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HomeComputer HardwareIntel NUC13 Extreme Raptor Canyon Testimonial: Searing SFF Efficiency Giant

Intel NUC13 Extreme Raptor Canyon Testimonial: Searing SFF Efficiency Giant

The Intel NUCs started in the very early 2010s as ultra-compact form-factor boards/ systems. The systems were suggested to change cumbersome tower desktop computers in applications where the physical impact as well as system capacities were considerably greater than the real demands. The success of these UCFF systems has actually permitted Intel to gradually increase the product to consist of a wide array of form-factors.

Solutions targeting the lover as well as specialist video gaming (e-sports) markets call for the assimilation of a distinct GPU in the system, as well as this has actually driven the growth of NUC form-factors past the preliminary UCFF press. The Fanatic NUCs incorporate a distinct notebook-class GPU on the board, while the Severe schedule permits end-users to mount a distinct GPU of their very own selection. The Raptor Canyon NUC13RNGi9 we are checking out today comes from the last family members.

Previously this year, Intel had actually introduced the NUC12 Extreme Dragon Canyon with a 65W desktop computer Alder Lake CPU. Within a number of quarters, they teased the NUC13 Extreme based upon the recently-introduced Raptor Lake cpus, with the pledge of an unavoidable launch. The business maintained its word with the news of a variety of NUC13 Compute Aspects as well as NUC13 Extreme Package SKUs last month. Today’s evaluation takes an in-depth consider the commercial layout of the brand-new NUC13 Extreme, gives some understandings right into the system setup, as well as provides benchmark numbers including a wide array of use-cases.

Intro as well as Item Perceptions

Intel’s NUC schedules targeting the video gaming market autumn under a couple of classifications – the Fanatic family members (Head Canyon NUC6i7KYK, Hades Canyon NUC8i7HVK, Phantom Canyon NUC11PHKi7C, as well as Snake Canyon NUC12SNKi72) as well as the Extreme family members (Ghost Canyon NUC9QNX, Monster Canyon NUC11BTM, Dragon Canyon NUC12DCM, as well as Raptor Canyon NUC13RNG). The Raptor Canyon NUC is currently putting on the front runner NUC mantle, as well as brings the complying with updates over the Dragon Canyon NUC.


  • Assistance for socketed cpus with a PL1 of 150W (K-series). The thermal option considerably raises the size of the Compute Aspect.
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  • Raptor Lake cpu made in Intel 7 with micro-architectural enhancements for efficiency as well as power effectiveness, proceeding the use of crossbreed efficiency as well as effectiveness cores.
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  • Assistance for DDR5-5600 SODIMMs, contrasted to DDR4-3200 in the previous generation Severe NUCs.
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  • Boosted framework quantity (13.7 L vs. 8L) enabling assimilation of three-way port distinct GPUs.
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  • Much more standard commercial layout enabling less complicated accessibility to I/O ports.
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  • Exterior Wi-Fi antennae
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Intel provided us with a design example of the front runner Raptor Canyon SKU – the NUC13RNGi9 showing off the NUC13 Extreme Compute Aspect (NUC13SBBi9). This Compute Aspect (Shrike Bay) is housed in a flawlessly cubical 337mm x 317mm x 129mm framework. We see a substantial boost in quantity (from 8L to 13.7 L) contrasted to the Dragon Canyon NUC. This is still well within the world of tiny form-factor (SFF) Computers – a grownup can carry around the device to LAN events, if essential. Various other preferable SFF elements such as the inbuilt PSU are rollovered from the previous generation Severe NUCs.

Intel’s NUC schedule has actually generally consisted of board as well as package versions, enabling its companions to supply worth enhancements (such as an easy framework or extra I/O ports in the long run system). Packages (besides the ones that include a pre-installed OS) call for the end-user to include storage space, DRAM, as well as mount an OS to finish the system. Intel intends to offer 3 ranges of the Raptor Canyon NUC Package – the NUC13RNGi7 as well as the NUC13RNGi5 (furnished with the Core i7-13700K as well as Core i5-13600K specifically) along with the NUC13RNGi9 we are checking out today. Nevertheless, OEMs as well as end-users can additionally construct their very own NUC13 system based upon the complying with parts:


  • Calculate Aspect (NUC13SBBi( 9/5/7) ( F))
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  • Wall (or backplane )
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  • Framework
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  • PSU
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  • DRAM( approximately 2x DDR5-5600 SODIMMs )
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  • Non-volatile storage space
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  • Discrete GPU( optional)
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An off-the-shelf Raptor Canyon NUC13RNGi9 package leaves just the DRAM, non-volatile storage space, as well as distinct GPU to the selection of the end-user. Despite the fact that the Compute Aspect sporting activities a LGA1700 outlet, the 3 Compute Aspects being offered out there as component of the package variation featured the cpu pre-installed (Core i9-13900K, or Core i7-13700K, or Core i5-13600K). Before the system evaluation as well as summary of our evaluation setup, allow’s have a look at the pre-decided parts in the above checklist.

The Shrike Bay NUC13 Compute Aspect

The NUC13RNGi9 we are assessing today includes the NUC13SBBi9 NUC13 Extreme Compute Aspect. It includes a socketed LGA1700 cpu – the Core i9-13900K. This comes from the Raptor Lake (13 th Generation) family members as well as has a 8P + 16e/ 32T setup. The cpu base power is 125W, yet the thermal layout of the Compute Aspect along with the framework permits Intel to set up the cpu with a PL1 of 150W as well as a PL2 of 250W (with a tau of 28s). It can turbo approximately 5.8 GHz.

Comparable to the previous Compute Aspects, the Shrike Bay versions additionally reimagine the standard motherboard in a distinct PCIe add-on card form-factor. Unlike previous Compute Aspects, Shrike Bay has greater than 16 lanes attaching to the wall. The layout of the Dragon Canyon’s Compute Aspect is maintained generally – an air conditioning shadow with a solitary follower as well as several M. 2 heat-sinks with thermal pads pre-attached. Nevertheless, the air conditioning option for the CPU is upgraded to suit a heat-sink dangling off the side of the Compute Aspect. The SODIMMs port in up and down. The Z690 chipset utilized in the Dragon Canyon is re-used in Shrike Bay.

In regards to I/O, the Shrike Bay Compute Aspect places every various other mini-ITX motherboard for Raptor Lake to embarassment. It is furnished with double Thunderbolt 4 ports, a 10G BASE-T AQC113C AQtion NIC, a 2.5 G BASE-T Intel NIC, 6x USB 3.2 Gen 2 Type-A ports in the back, as well as Realtek ALC1220 analog sound ports. The front panel is serviced by a daughterboard to supply a USB 3.2 Gen 2×2 (20 Gbps) Type-C port as well as 2 USB 3.2 Gen 1 Type-A ports.

Raptor Canyon Wall

The wall for the NUC13RNGi9 is a full re-work over the Eden Cove utilized in the Dragon Canyon NUC. Intel has actually pressed out capability such as SATA ports as well as USB headers right into the wall in the brand-new variation. Among the crucial physical adjustments is the positioning of the add-in card ports for the Compute Aspect as well as the distinct GPU on various sides of the wall. This permits the Compute Aspect to be installed ahead, as well as the distinct GPU of comparable size to go under it.

The PCIe lanes are Gen 5, as well as do not have bifurcation assistance, comparable to Eden Cove.

Framework as well as PSU

The NUC13RNGi9 framework has a much better convenience of setup contrasted to the previous generation NUCs. The measurements enable the setup of triple-slot GPUs approximately 317mm in size. The PSU additionally sees an upgrade, transferring to a 750W modular one (contrasted to the 650W variation seen in the Dragon Canon NUC), while preserving the 80+ GOLD score.

Unlike the non-intuitive hinge-based layout of the previous Severe NUCs, opening the Dragon Canyon NUC is simple – obtaining a number of screws as well as gliding out the top as well as perforated side panels before bulging the Compute Aspect. The thermal layout jobs by drawing in air from the left, enabling it to look at the heat-sink dangling off the side of the Compute Aspect as well as departure beyond.

The SSD ports can be accessed on the back of the Compute Aspect. As the framework followers/ shadow obstructs accessibility to the Compute Aspect’s back, it comes to be compulsory to obtain the Compute Aspect out of the wall to mount M. 2 SSDs. There are 2 straight ports that are off the chipset, while the upright one is the CPU-attached NVMe-only port.

The SODIMMs can be mounted without taking the Compute Aspect out of the wall. Wall functions such as the dGPU port as well as SATA ports/ various other headers can be located on the bottom – the Compute Aspect itself does not require to be gotten rid of to reach them. GPU setup is much streamlined without needing to pack it right into a small area shown to the Compute Aspect. The liberty additionally winds up providing a lot of air flow area for the distinct GPU.

The added area additionally makes certain that the cable televisions attaching the high-speed I/Os on the daughterboard to the Compute Aspect are not conveniently displaced. That was just one of the primary grievances I had with the previous Severe NUCs – re-installing or exchanging GPUs would certainly lead to the front USB ports running in USB 2.0 rates. Thankfully, the Raptor Canyon NUC entirely stays clear of those kinds of problems, many thanks to the upgraded framework. The I/O ports are additionally no more recessed, enabling very easy accessibility throughout everyday usage.

The setup of our evaluation example of the NUC13RNGi9 was finished with the complying with parts:


  • 2x 16GB Kingston Fierceness Influence KF548S38-16 DDR5-4800 SODIMM (38-38-38-70 @ 4800 MHz)
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  • 1x 1TB Kingston Fierceness Abandoner SSFYRS1000G M. 2 2280 PCIe 4.0 x4 NVMe SSD
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The capability to sustain an effective GPU like the RTX 3080 Ti indicates that the Raptor Canyon NUC must conveniently have the ability to contend versus enormous video gaming gears. In the meantime, we limit ourselves to contrasting it versus the previous generations of Severe NUCs. In the following area, we have a look at the complete requirements of our evaluation example, complied with by an in-depth system evaluation in addition to some notes on our arrangement experience.


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