link
A real man will find a girl in a couple of minutes. =>> http://newgirlworld.gaThe_Assimilator - Sunday, March 17, 2019 - link
"The enabling of the M.2 SSD slot with PCIe lanes directly from the CPU gets around the bandwidth constraints imposed by the PCIe 2.0 links in the H310 PCH."Not like there's anything else to use those lanes... it would've been a massive waste if ASRock *hadn't* used the CPU PCIe lanes for something.