Intel’s Tiger Lake-based NUCs have been delivery for properly over a 12 months now. 4 product traces have been deliberate initially – Panther Canyon for the mainstream market, Tiger Canyon for the skilled / enterprise market, Phantom Canyon for gaming fanatics, and the Elk Bay Compute Ingredient for embedded purposes. Provide chain challenges have been impacting availability of various fashions in several areas, however that has not prevented Intel’s companions from delivering complementary merchandise.
Akasa is a widely known producer of thermal options for computing programs focusing on industrial purposes in addition to house customers. They’ve been sustaining a lineup of passively-cooled circumstances for Intel’s NUCs since 2013. We had reviewed their Turing case for the Bean Canyon NUC a few years again, and are available away pleasantly shocked. Not typically will we see a fanless case managing to maintain the processor cooler than an actively-cooled answer for a similar workload, however that’s precisely what the Akasa Turing achieved. For Intel’s Tiger Canyon NUCs, Akasa carries three essential merchandise – Newton TN, Plato TN, and Turing TN. The corporate sampled us the Newton TN for assessment with Intel’s pattern of the NUC11TNKi5.
On the Tiger Lake UCFF entrance, we had reviewed solely a few programs – the ASRock Industrial NUC BOX-1165G7 final 12 months, and extra not too long ago, the Supermicro SYS-E100-12T-H. We took the Akasa Newton TN assessment alternative to additionally carry out an in depth analysis of Intel’s personal providing – the NUC11TNKi5 Tiger Canyon NUC. The assessment under introduces the Tiger Canyon NUC {hardware} and particulars the construct course of for its fanless model utilizing the Akasa Newton TN earlier than going into the standard platform evaluation. Following this, the benchmark numbers for the passively cooled configuration are in contrast in opposition to the unique NUC11TNKi5 (together with a bunch of different programs). Lastly, outcomes from the thermal analysis of the fanless system are introduced. Collectively, these present an thought of what Tiger Lake can ship in a fairly compact fanless system and likewise whether or not the Newton TN manages to copy the success of the Turing.
Introduction and Product Impressions
Intel’s Tiger Lake processors introduced the Willow Cove microarchitecture fabricated in a fairly mature 10nm course of to the market final 12 months. The main focus was primarily on the cellular market, however the firm did launch a collection of mini-PCs based mostly on them final 12 months. The corporate segments the Tiger Lake-based mini-PCs them into completely different classes – Efficiency, Professional, Fanatic, and Excessive. The NUC11 Professional Package NUC11TNKi5 (Tiger Canyon) we’re right this moment is a UCFF answer that locations a 100mm x 100mm motherboard inside a 117mm x 112mm x 37mm chassis. The board comes with a soldered processor – the Core i5-1135G7. Belonging to the Tiger Lake-U household, it might probably function over a variety of configurable TDPs – from 12W to 28W. The NUC’s default BIOS settings set the PL1 (sustained) and PL2 (burst mode) ranges to 28W and 64W respectively, with the PL1 Time Window set to twenty-eight seconds.
Finish-users have the pliability to decide on their very own storage machine and RAM. For finest efficiency, a PCIe 4.0 x4 NVMe SSD can be utilized, and DDR4-3200 SODIMMs are supported. Our NUC11TNKi5 pattern got here with the next parts pre-installed:
- Samsung SSD 980 PRO PCIe 4.0 x4 NVMe SSD
- 2x Kingston ValueRAM KVR32S22D8/16 DDR4-3200 SODIMM for 32GB of DRAM
The system is actively cooled, with a blower fan on the underside, away from the aspect of the motherboard with the SODIMM and M.2 slots.
The specs of our Intel NUC11TNKi5 assessment configuration are summarized within the desk under.
| Intel NUC11TNKi5 / NUC11TNBi5 + Akasa Newton TN Specs (as examined) |
|
| Processor | Intel Core i5-1135G7 Tiger Lake 4C/8T, 2.4 – 4.2 GHz Intel 10nm SuperFin, 8MB L2, 28W (PL1 = 28W, PL2 = 64W) |
| Reminiscence | Kingston ValueRAM KVR32S22D8/16 DDR4-3200 SODIMM 22-22-22-52 @ 3200 MHz 2×16 GB |
| Graphics | Intel Iris Xe Graphics (80EU @ 1.30 GHz) |
| Disk Drive(s) | Samsung 980 PRO MZ-V8P500B/AM (2500 GB; M.2 2280 PCIe 4.0 x4 NVMe;) (1xxL V-NAND Gen 6 3D TLC; Samsung Elpis S4LV003 Controller) |
| Networking | 1x 2.5 GbE RJ-45 (Intel I225-LM) Intel Wi-Fi 6 AX201 (2×2 802.11ax – 2.4 Gbps) |
| Audio | Digital Audio with Bitstreaming Help over HDMI Ports |
| Video | 2x HDMI 2.0b 2x Show Port 1.4a with HBR3 over Thunderbolt |
| Miscellaneous I/O Ports | 2x USB 3.2 Gen 2 Kind-A (Entrance) 1x USB 3.2 Gen 2 Kind-A (Rear) 1x USB 2.0 Kind-A (Rear) 1x Thunderbolt 4 + 1x Thunderbolt 3 (Kind-C) (Rear) |
| Working System | Home windows 11 Enterprise (22000.739) |
| Pricing | (Road Pricing on July 21st, 2022) $420 (Board) + $150 (Case) + $130 (RAM) + $95 (SSD) = $795 (as configured, no OS) |
| Full Specs | Intel NUC11TNBi5 Specs Akasa Newton TN Specs |
The NUC package deal consists of the standard VESA mount and screws together with an integration information. A region-specific energy wire accompanies the 120W (19V @ 6.32A) adapter.
The gallery under gives an outline of the package’s chassis and the I/O distribution. The important thing variations when in comparison with the Efficiency line of Tiger Lake NUCs (Panther Canyon) are the absence of a SDXC card reader, a HDMI 2.0b port as an alternative of a mini-DP port, an additional USB 3.2 Gen 2 Kind-A port within the entrance panel, and the restriction of Thunderbolt Kind-C ports solely to the rear panel.
In comparison with the Efficiency line, the NUC11 Professional line provides official assist for Linux and Window IoT, helps operation over a wider DC enter voltage vary, has an additional inside SSD slot (M.2 2242 SATA / PCIe 3.0 x1), vPro capabilities in choose SKUs, and an extended product life cycle.
The usual NUC11TNKi5 package above can be utilized in most situations, however there could also be use-cases that require the whole absence of any transferring elements. In industrial deployments, the explanation could also be the necessity to keep away from efficiency loss attributable to cooling effectivity degradation ensuing from mud build-up. For skilled creators, it might be as a result of must keep away from extraneous noise affecting the work output. The common house shopper can also favor a silent system to raised concentrate on the work at hand. For HTPCs, multimedia content material could be loved with out distractions – a facet which may be of paramount significance to audiophiles.
Historically, passively cooled computing programs have both been woefully underpowered for common objective use, or carried a big premium when it comes to each price and bodily footprint. Nonetheless, developments in compute efficiency per watt and novel passive cooling chassis designs (that don’t price an arm and a leg to mass-produce) have mixed to provide customers the flexibility to create highly effective, but reasonably priced, fanless programs. That is the place distributors like Akasa are available. For the NUC11TNBi5 (the board contained in the NUC11TNKi5 package), Akasa has three completely different circumstances, with dimensions that may fulfill just about any deployment situation:
- Newton TN [ 176.6mm x 200mm x 53.6mm ]
- Plato TN [ 247mm x 240mm x 38.5mm ]
- Turing TN [ 95mm x 113.5mm x 247.9mm ]
We put the usual package by our benchmarking course of first. Following that, we disassembled the unit, and transferred the board to the Akasa Newton TN. The identical benchmarks have been processed once more on the Newton construct.
Previous to analyzing the NUC11 platform and searching on the comparative specs of the thought of programs, we take a deep dive into the construct course of utilizing the Akasa Newton TN.
