Over the past few months, Intel has been drip-feeding information about its next-generation processor family. Alder Lake, commercially known as Intel’s 12th Generation Core architecture, is officially being announced today for a November 4th launch. Alder Lake contains Intel’s latest generation high-performance cores combined with new high-efficiency cores for a new hybrid design, along with updates to Windows 11 to improve performance with the new heterogeneous layout. Only the six high-performance K and KF processor variants are coming this side of the New Year, with the rest due for Q1. We have specifications, details, and insights ahead of the product reviews on November 4th.

Today’s announcement also coincides with Intel’s InnovatiON virtual event happening today and tomorrow. This event is, as described in a number of press releases, a mini-Intel Developer Forum (IDF) event designed to emulate a small part of the highly prized annual conference that the company culled in 2017. As part of the event, there are 60+ sessions designed to cover new technology such as AI, networking, custom silicon, programming technologies/challenges, and introduce developers to more of Intel’s ecosystem. It includes a day one keynote from CEO Pat Gelsinger and other executives to share the new hardware announcements, and a day two keynote from CTO Greg Lavender on the software side. The goal was for this event to be in-person, which is usually where the most value came from the old IDF event, however this is the first attempt to revive the format.

Six Alder Lake CPUs, $589 For Core i9

The first things we’ll go into are the new CPUs that Intel is announcing today: the overclockable models of Intel 12th Gen Core. As with previous launches, we have Core i9, Core i7, and Core i5, with the key highlights including new support for DDR5, PCIe Gen 5, new overclocking features, and a change in how Intel is promoting its Thermal Design Power (TDP).

This is the table:

Intel 12th Gen Core, Alder Lake
AnandTech Cores
P+E/T
E-Core
Base
E-Core
Turbo
P-Core
Base
P-Core
Turbo
IGP Base
W
Turbo
W
Price
$1ku
i9-12900K 8+8/24 2400 3900 3200 5200 770 125 241 $589
i9-12900KF 8+8/24 2400 3900 3200 5200 - 125 241 $564
i7-12700K 8+4/20 2700 3800 3600 5000 770 125 190 $409
i7-12700KF 8+4/20 2700 3800 3600 5000 - 125 190 $384
i5-12600K 6+4/16 2800 3600 3700 4900 770 125 150 $289
i5-12600KF 6+4/16 2800 3600 3700 4900 - 125 150 $264

Each processor has a number of performance cores (P-cores) and efficiency cores (E-cores). The P-cores have SMT, whereas the E-cores do not, so we’re dealing with non-standard numbers of total threads. Inside the system, the P-core threads, E-core threads, and SMT threads are categorized for performance and efficiency, which we’ll get to later in the article. But with a new hybrid design also comes with new ways to showcase frequencies, and each set of cores will have its own base frequency and turbo frequency. The way power is marketed and used has also changed, designed to be clearer.

All processors will come with 16 lanes of PCIe 5.0 from the processor, and an additional 4 lanes of PCIe 4.0 for storage. Memory support is listed as both DDR5-4800 and DDR4-3200, although systems will only support one or the other, for a maximum of 128 GB. The K processors also feature 32 EUs of Intel’s Xe-LP graphics, designated as UHD Graphics 770. Prices will start at $264 for the base Core i5 model, up to $589 for the top Core i9 model.

Core i9-12900K/KF

For the Core i9-12900K, if we work from the ground up, the E-cores have a base frequency of 2.4 GHz but will turbo up to 3.9 GHz; the P-cores have a base frequency of 3.2 GHz, and an all-core turbo of 5.1 GHz. The P-cores that are considered the best (aka favored cores) will turbo up to 5.2 GHz.

With all the cores active, the system has all 30 MiB of L3 cache available. Intel lists the base power as 125 W, with a turbo power of 241 W. The 1000-unit price for the K model is $589, and the KF model without integrated graphics as $564. As these are 1000-unit prices, retail is expected to be $10-$50 higher, depending on how Intel bundles the chip.

Compare at $550-$600
AnandTech Cores
P+E/T
P-Core
Base
P-Core
Turbo
IGP Base
W
Turbo
W
Price
$1ku
i9-12900K 8+8/24 3200 5200 770 125 241 $589
R9 5900X 12/24 3700 4800 - 105 142 $549

On price, the Core i9 parts are up against the Ryzen 9 5900X (12C/24T, 3.7-4.8 GHz) at $549. Intel has more actual cores, but AMD has more high-performance cores. At 105W/142W, AMD has the power advantage, but Intel has PCIe 5.0 and DDR5 support, with the K also having integrated graphics.

Core i7-12700K/KF

For the Core i7, Intel has removed one set of four E-cores, and also reduced the L3 cache to 25 MiB. This leads to an 8P+4E design, with 20 total threads. Over the Core i9, the E-cores in the Core i7 have a higher base frequency at 2.7 GHz, but a lower turbo frequency of 3.8 GHz. The P-cores are also higher at 3.6 GHz, but the turbo is 4.9 GHz, with the favored core at 5.0 GHz.

Intel lists the base power here as the same 125 W, but the turbo power is only 190 W. Pricing is at $409 for the K model in 1000-unit quantities, with the KF at $384. This puts it favorably against the Ryzen 7 5800X.

Compare at $400-$450
AnandTech Cores
P+E/T
P-Core
Base
P-Core
Turbo
IGP Base
W
Turbo
W
Price
$1ku
i7-12700K 8+4/20 3600 5000 770 125 190 $409
R7 5800X 8/16 3800 4700 - 105 142 $449

On price, the Core i7 $40 is cheaper. While both have eight performance cores, the addition of four efficiency cores on the i7 is an interesting twist that might come down to how threads are managed and how Intel’s single-core performance changes when threads are loaded. At 125 W, AMD still has the on-paper power advantage, but real-world testing will see if Intel is drawing level.

Core i5-12600K/KF

The Core i5-12600K loses two P-cores compared to the Core i7, for a 6P+4E design totaling 16 threads. What we have here is a design that effectively replaces 2P cores for a 4-core E complex, and so up against the traditional 8C/16T chips will be an interesting scenario – even against Intel’s previous flagship, the 8C/16T Core i9-11900K.

The frequencies here change a bit as before, with an increased E-core base but lower E-core turbo. The P-core base is up too, but the P-core turbo is the same 4.9 GHz – the difference to the i7 is that there is no preferred core turbo mode.

Compare at ~$300
AnandTech Cores
P+E/T
P-Core
Base
P-Core
Turbo
IGP Base
W
Turbo
W
Price
$1ku
i5-12600K 6+4/16 3700 4900 770 125 150 $289
R5 5600X 6/12 3700 4600 - 65 88 $299

The price competition for the Core i5-12600K is going to be one of AMD’s best sellers. The Ryzen 5 5600X is effectively the same price, and uses a 6C/12T design, rather than Intel’s 6P4E/16T. If that looks confusing, we’ve got a fun few years ahead. It should be noted though that AMD’s hardware has a TDP of 65W, almost half of the base 125 W power listed for the Core i5.  The comparison of performance against efficiency is going to be an important one.

Chipset and Motherboards

Inside each processor, alongside the 16x PCIe 5.0 lanes for add-in cards and 4x PCIe 4.0 lanes for storage, is an additional link to the chipset. Intel lists this as a DMI 4.0 x8 link, as they use a custom protocol over an effective PCIe physical connection – we asked Intel, and they said the link is rated for 15.76 GB/s, which means the chipset can take two PCIe 4.0 x4 drives at peak before getting near to that limit. This is doubled compared to Z590, which was only 7.88 GB/s.

Today Intel is only announcing its Z690 chipset, built on Intel’s 14nm, and the motherboard manufacturers have about 60+ models to launch in the upcoming week. The processors use a new LGA1700 socket, which means everyone buying the new CPUs also need a new motherboard. Most of the big motherboard companies are holding their own product announcement events, so keep a lookout for those. Each motherboard will support either DDR5 or DDR4, not both, along with enhanced overclocking - more detail on that below.

The Z690 chipset will have 12x PCIe 4.0 lanes and 16x PCIe 3.0 lanes, some of which will be earmarked for general IO use. This includes up to four 20 Gb/s USB ports, up to ten 10 Gb/s USB ports, up to ten 5 Gb/s USB ports, and up to fourteen USB 2.0 ports (although not all at the same time). There are eight SATA ports, along with support for Intel’s onboard RAID. The PCIe storage also now uses Intel’s Volume Management Device (VMD) to assist with PCIe management.

Intel lists an integrated Wi-Fi 6E MAC in the chipset as well, requiring the respective PHY and RF connected over CNVi, which is a proprietary Intel interface – any motherboard manufacturers wanting to use other Wi-Fi 6 solutions will have to directly connect via PCIe as they can’t use the closed standard.

Intel also lists 2.5G Base-T support for wired Ethernet, although that’s a bit of a misnomer here – it’s simply an attached PCIe device using the above-mentioned lanes, and the MAC/PHY still needs to be purchased. This is a similar tactic to previous announcements – users could also add a RAID card in a similar fashion or an FPGA accelerator, however Intel doesn’t highlight those.

Intel’s chipsets employ a great deal of port flexibility – it is essentially a big PCIe switch with a few added extras. It means almost everything that can be attached to a PCIe bus can be used. But with previous generations, there are going to be some limitations with the high-speed IO lanes (such only certain lanes can be used for SATA or Ethernet, limiting perhaps the number of PCIe x4 slots), but some combinations will be better supported than others. Users looking for Thunderbolt 4 support will have to find motherboards with an added controller, as the Alder Lake desktop processors do not have it built-in like the mobile versions.

Intel has not specified the TDP of the Z690 chipset, however we’re yet to see a motherboard with active cooling, so it’s likely to be in that 7-12W range as with previous generations. We expect to see Z690 motherboards range in price from $200 up to $700+, similar to Z590 pricing.

No More TDP: Base Power and Turbo Power

In the past, Intel promoted its processor power as a single number: TDP (Thermal Design Power*). The issue wasn’t so much that this number was wrong, it was because it lacked massive context that wasn’t communicated to anyone. Arguably it took us several years to find out what it really meant, especially in relation to its turbo.

*Technically TDP is defined differently to power consumption, however they are effectively interchangeable at this point, both in common parlance and Intel documentation.

What Intel was promoting wasn’t the power consumption in regular operation, but the guaranteed power consumption for the base processor specifications. That means if a user purchased a six-core processor, base frequency at 3.0 GHz, and a TDP of 65 W, then those are the only specifications that were covered under warranty. Even if the box showcased that the processor was capable of enabling a turbo up to 4.0 GHz, that wasn’t guaranteed. Beyond that, the power consumption of the turbo mode wasn’t specified either, so if the same processor went up to 30-50% higher than 65 W, there was no explicit number from Intel, aside from digging through specification sheets that sometimes weren’t even public, to get a number to help build cooling into the system.  It also meant that reviews of hardware that were labeled as 125 W, but consumed 250W+ in turbo mode, weren’t able to accurately demonstrate the scope of the product without additional power monitoring. It got to a point where Intel’s power consumption under turbo became a bit of a meme, and enthusiasts got annoyed that Intel buried this information away.

That changes with Alder Lake. Intel is now acknowledging that its turbo mode does indeed have a power increase, and is providing that number alongside the regular set of numbers. To that end, the base ‘TDP’ number of previous generations is gone, and we get two numbers to talk about:

  • Processor Base Power (Base): Guaranteed Peak Power at Base Frequency
  • Maximum Turbo Power (Turbo): The Maximum Power at full turbo mode that is in spec

So for example, the Processor Base Power (Base) for the Core i9-12900K is set at 125 W. The Maximum Turbo Power is 241 W. This means that systems using this processor will be able to boost up to 241 W if the system is set up to do so, and that is within specification.

For the six processors being announced today, there’s also an added bonus. Under the previous regime, how long a processor could spend in that higher power mode was limited. Intel had a specification for this, which to be honest most motherboard manufacturers ignored anyway, because that length of time was only a guideline, not a rigid specification, and it didn’t break the warranty. Intel is now so confident in its turbo performance, that the new K processors have a default guideline of an unlimited turbo. It should be noted that when Intel launches the rest of the Alder Lake processors, this won’t always be the case.

For users who understand the former PL1/PL2 methodology, it still technically exists under the hood here, where Base is PL1 and Turbo is PL2, but Tau is effectively infinite for K processors.

More in this overview:

  • Cache and Hybrid Designs
  • Thread Director
  • DDR5: Support, XMP, New Features
  • Packaging and Overclocking
  • Performance and Conclusions
Cache and Hybrid Designs
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  • Zoolook - Saturday, October 30, 2021 - link

    On the contrary, I have built a number of systems for other people and maximum power is never requested, however, everyone wants a quiet desktop, even for gaming it's all about the GPU unless you "compete" with extreme fps shooters. Reply
  • hansmuff - Thursday, October 28, 2021 - link

    Why bother? Because I want a quiet machine, and laptops are not quiet under heavy load. And I want a fast GPU that runs reasonably quiet (undervolted.) Laptops and great and all, but they're not the clear alternative to quiet desktop computing. Reply
  • Flying Aardvark - Thursday, October 28, 2021 - link

    hansmuff- anything can be downclocked. If you're going to gimp your system, then why get the one with less potential if you change your mind? Intel has more potential in gaming if you go all out. Otherwise get your tablet. Reply
  • Spunjji - Friday, October 29, 2021 - link

    Flying Aardvark - all indications so far are that AMD retains better perf/watt. We'll have to wait to see whether or not that applies to gaming, but it's disingenuous to suggest that one need "gimp your system" just to get acceptable thermals. It never used to be necessary with Intel, either, before they started clocking the nuts off their processors to keep up with Ryzen.

    "Otherwise get your tablet."
    Doesn't merit a response
    Reply
  • Flying Aardvark - Saturday, October 30, 2021 - link

    Spunjji- but Intel is faster, all out. It makes no sense to neuter any system, you should be buying what has the most potential. Again, if you want the best perf/watt, get your M1 or your tablet of choice. Best 'perf per watt'. I'll be on an i9, which is faster than your system. And I can afford the extra $1 a month electric bill for the <5% time it's on and consuming high power. Reply
  • TheinsanegamerN - Friday, October 29, 2021 - link

    Because a laptop with a dock is not only more expensive but also compromises cooling and noise compared to a desktop, doesnt ahve the expandability of a desktop and.....honestly why am I even trying to explain this. You knwo full well there are use cases for desktops beyond "ZOMG 1% IPC INCREASE GOOO 1000W COOLER" Reply
  • TheinsanegamerN - Friday, October 29, 2021 - link

    Incorrect. Less efficiency means more heat/noise, more expensive coolers, and the need for more expensive motherboards. As a desktop owner Id otn want to waste money trying to cool down a hot running SOB. Reply
  • PedroCBC - Saturday, October 30, 2021 - link

    I found it really funny that americans think that electric bills are the same all around the world, as if they were even within their own country. Yeah buddy, you are right, everyone can put a 1600W PSU and run it full throttle all day and pay without it take a reasonable amount of money. Reply
  • Flying Aardvark - Saturday, October 30, 2021 - link

    PedroCBC- but you wouldn't be running at full throttle all day. Think! Reply
  • yeeeeman - Friday, October 29, 2021 - link

    I don't think they will be double the power...for example 12600K needs 150W top TDP and it beats the 5800X which is at 142W... Reply

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