Setup Notes and Platform Analysis

Prior to setting up the OS on the ASRock Industrial NUC BOX-155H, we took some time to look into the BIOS interface. As is typical for systems targeting the industrial market, the main BIOS interface isa vanilla one, but does provide plenty of knobs for the end user to tweak. The video below presents the entire gamut of configuration options.

On the other hand, the BIOS of the ASUS NUC14RVHv7 is much more consumer-friendly with mouse support, and a decently fancy GUI. There are a lot more tweaks available in this BIOS, including the ability to set up different display emulation schemes for headless operation, and the Absolute Persistence Module in the Add-in Config to allow extensive remote management using software from Absolute (BIOS needs to support this software, and it is possible for the end user to allow its activation, or even permanently remove support for it).

The videos above do not go into the ME / AMT login screens, even though it is available in the BIOS. It should be noted that the vPro Enterprise capabilities of the ASUS NUC14RVHv7 allow for better manageability compared to the vPro Essentials in the Core Ultra 7 155H of the ASRock Industrial NUC BOX-155H.

The BIOS in the NUC systems have always had plenty of interesting features (including fine-grained fan control). The ASUS NUC14RVHv7 carries over these features. In addition, ASUS is also pushing the MyASUS application to provide such control at the OS level (for fan speeds as well as diagnostics and other device settings). This is for the average consumer who doesn't want to fiddle with BIOS settings, but power users may also find some interesting features in the application. For some use-cases / users, these are value-additions that may sway the purchase decision towards the ASUS models. This feature has been available in the ExpertCenter line-up for a few generations now. ASUS is also enabling support for this application in the NUC 14 Pro SKUs.

The block diagram below presents the overall high-speed I/O distribution from the NUC BOX-155H's user manual.


ASRock Industrial NUC BOX-155H Block Diagram

ASRock Industrial uses the Hayden Bridge retimer for the Thunderbolt port, allowing for USB 3.2 Gen 2x2 support on it. In terms of external I/O, the following bus layout diagram provides further insights.


ASRock Industrial NUC BOX-155H Bus Layout

The block diagram below presents the overall high-speed I/O distribution from the NUC 14 Pro technical product manual.


ASUS NUC14RVHv7 Block Diagram

Even though it is not specifically mentioned, the retimers used for both USB4 ports are Hayden Bridge, allowing for USB 3.2 Gen 2x2 support on it. In terms of external I/O, the following bus layout diagram provides further insights.


ASUS NUC14RVHv7 Bus Layout

In today's review, we compare the ASRock Industrial NUC BOX-155H and the ASUS NUC14RVHv7 with a host of other systems in a similar form-factor. TDPs for the processors range from 15W right up to 65W.

Comparative PC Configurations
Aspect ASUS NUC14RVHv7 (Revel Canyon vPro)
CPU Intel Core Ultra 7 165H
Meteor Lake-H 6P + 8E + 2LPE / 22T, up to 5.0 GHz (P) up to 3.8 GHz (E) up to 2.5 GHz (LPE)
Intel 4 (CPU) / TSMC N5 (iGPU), 24MB L2, Min / Max / Base TDP: 20W / 115W / 28W
PL1 = 64W, PL2 = 64W
Intel Core Ultra 7 165H
Meteor Lake-H 6P + 8E + 2LPE / 22T, up to 5.0 GHz (P) up to 3.8 GHz (E) up to 2.5 GHz (LPE)
Intel 4 (CPU) / TSMC N5 (iGPU), 24MB L2, Min / Max / Base TDP: 20W / 115W / 28W
PL1 = 64W, PL2 = 64W
GPU Intel Arc Graphics
(8 Xe-cores @ up to 2.3 GHz)
Intel Arc Graphics
(8 Xe-cores @ up to 2.3 GHz)
RAM SK hynix HMCG66AGBSA095N DDR5-5600 SODIMM
46-45-45-90 @ 5600 MHz
2x8 GB
SK hynix HMCG66AGBSA095N DDR5-5600 SODIMM
46-45-45-90 @ 5600 MHz
2x8 GB
Storage Samsung PM9A1a MZVL2512HDJD
(512 GB; M.2 2280 PCIe 4.0 x4 NVMe;)
(Samsung 7th Gen. V-NAND 176L (136T) 3D TLC; Samsung Pascal S4LV008 Controller)
Samsung PM9A1a MZVL2512HDJD
(512 GB; M.2 2280 PCIe 4.0 x4 NVMe;)
(Samsung 7th Gen. V-NAND 176L (136T) 3D TLC; Samsung Pascal S4LV008 Controller)
Wi-Fi 1x 2.5 GbE RJ-45 (Intel I226-LM)
Intel Wi-Fi 6E AX211 (2x2 802.11ax - 2.4 Gbps)
1x 2.5 GbE RJ-45 (Intel I226-LM)
Intel Wi-Fi 6E AX211 (2x2 802.11ax - 2.4 Gbps)
Price (in USD, when built) US $700 (barebones)
US $816 (as configured, no OS)
US $700 (barebones)
US $816 (as configured, no OS)

The next few sections will deal with comparative benchmarks for the above systems.

Introduction and Product Impressions System Performance: UL and BAPCo Benchmarks
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  • meacupla - Thursday, May 23, 2024 - link

    I suspected it would work fine as a mini-PC.
    Asus' implementation hitting 100c under load is disappointing, but that's on Asus for not equipping it with adequate cooling.
  • shabby - Thursday, May 23, 2024 - link

    Don't forget to blame intel for letting a mobile chip run at 115w.
  • meacupla - Thursday, May 23, 2024 - link

    With all the recent power limit and stability controversy, my money is on Asus being the worse offender. It's entirely up to the OEM if they want to use 115W or not.

    AsRock's implementation doesn't hit 100c.
  • shabby - Thursday, May 23, 2024 - link

    Yes it does, keep reading further.
  • TheinsanegamerN - Friday, May 24, 2024 - link

    Intels reputation for being hot and slow continues unabated.
  • James5mith - Thursday, May 23, 2024 - link

    According to the color coding on the Jetstream graphs, Chrome/Edge were run on one of the NUCs, and Firefox on the other.

    You should probably try and keep those color codes consistent and matching what they are meant to match.
  • wr3zzz - Friday, May 24, 2024 - link

    This is an example of there are no bad products, only bad prices.
  • powerarmour - Sunday, May 26, 2024 - link

    Oh there's definitely bad products too, like this.
  • ionuts - Friday, May 24, 2024 - link

    Why not use an USB-C PSU?
  • TheinsanegamerN - Friday, May 24, 2024 - link

    Because why would they when they have a ready supply of mini barrel power supplies?

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