The Intel NUCs began off within the early 2010s as ultra-compact form-factor boards / techniques. The techniques had been meant to switch cumbersome tower desktops in functions the place the bodily footprint and system capabilities had been considerably greater than the precise necessities. The success of those UCFF techniques has allowed Intel to slowly develop the product line to incorporate all kinds of form-factors.
Techniques focusing on the fanatic {and professional} gaming (e-sports) markets require the mixing of a discrete GPU within the system, and this has pushed the event of NUC form-factors past the preliminary UCFF push. The Fanatic NUCs combine a discrete notebook-class GPU on the board, whereas the Excessive lineup permits end-users to put in a discrete GPU of their very own selection. The Raptor Canyon NUC13RNGi9 we’re right now belongs to the latter household.
Earlier this 12 months, Intel had launched the NUC12 Excessive Dragon Canyon with a 65W desktop Alder Lake CPU. Inside a few quarters, they teased the NUC13 Excessive based mostly on the recently-introduced Raptor Lake processors, with the promise of an imminent launch. The corporate saved its phrase with the announcement of plenty of NUC13 Compute Parts and NUC13 Excessive Package SKUs final month. At present’s overview takes an in depth have a look at the commercial design of the brand new NUC13 Excessive, gives some insights into the system configuration, and presents benchmark numbers encompassing all kinds of use-cases.
Introduction and Product Impressions
Intel’s NUC lineups focusing on the gaming market fall underneath one in all two classes – the Fanatic household (Cranium Canyon NUC6i7KYK, Hades Canyon NUC8i7HVK, Phantom Canyon NUC11PHKi7C, and Serpent Canyon NUC12SNKi72) and the Excessive household (Ghost Canyon NUC9QNX, Beast Canyon NUC11BTM, Dragon Canyon NUC12DCM, and Raptor Canyon NUC13RNG). The Raptor Canyon NUC is now donning the flagship NUC mantle, and brings the next updates over the Dragon Canyon NUC.
- Assist for socketed processors with a PL1 of 150W (Ok-series). The thermal answer considerably will increase the size of the Compute Component.
- Raptor Lake processor manufactured in Intel 7 with micro-architectural enhancements for efficiency and energy effectivity, persevering with the utilization of hybrid efficiency and effectivity cores.
- Assist for DDR5-5600 SODIMMs, in comparison with DDR4-3200 within the earlier technology Excessive NUCs.
- Elevated chassis quantity (13.7L vs. 8L) permitting integration of triple slot discrete GPUs.
- Extra conventional industrial design permitting simpler entry to I/O ports.
- Exterior Wi-Fi antennae
Intel provided us with an engineering pattern of the flagship Raptor Canyon SKU – the NUC13RNGi9 sporting the NUC13 Excessive Compute Component (NUC13SBBi9). This Compute Component (Shrike Bay) is housed in a superbly cubical 337mm x 317mm x 129mm chassis. We see a major enhance in quantity (from 8L to 13.7L) in comparison with the Dragon Canyon NUC. That is nonetheless effectively inside the realm of small form-factor (SFF) PCs – an grownup can lug across the unit to LAN events, if essential. Different fascinating SFF elements such because the in-built PSU are carried over from the earlier technology Excessive NUCs.
Intel’s NUC lineup has historically included board and package variants, permitting its companions to supply worth additions (comparable to a passive chassis or extra I/O ports ultimately system). Kits (apart from those that include a pre-installed OS) require the end-user so as to add storage, DRAM, and set up an OS to finish the system. Intel plans to promote three styles of the Raptor Canyon NUC Package – the NUC13RNGi7 and the NUC13RNGi5 (outfitted with the Core i7-13700K and Core i5-13600K respectively) along with the NUC13RNGi9 we’re right now. Nevertheless, OEMs and end-users also can construct their very own NUC13 system based mostly on the next elements:
- Compute Component (NUC13SBBi(9/5/7)(F))
- Baseboard (or backplane)
- Chassis
- PSU
- DRAM (as much as 2x DDR5-5600 SODIMMs)
- Non-volatile storage
- Discrete GPU (non-obligatory)
An off-the-shelf Raptor Canyon NUC13RNGi9 package leaves solely the DRAM, non-volatile storage, and discrete GPU to the selection of the end-user. Regardless that the Compute Component sports activities a LGA1700 socket, the three Compute Parts being offered out there as a part of the package model include the processor pre-installed (Core i9-13900K, or Core i7-13700K, or Core i5-13600K). Previous to the platform evaluation and overview of our overview configuration, let’s check out the pre-decided elements within the above checklist.
The Shrike Bay NUC13 Compute Component
The NUC13RNGi9 we’re reviewing right now comes with the NUC13SBBi9 NUC13 Excessive Compute Component. It comes with a socketed LGA1700 processor – the Core i9-13900K. This belongs to the Raptor Lake (13th Era) household and has a 8P + 16e / 32T configuration. The processor base energy is 125W, however the thermal design of the Compute Component in addition to the chassis permits Intel to configure the processor with a PL1 of 150W and a PL2 of 250W (with a tau of 28s). It might probably turbo as much as 5.8 GHz.
Much like the earlier Compute Parts, the Shrike Bay fashions additionally reimagine the normal motherboard in a discrete PCIe add-on card form-factor. In contrast to earlier Compute Parts, Shrike Bay has greater than 16 lanes connecting to the baseboard. The design of the Dragon Canyon’s Compute Component is retained for essentially the most half – a cooling shroud with a single fan and a number of M.2 heat-sinks with thermal pads pre-attached. Nevertheless, the cooling answer for the CPU is redesigned to accommodate a heat-sink hanging off the sting of the Compute Component. The SODIMMs slot in vertically. The Z690 chipset used within the Dragon Canyon is re-used in Shrike Bay.
When it comes to I/O, the Shrike Bay Compute Component places each different mini-ITX motherboard for Raptor Lake to disgrace. It’s outfitted with twin Thunderbolt 4 ports, a 10G BASE-T AQC113C AQtion NIC, a 2.5G BASE-T Intel NIC, 6x USB 3.2 Gen 2 Kind-A ports within the rear, and Realtek ALC1220 analog audio ports. The entrance panel is serviced by a daughterboard to supply a USB 3.2 Gen 2×2 (20 Gbps) Kind-C port and two USB 3.2 Gen 1 Kind-A ports.
Raptor Canyon Baseboard
The baseboard for the NUC13RNGi9 is an entire re-work over the Eden Cove used within the Dragon Canyon NUC. Intel has pushed out performance comparable to SATA ports and USB headers into the baseboard within the new model. One of many key bodily modifications is the location of the add-in card slots for the Compute Component and the discrete GPU on totally different sides of the baseboard. This enables the Compute Component to be mounted on high, and the discrete GPU of comparable width to go underneath it.
The PCIe lanes are Gen 5, and shouldn’t have bifurcation help, just like Eden Cove.
Chassis and PSU
The NUC13RNGi9 chassis has a a lot improved ease of set up in comparison with the earlier technology NUCs. The scale enable the set up of triple-slot GPUs as much as 317mm in size. The PSU additionally sees an improve, transferring to a 750W modular one (in comparison with the 650W model seen within the Dragon Canon NUC), whereas retaining the 80+ GOLD score.
In contrast to the non-intuitive hinge-based design of the earlier Excessive NUCs, opening up the Dragon Canyon NUC is easy – taking out a few screws and sliding out the highest and perforated aspect panels previous to coming out the Compute Component. The thermal design works by pulling in air from the left, permitting it to go over the heat-sink hanging off the sting of the Compute Component and exit on the opposite aspect.
The SSD slots may be accessed on the rear of the Compute Component. Because the chassis followers / shroud blocks entry to the Compute Component’s rear, it turns into necessary to get the Compute Component out of the baseboard to put in M.2 SSDs. There are two horizontal slots which might be off the chipset, whereas the vertical one is the CPU-attached NVMe-only slot.
The SODIMMs may be put in with out taking the Compute Component out of the baseboard. Baseboard options such because the dGPU slot and SATA ports / different headers may be discovered on the underside – the Compute Component itself would not must be eliminated to get to them. GPU set up is way simplified with out having to cram it right into a tiny area shared with the Compute Component. The liberty additionally finally ends up giving loads of airflow area for the discrete GPU.
The additional room additionally ensures that the cables connecting the high-speed I/Os on the daughterboard to the Compute Component are usually not simply dislodged. That was one of many predominant complaints I had with the earlier Excessive NUCs – reinstalling or swapping GPUs would consequence within the entrance USB ports working in USB 2.0 speeds. Thankfully, the Raptor Canyon NUC fully avoids these kinds of points, because of the redesigned chassis. The I/O ports are additionally not recessed, permitting for simple entry throughout day-to-day use.
The configuration of our overview pattern of the NUC13RNGi9 was accomplished with the next elements:
- 2x 16GB Kingston Fury Affect KF548S38-16 DDR5-4800 SODIMM (38-38-38-70 @ 4800 MHz)
- 1x 1TB Kingston Fury Renegade SSFYRS1000G M.2 2280 PCIe 4.0 x4 NVMe SSD
- ASUS TUF-RTX3080TI-12G-GAMING NVIDIA GeForce RTX 3080 Ti
The power to help a robust GPU just like the RTX 3080 Ti implies that the Raptor Canyon NUC ought to simply have the ability to compete in opposition to huge gaming rigs. For now, we limit ourselves to evaluating it in opposition to the earlier generations of Excessive NUCs. Within the subsequent part, we check out the complete specs of our overview pattern, adopted by an in depth platform evaluation together with some notes on our setup expertise.
