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Intel Core Ultra 9 285K and Ultra 5 245K review: gaming losses, content creation wins

This feels like a rebuilding year for Intel. With AMD’s Ryzen processors going from strength to strength and thermal degradation issues dogging Intel’s last desktop CPUs, Team Blue has unveiled a new tile-based architecture for both mobile CPUs (Lunar Lake) and desktop CPUs (Arrow Lake S). Lunar Lake arrived to generally positive reviews, with excellent power efficiency, AI hardware support and reasonable performance, so can the new Core Ultra 200S desktop chips pull off the same trick?

To find out, we’ve tested the Core Ultra 9 285K and Ultra 5 245K, which Intel promises offer ballpark similar gaming performance and improved content creation performance versus existing 14th-gen parts while delivering significantly better power efficiency. The bulk of our review focuses around exactly how close the 285K and 245K can get in terms of game benchmarks – with 11 games in our burgeoning new test suite! – but we’ve also tested video production and 3D modelling workloads alongside some basic power analysis.

These new Core 200S processors also come with a new desktop socket, LGA 1851, and a new series of motherboards, starting with the Z890 chipset. MSI and Asus have both provided high-end boards for testing, which we’ll cover briefly, but the main thing to know is that existing LGA 1700 coolers are compatible with the new motherboards, they feature more PCIe bandwidth and support memory overclocking up to DDR5-9200. Thunderbolt 4 and WiFi 6E is required and WiFi 7 and/or Thunderbolt 5 is to be expected on most high-end boards, alongside up to 10-gig wired networking.


Core Ultra Series 2 hero image
Image credit: Intel
CPU Cores Boost L3 Cache L2 Cache Max Power RRP
Ultra 9 285K 24 (8P + 16E) 5.7GHz 36MB 40MB 250W $589
Ultra 7 265K 20 (8P + 12E) 5.5GHz 30MB 36MB 250W $394
Ultra 7 265KF 20 (8P + 12E) 5.5GHz 30MB 36MB 250W $379
Ultra 5 245K 14 (6P + 8E) 5.2GHz 24MB 26MB 159W $309
Ultra 5 245KF 14 (6P + 8E) 5.2GHz 24MB 26MB 159W $294

Before we get into our results, let’s briefly cover off the spread of the field. Arrow Lake S includes five SKUs at present, from the top-of-the-line Ultra 9 285K – similar to the Core i9 tier from previous generations – to the mid-range Ultra 5 245K, which compares to previous Core i5 products. There are -F variants, denoting no onboard graphics capabilities, but an NPU for accelerating AI workloads is included across the stack.

Interestingly, the 285K has 24 cores – including 8 high-performance P-cores and 16 high-efficiency E-cores – with only 24 threads, as simultaneous multi-threading (SMT, aka hyperthreading) has been dropped with the new architecture. That means the 285K is competing against a significantly higher thread part in the 32-thread 14900K, and the same goes for the Ultra 5 and Ultra 7 models.

Elsewhere, base P- and especially E-core clock speeds are up across the board versus 14th-gen – though P-core boost clocks are lower, RAM up to DDR5-6400 is supported without overclocking and caches are slightly larger too. The main compute tile is produced using a TSMC N3B process, versus Intel’s 10nm Intel 7 process for 14th-gen, so we’d generally expect better power efficiency. However, memory fabric and controllers have been shifted off-chip, which imposes a latency penalty that may be felt in gaming.


an asus rog strix z890-f gaming wifi motherboard showing its top

an asus rog strix z890-f gaming wifi motherboard showing its I/O
The Asus ROG Strix Z890-F Gaming WiFi is a premium board with a lot of clever features and so much I/O, including two Thunderbolt 4 ports, two USB-C ports and 11 USB-A ports. | Image credit: Digital Foundry

an msi meg z890 ace motherboard with a focus on the easy-open nvme slot

an msi meg z890 ace motherboard's io
The MSI MEG Z890 Ace has a fetching black-and-gold colour scheme along with toolfree NVMe slots, impressive VRMs and prodigious I/O – including 10-gig networking. | Image credit: Digital Foundry

Our test system for the 285K and 245K is based around MSI’s flagship Z890 MEG Ace motherboard, with supplementary testing on Asus’ beautifully premium ROG Strix Z890-F Gaming WiFi. We tested with Trident Z5 Neo DDR5-6000 CL30 RAM, an NZXT Kraken Elite 360mm AiO and an NZXT C1200 Gold ATX 3.1 1200W power supply. Our graphics card is the Nvidia GeForce RTX 4090 Founders Edition, while storage duties are handled by the 2TB Samsung 990 Evo Plus and the 4TB WD Blue SN5000 PCIe 4.0 NVMe SSDs.

To put our Intel Core 200S results into context, we also have 12th-gen and 14th-gen Intel chips tested on the Gigabyte Aorus Z790 Master with the same RAM, Ryzen 7000 and 9000 chips tested with the ASRock X670E Taichi motherboard and the same RAM, and Ryzen 5000 chips tested with the Asus ROG Crosshair 8 Hero with Trident Z Royal DDR4-3600 CL16 RAM.

All testing was performed on fresh installs of Windows 24H2 with the latest chipset drivers, BIOS updates (1A14U6 for the MSI MEG Z890 Ace) and graphic drivers (Nvidia 565.90) installed. Core isolation was enabled throughout. “Intel Default Settings” were used for the bulk of our 245K and 285K testing, with “MSI Unlimited Settings” results marked as appropriate. On our 12th-gen board, Asus’ “Intel Default” option was set to “Disabled” rather than “Performance” or “Extreme”. As all data is fresh on the recently released 24H2, performance here isn’t comparable to our Ryzen 9000X/9950X reviews, for instance.


a tangled twist of wires purporting to be a
White cables look lovely in a case, but appear tangled in test rig mode. Still, thanks to the RTX 4090 Founders Edition, 360mm NZXT Kraken Elite 360 RGB AiO and NZXT C1200 Gold 1200W PSU, the 285K has all it needs to succeed. | Image credit: Digital Foundry

We’ll start with the results of our content creation benchmarks. These ought to map out the maximum increases to single and multi-core grunt, and of course are a good indicator of performance in other non-gaming workloads.

The 285K and 245K start promisingly in Cinebench, a popular synthetic benchmark designed to imitate the workload of 3D modelling and animation program Cinema4D. In the 2024 version of the test, the 285K scores the highest single (144) and multi-core (2386) results we’ve ever recorded, narrowly beating out the 9950X (138/2235) and 14900K (133/2107). Adopting the “MSI Unlimited” power profile raises these results slightly.

The 245K also ranks reasonably high, with a 128/1435 scoreline for Cinebench R2024 that puts it just ahead of the Core i5 14600K (120/1400) and Ryzen 7 9700X (130/1172).

Cinebench 2024 (1T) 2024 (MT) R20 (1T) R20 (MT)
Core i5 14600K 120 1400 777 9420
Core i7 14700K 127 1987 818 13614
Core i9 14900K 133 2107 875 15297
Ultra 5 245K 128 1435 841 9864
Ultra 9 285K 144 2386 895 16055
Ultra 9 285K (Unlimited) 145 2416 896 16478
Ryzen 5 3600X 77 578 485 3654
Ryzen 7 5800X3D 95 915 546 5746
Ryzen 9 5900X 98 1171 610 8393
Ryzen 5 7600X 114 845 744 5814
Ryzen 7 7700X 118 1127 758 7609
Ryzen 7 7800X3D 112 1074 688 6988
Ryzen 9 7900X 116 1605 776 11196
Ryzen 9 7950X 121 2004 784 14272
Ryzen 5 9600X 132 935 850 6358
Ryzen 7 9700X 130 1172 862 7851
Ryzen 9 9900X 135 1784 879 12617
Ryzen 9 9950X 138 2235 866 15850

Handbrake is a slightly more real world test, as we use its video transcoding functions for each video we produce. We’re actually transcoding a Patreon sample of Rise of the Tomb Raider here, but the only thing you really need to know is that it’s an 823MB file being transcoded with the Production Quality Standard (CRF 18) preset using the x264 and x265 (HEVC) formats.

Here, the 9950X comes in at the top slot, but the Ultra 9 285K in its MSI Unlimited power mode is able to effectively equal it at 103fps for H264 and come in just behind at 40fps for H265 versus 45fps for the 9950X.

At its default power levels, the results are more modest – 97fps on H264 and 38fps on H265, putting it a touch behind the Ryzen 9 7950X but ahead of the 14900K at 85/35. That’s with the 286K drawing significantly less power – 362W max versus 476W max on the 14900K – though the Unlimited mode on the 285K does draw up to 423W.

Handbrake H264 (fps) HEVC (fps)
Intel Core i5 14600K 59.42 25.39
Intel Core i7 14700K 80.26 31.07
Intel Core i9 14900K (476W max) 85.06 35.08
Intel Ultra 5 245K (286W max) 61.05 26.88
Intel Ultra 9 285K (362W max) 97.17 38.44
Intel Ultra 9 285K (Unlimited, 423W max) 103.15 39.81
Ryzen 5 3600X 26.66 10.80
Ryzen 7 5800X3D 42.00 18.71
Ryzen 9 5900X 57.59 23.83
Ryzen 5 7600X 41.29 18.31
Ryzen 7 7700X 53.27 23.65
Ryzen 7 7800X3D 49.63 21.54
Ryzen 9 7900X 78.35 32.59
Ryzen 9 7950X 98.58 41.68
Ryzen 5 9600X 42.51 19.77
Ryzen 7 9700X 51.80 23.79
Ryzen 9 9900X 82.96 35.33
Ryzen 9 9950X 103.25 44.97

It’s a promising start for the 285K in particular, with clear potential for content creators that need to chew through 3D renders and video transcodes at maximum speed – while consuming less power than the Core i9 14900K.

Now let’s get into the soy protein of our testing, the gaming benchmarks. We have 11 games in all, plus additional tests examining power usage, and the impact of DDR5 speeds and core isolation.

Intel Core Ultra 9 285K and Ultra 5 245K analysis




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