Today marks the release of Intel’s 13th generation Core processor series, codenamed Raptor Lake. The first models to be unleashed into retail channels are all overclockable parts, with six SKUs across the Core i9, i7, and i5 product segments. We’ve seen Intel’s heterogeneous or hybrid design with the launch of Intel’s Alder Lake (12th Gen Core) products, and the latest Raptor Lake core brings a very similar design to the table, but with subtle improvements designed to help give Intel the leading edge in the desktop market.

The launch of Intel's new lineup is essentially the second half of this fall's desktop CPU releases. AMD got the first word in a few weeks back with the launch of their Ryzen 7000 desktop processors, which introduced the Zen 4 architecture as well a significant platform update for AMD with Socket AM5. The new high-end Ryzen chips were well-received (if a bit expensive), setting a new bar for performance and putting AMD firmly into the lead, at least for a little bit. Now it's time for Intel's own CPU launch – their rebuttal – where they get to show off what they've been working on over the past few years and whether they can retain their edge over AMD for this latest generation of processors.

At a high level, Raptor Lake can be thought of as a mid-cycle upgrade of sorts for Intel’s current LGA-1700 platform. As the company launched Alder Lake and LGA-1700 just a year ago, they aren’t looking to overhaul the core CPU architecture quite so soon, nor the platform for that matter. Intel is keeping to their two-year platform cycle here, so the 13th generation of Core processors are designed to bring more performance to the same platform as Alder Lake. This makes the Raptor Lake launch significantly more straightforward than AMD’s recent launch, where AMD overhauled their entire platform while also making some more significant CPU architecture upgrades in the process.

Because Intel isn’t significantly tweaking their CPU architectures for Raptor Lake, the chip is essentially a refined version of Alder Lake. That means we’re still looking at a mixture of P(erformance) and E(fficiency) CPU cores, based on different CPU architectures and designed to allow Intel to hit high performance levels in both single/light-threaded workloads that favor the P cores, and heavily multi-threaded workloads that can also saturate the E cores. The P cores are based on what’s technically a new architecture, Raptor Cove, while the E cores are still based on the same Gracemont architecture as what we saw on Alder Lake.

We’ll dive into the internal bits of Raptor Lake a bit later on, but at a high level, Intel is improving performance versus Alder Lake in three ways.

  1. Higher clockspeeds, especially for the P cores, thanks to some architectural optimization work combined with further refinements of the Intel 7 fab process
  2. Additional E cores in all desktop SKUs, to boost performance in multi-threaded workloads
  3. Additional L2 cache for both the P and E cores. The L3 cache is also a bit larger, primarily to accommodate the larger number of E cores.

The higher clockspeeds and additional cache mean that Raptor Lake should be faster in virtually all scenarios compared to Alder Lake. For single-threaded and lightly-threaded workloads, the faster P cores can chew through work. Meanwhile the full combination of additional E cores and higher clockspeeds means that multi-threaded performance often shows even greater gains.

Raptor Lake will, in time, be a top-to-bottom launch for Intel and its partners. That means not only launching desktop processors, as we’re seeing the first of today, but also a complete stack of mobile parts, with U, P, H, and HX series processors all planned. And while mobile parts are a bit trickier with regards to adding clocks and cores while staying within a power budget, Intel’s design optimizations can also be used to improve energy efficiency instead, which will be of greater importance for the mobile market.

Starting At the Top: Core i9-13900K, i7-13700K, and i5-13600K

But to start things off, let’s talk about today’s launch. Intel has opted for a top-to-bottom, desktop-to-mobile launch strategy, pulling the trigger on its overclockable desktop parts first. This is typical of Intel's recent desktop launches, and allows them to get their relatively lower volume desktop chips out first while continuing to ramp for higher volume desktop and mobile parts. Altogether Intel is launching 3 tiers of chips spread over 6 SKUs, all overclockable (K) and coming either with and without (F) integrated graphics.

Intel 13th Gen Core, Raptor Lake
AnandTech Cores
L3 Cache
IGP Base
i9-13900K 8+16/32 3300 5800 2200 4300 36 770 125 253 $589
i9-13900KF 8+16/32 3300 5800 2200 4300 36 - 125 253 $564
i7-13700K 8+8/24 3400 5400 2500 4200 30 770 125 253 $409
i7-13700KF 8+8/24 3400 5400 2500 4200 30 - 125 253 $384
i5-13600K 6+8/20 3500 5100 2600 3900 24 770 125 181 $319
i5-13600KF 6+8/20 3500 5100 2600 3900 24 - 125 181 $294

Compared to the relevant 12th Gen Core SKUs, Intel has replaced the P cores with new Raptor Cove cores on a 1:1 basis. Meanwhile for the E cores, Intel has effectively doubled the number of E cores for each corresponding SKU. e.g., the Core i5-13600K now has eight E-cores whereas the Core i5-12600K had four. Otherwise, TDPs remain unchanged from the previous chips, with Intel officially targeting 125W – though PL2 limits have crept up from 241W to 253W.

Intel Core i9-13900K CPU-Z

Focusing first on the flagship chip, the Core i9-13900K has an incredible max P-core turbo of 5.8 GHz. This is an increase of 600 MHz over the Core i9-12900K. Although it has the same performance core count as its predecessor (though with Raptor Cove cores), it now features double the efficiency cores; a total of 24 hybrid cores comprised of 8P and 16E cores. This makes for eight more threads, for a total of 32, up from 24 on the Core i9-12900K. 

One thing to note about the efficiency cores is that Intel has lowered the base frequency of these cores to 2.2 GHz base, which is down from 2.4GHz on Alder Lake. But at the same time, however, they have also increased the E-core max turbo clockspeed to 4.3 GHz, 400Mhz higher than the 3.9 GHz cores on Alder Lake.

Intel has made similar trade-offs across all of its 13th Gen Core SKUs – so this isn’t just the case for the i9 parts, but also the i7 and i5 parts as well. Ultimately while Intel would ideally like to run the E cores at their highest clockspeeds at all times, the expanded number of cores makes it harder to stay within Intel’s official 125W TDP, necessitating a reduction on the base clockspeeds.

Intel Core i5-13600K CPU-Z

Moving down the stack, the Core i7-13700K and KF processors both have a total of sixteen CPU cores (8P+8E), which is up from 8P+4E on the Core i7-12700K. For these parts the maximum P-core turbo clockspeed is 5.4 GHz, while the P-core base clockspeed stands at 3.4 GHz.

Finally, filling out the i5 spot in Intel’s lineup is the Core i5-13600K, which we will also be testing today. The 13600K parts come with a total of fourteen cores in 6P+8E configuration, four more cores than on the Alder Lake i5-12600K. Both the Core i5-13600K and i5-13600KF feature a P-core max turbo of up to 5.1 GHz (up from 4.9 GHz), and an E-core turbo of up to 3.9 GHz (up from 3.6 GHz).

Z790 Chipset & DDR5-5600 Support

The launch of the 13th Gen Core chips also comes with a new generation of motherboards from Intel: Z790. As noted earlier, the 13th Gen Core chips are backwards-compatible with 600 series boards (with the necessary BIOS update), so they can be used as a drop-in upgrade or as part of a fresh built. But for builders looking for the best – or even just guaranteed CPU compatibility out of the box – Intel is hoping to entice you with Z790.

Like the rest of the Raptor Lake platform, Z790 is not a significant overhaul of Intel’s existing wares. But Z790 does offer perks. Most notable for aspiring builders will be that Z790 boards will be the first boards validated for the higher DDR5 memory speeds that Raptor Lake is capable of. Whereas Alder Lake officially topped out at DDR5-4800, Raptor Lake can run at DDR5-5600, helping to feed the beast a bit more with higher memory clockspeeds. Enthusiasts will likely run overclocked with XMP kits, but for anyone building systems to spec – be it OEMs or individual builders – this is a nice bump in bandwidth. Meanwhile it should be noted that there’s nothing stopping existing Z690 boards from being validated for higher speeds as well, but that will be up to motherboard manufacturers running a fresh round of validation with the new Raptor Lake chips.

As for the Z790 chipset itself, it brings a bit more I/O flexibility compared to Z690. Z790 now sports 20 PCIe 4 lanes, versus 12 on Z690. That’s augmented with 8 PCIe 3 lanes, 8 fewer than on Z690. Z790 also brings support for one more USB 20Gbps (USB 3.2 Gen 2x2) port than its predecessor, making for a total of 5.

Sizing Up the Competition: 13th Gen Core vs. Ryzen 7000

With Intel’s shift to a heterogeneous CPU architecture, like-for-like comparisons between Intel and AMD have become a little harder. None the less, as AMD and Intel have evolved to have similarly-named product stacks – and for that matter similar pricing – it’s not too hard to line up what chips are primarily in competition with each other.

Raptor Lake Competition
AnandTech Core i9
Core i5
Core i9
Core i5
  Ryzen 9
Ryzen 5
uArch Raptor Cove +
Raptor Cove +
Golden Cove +
Golden Cove +
  Zen 4 Zen 4
Cores 8P + 16E
32 T
6P + 8E
20 T
8P + 8E
24 T
6P + 4E
16 T
  16 C
32 T
6 C
12 T
Base Freq (P) 3300 3500 3200 3700   4500 4700
Turbo Freq (P) 5800 5100 5200 4900   5700 5300
TDP 125 W 125 W 125 W 125 W   170 W 105 W
PL2/PPT 253 W 181 W 241 W 150 W   230 W 142 W
iGPU / Cores Xe-LP, 32 Xe-LP, 32 Xe-LP, 32 Xe-LP, 32   RDNA 2, 2 RDNA 2, 2
L3 Cache 36 MB 24 MB 30 MB 20 MB   64 MB 32 MB
DDR5 2 x 5600 2 x 5600 2 x 4800 2 x 4800   2 x 5200 2 x 5200
CPU PCIe 5.0 x16 +
4.0 x4
5.0 x16 +
4.0 x4
5.0 x16 +
4.0 x4
5.0 x16 +
4.0 x4
  5.0 x28 5.0 x28
MSRP $589 $319 $589 $289   $699 $299

At the high-end, Intel is going up against AMD’s flagship with fewer P cores (or their AMD equivalent), but is augmenting that with a much larger number of E cores. As a result Intel has more CPU cores to offer overall, but the performance implications are very workload dependent. The 13900K shines on tasks that can fill all 24 cores/32 threads, and ideally can account for the difference in performance between the core types. Otherwise, AMD offers fewer total cores, but more performance on a per-core basis when 9 to 16 cores are needed.

In Intel’s favor is a lower CPU cost ($589 vs. $699), as well as official support for faster DDR5 memory (and DDR4, if you need it). Whereas AMD offers more I/O flexibility with up to 28 PCIe 5 lanes coming from the CPU, as well as a larger overall L3 cache.

Meanwhile at the other end of the spectrum, the bottom of the stack for the two companies is brought up by the i5-13600K and Ryzen 5 7600X. The Intel chip offers 6 Raptor Cove P cores to AMD’s 6 Zen 4 cores, and then Intel added 8 E cores on top of that. But in this case Intel no longer has the price advantage, as the 13600K is $20 more expensive than its AMD competition. This gives Intel a potentially large advantage in multi-threaded workloads, though for fewer threads, AMD does have a bit of a clockspeed lead.

  1. Intel Core i9-13900K and i5-13600K Review: Raptor Cove, What's New?
  2. Raptor Lake In Detail: Raptor Cove P-Cores, More Efficiency Cores
  3. Z790 Chipset: More I/O Than Z690, But Same Performance
  4. Test Bed and Setup: Updating Our Test Suite for 2023
  5. Core to Core Latency
  6. SPEC2017 Single-Threaded Results
  7. SPEC2017 Multi-Threaded Results
  8. CPU Benchmark Performance: Power and Office
  9. CPU Benchmark Performance: Science
  10. CPU Benchmark Performance: Simulation
  11. CPU Benchmark Performance: Rendering And Encoding
  12. CPU Benchmark Performance: Legacy Tests
  13. Gaming Performance: iGPU
  14. Gaming Performance: 720p and Lower
  15. Gaming Performance: 1080p
  16. Gaming Performance: 1440p
  17. Gaming Performance: 4K
  18. Closing Thoughts
Raptor Lake In Detail: Raptor Cove P-Cores, More Efficiency Cores


View All Comments

  • Nero3000 - Thursday, October 20, 2022 - link

    Correction: the 12600k is 6P+4E - table on first page Reply
  • Hixbot - Thursday, October 20, 2022 - link

    I am hoping for an high frequency 8 core i5 with zero ecores and high cache. It's would be a gamer sweet spot, and could counter the inevitable 3d cache Zen 4. Reply
  • nandnandnand - Friday, October 21, 2022 - link

    big.LITTLE isn't going away. It's in a billion smartphones, and it will be in most of Intel's consumer CPUs going forward.

    Just grab your 7800X3D, before AMD does its own big/small implementation with Zen 5.
  • HarryVoyager - Friday, October 21, 2022 - link

    Honestly, I'm underwhelmed by Intel's current big.LITTLE setup. As near as I can tell, under load the E cores are considerably less efficient than the P cores are, and currently just seem to be there so Intel can claim multi-threading victories with less die space.

    And with the CPU's heat limits, it just seems to be pushing the chip into thermal throttling even faster.

    Hopefully future big.LITTLE implementations are better.
  • nandnandnand - Friday, October 21, 2022 - link

    Meteor Lake will bring Redwood Cove to replace Golden/Raptor Cove, and Crestmont to replace Gracemont. Gracemont in Raptor Lake is the same as in Alder Lake except for more cache, IIRC. All of this will be on "Intel 4" instead of "Intel 7", and the core count might be 8+16 again.

    Put it all together and it should have a lot of breathing room compared to the 13900K(S).

    8+32 will be the ultimate test of small cores, but they're already migrating on down to the cheaper chips like the 13400/13500.
  • Hixbot - Saturday, October 22, 2022 - link

    Yes it does seem backwards that the more efficient architecture is in the P core. Reducing power consumption for light tasks seems better to keep it on the P core and downclock. I don't see the point of the "e" cores as effiency, but rather academic multithreaded benchmark war. Which isn't serving the consumer at all. Reply
  • deil - Monday, October 24, 2022 - link

    E is still useful, as you get 8/8 cores in space where you could cram 2/4. I agree E for efficiency should be B as background to make it clearer what's the point. They are good for consumers as they offer all the high speed cores for main process, so OS and other things dont slow down.
    I am not sure if you followed, but intel cpu's literally doubled in power since they appeared, and at ~25% utilization, cpu's halved power usage. What you should complain about is bad software support, as this is not something that happens in the background.
  • TEAMSWITCHER - Monday, October 24, 2022 - link

    I don't think you are fully grasping the results of the benchmarks. Compute/Rendering scores prove that e-cores can tackle heavy work loads. Often trading blows with AMD's all P-Core 7950X, and costing less at the same time. AMD needs to lower all prices immediately. Reply
  • haoyangw - Monday, October 24, 2022 - link

    That's an oversimplification actually, P-cores and E-cores are both efficient, just for different tasks. The main efficiency gain of P-cores is it's much much faster than E-cores for larger tasks. Between 3 and 4GHz, P-cores are so fast they finish tasks much earlier than e-cores so total energy drawn is lower. But E-cores are efficient too, just for simple tasks(at low clockspeeds). Below 3GHz and above 1GHz, e-cores are much more efficient, beating P-cores in performance while drawing less power.

  • Great_Scott - Friday, November 25, 2022 - link

    Big.LITTLE is hard to do, and ARM took ages and a lot of optimization before phone CPUs got much benefit from it.

    The problem of the LITTLE cores not adding anything in the way of power efficiency is well-known.

    I'm saddened that Intel is dropping their own winning formula of "race-to-sleep" that they've successfully used for decades for aping something objectivly worse because they're a little behind in die shrinking.

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