At CES this year, Intel officially announced its expanded Alder Lake processor lineup, including the performance-laptop focused H-Series chips, which traditionally fit in the 45-Watt range. For the last several processor generations, Intel has started their roll-outs with the low-power laptop parts, and then expanded the range up to and including desktop processors; but for Alder Lake they have flipped this on its head. Instead, Intel first launched desktop processors, such as the Core i9-12900K, and then moved down the range, with the performance notebook processors coming second, and the low-power processors coming later.

Intel 12th Gen Core Alder Lake-H
AnandTech Cores
P+E
E-Core
Base
E-Core
Turbo
P-Core
Base
P-Core
Turbo
Base
W
Turbo
W
i9-12900HK 6+8 1800 3800 2500 5000 45 115
i9-12900H 6+8 1800 3800 2500 5000 45 115
i7-12800H 6+8 1800 3700 2400 4800 45 115
i7-12700H 6+8 1700 3500 2300 4700 45 115
i7-12650H 6+4 1700 3500 2300 4700 45 115
i5-12600H 4+8 2000 3300 2700 4500 45 95
i5-12500H 4+8 1800 3300 2500 4500 45 95
i5-12450H 4+4 1500 3300 2000 4400 45 95

Today, we finally get to take a look at the 12th generation H-Series processors and see how they stack up to not only Intel’s previous 11th generation Tiger Lake platform, but also AMD’s Ryzen 5000 Mobile series. If you’ve not yet taken a look at the initial Alder Lake desktop processor review, definitely check that out since Alder Lake is a big departure from Intel’s traditional CPU design. Featuring a new hybrid CPU design with performance (P-cores) and efficiency cores (E-cores), the new design is more characteristic of what you would see in a smartphone platform, except Intel’s efficiency cores offer almost Skylake levels of performance and should not be disregarded.

Combined with Windows 11, Intel is hoping to improve multi-tasking performance with not only more cores, but also with Windows 11 being able to park jobs that are not in the foreground on the efficiency cores, leaving the performance cores available for the user to avoid system responsiveness problems even when the system is heavily loaded.

The Test System – MSI Raider GE76

Intel is putting its best foot forward, as expected, by supplying the MSI Raider GE76 system for performance testing. This 17-inch desktop-replacement machine is nearly always at the top of all notebook performance comparisons, and for 2022, MSI has kept the chassis the same, save for adding in Alder Lake as well as the latest NVIDIA RTX 3080 Ti Laptop GPU. We recently reviewed the Tiger Lake version of this notebook so if you want to learn more about the device, please check that review out. The Tiger Lake version was the fastest notebook we had ever tested, so expectations are high with the new Alder Lake refresh. We will be covering some of the same aspects here as well.

And for those that follow MSI, be aware that for 2022 they are moving the laptop name ahead of the model number, so it is now the Raider GE76, whereas last year it was the GE76 Raider.

MSI Raider GE76 Alder Lake
Component As Tested
CPU Intel Core i9-12900HK
6 x P-Core, 8 x E-Core, 20 Threads
85 W TDP
GPU NVIDIA RTX 3080 Ti for Laptops
7424 CUDA Cores
16GB GDDR6 (16Gbps)
RAM 2 x 16GB DDR5-4800
Display 17.3-inch 1920x1080 360 Hz
Storage 2 x Samsung PM9A1 1 TB NVMe PCIe 4.0
Networking Killer AX1675 Wi-Fi 6E
Killer E3100G Ethernet
I/O 1 x Thunderbolt 4
3 x USB 3.2 Gen 2 Type-A
1 x USB 3.2 Gen2 Type-C
1 x HDMI 2.1
1 x Mini DisplayPort 1.4
SD Card Reader
Headset jack
Keyboard Steelseries per-key RGB Anti-Ghost
Audio/Video 1080p Webcam
2 x 2W + 2 x 1W Speakers
Battery 99.9 Wh Battery
330 W AC Adapter
Dimensions 15.63 x 11.18 x 1.02 inches
Weight 2.9 kg / 6.9 lbs
Price (USD) $3600 USD with single SSD

MSI checks all the boxes for 2022. Featuring the Core i9-12900HK, 32 GB of DDR5-4800 memory, the newest NVIDIA RTX 3080 Ti Laptop GPU, and not one but two Samsung PM9A1 1 TB NVMe PCIe 4.0 drives. MSI has improved their cooling solution for 2022 with a new Phase Change thermal pad as well, allowing the system to wick heat away from the hot components into the cooling system with even more efficiency.

The Core i9-12900HK Processor

At the top of the Alder Lake laptop product stack is the Core i9-12900HK processor. It features six of the new Golden Cove P-cores and eight of the new Gracemont E-cores. The P-Core can turbo up to 5 GHz, while the E-Core caps out at 3.8 GHz. The processor has a nominal TDP of 45 Watts – though in the case of our Raider, the TDP appears to be set closer to 75 Watts out of the box – with a peak turbo draw of up to 115 Watts. It offers up to eight lanes of PCIe 4.0 for graphics and two sets of four PCIe 4.0 lanes for storage, along with an additional twelve PCIe 3.0 lanes.

One of the big changes for Alder Lake-H is that Intel has taken a page from the design for their U/Y/P series chips and moved the formerly separate PCH on to the processor package itself. This essentially reduces Alder Lake-H to a single package solution, as like its other mobile brethren, no external silicon is required to provide necessary I/O functionality. By reducing ADL-H to a single package, this will allow for smaller form factor designs, as well as reducing the footprint that needs to be cooled.

The new processor can support up to 64 GB of memory, and supports DDR5-4800, LPDDR5-5200, DDR4-3200, and LPDDR4-4267. There are a plethora of PCIe lanes available with eight PCIe 4.0 lanes for graphics, two sets of four PCIe 4.0 lanes for storage, and an additional twelve PCIe 3.0 lanes. It can't quite match a desktop processor and chipset, and the laptop processors do not have support for PCIe 5.0 yet unlike their desktop counterparts, but it is still a significant amount of expansion available. There is also support for up to four Thunderbolt 4 ports for external I/O.

On the graphics front, the Core i9-12900HK offers Intel Iris Xe graphics with 96 Execution Units on tap with a peak GPU frequency of 1.45 GHz. This is a big step up in terms of integrated graphics from the Tiger Lake H-Series, which only provided 32 Execution Units of Intel UHD graphics. Laptop buyers will be unlikely to find the H-Series where it is not paired with a dedicated graphics card, but it is nice to see that the latest Alder Lake lineup does get access to the top-tier graphics regardless.

The Test Platform: MSI's Raider GE76
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  • Netmsm - Tuesday, January 25, 2022 - link

    "High? not at all" said Patrick Gelsinger.
    :)))
    Reply
  • maroon1 - Wednesday, January 26, 2022 - link

    115w is max power for shot period. sustained power consumption is 85w in extreme performance mode

    And 75w when using balanced mode but you lose 3% in cinebench
    Reply
  • undervolted_dc - Wednesday, January 26, 2022 - link

    ... and spec sheet says 45w, but probably during bench are using the full power boost.. and gets benchmarked against 45w ( with boost at 54w) in performance..
    e cores seems to no help in low performance tasks also.. seems less efficient than amd despite having the complexity to manage hybrid cores in the OS
    Reply
  • Spunjji - Thursday, January 27, 2022 - link

    It's Intel's strategy ever since they got stuck on 14nm. Prior to that, they kept dropping power while incrementing performance, leading to a progressively improving overall experience (better sustained power, less bulky devices, etc.)

    Then AMD got back in the game and Intel had to compete somehow, so they started raising their TDP ratings to get benchmarks that look good. The results are easy to see when you look at sites like Notebookcheck that measure performance of large groups of devices: Intel get good benchmarks, but performance drops quickly under sustained use in anything other than a DTR, and there's a massive error bar around the average performance of an Intel mobile CPU because it's dependent on how well the chassis can remove 45W+ of heat (even the Ultra Mobile ones).
    Reply
  • sandeep_r_89 - Monday, January 31, 2022 - link

    Higher battery capacity doesn't help win benchmarks........ Reply
  • bogamia - Tuesday, January 25, 2022 - link

    wonder how it would perform against Rembrandt which will presumably offer 30% better mt uplift. Reply
  • Spunjji - Thursday, January 27, 2022 - link

    I wouldn't expect to see an increase like that in practice. Rembrandt may be a little faster than Cezanne, but probably not a lot.

    If you're one of the majority of people who buy a device that's designed to cool 45W sustained, though, then it'll be less of a disappointment than Alder Lake.
    Reply
  • vlad42 - Friday, January 28, 2022 - link

    Maybe, maybe not. The base clock does appear to have gone up from 1.9 GHz in the 5800U to 2.7 GHz in the 6800U, a 42% increase! Granted, it is possible the 2.7 GHz base clock is only when the chip is in 28W mode - it really was not clear from the slide.

    We also do not know how much benefit RDNA2 is bringing over Vega in terms of energy efficiency (there may be more thermal/power budget available to the Zen 3 cores), the improvements in 6N vs 7N, or the yield improvements/better binning now that the process is even more mature - 6N is still just a variant of 7N after all.

    While I would normally agree with you, we clearly need more information to know for certain. The Ice Lake to Tiger Lake improvements were pretty significant and the changes Intel made look to be fairly similar to what AMD has done here.
    Reply
  • Samus - Saturday, January 29, 2022 - link

    I agree. I don't think AMD is going to take the IPC performance crown back here unless they can considerably scale up clock speed at the cost of efficiency like a Black Edition part.

    The fact is all these new CPU's are SO fast that it's Lamborghini's vs Ferrari's. I think people are going to prefer the one that has double the MPG at a virtually unnoticeable performance penalty.
    Reply
  • FwFred - Wednesday, February 2, 2022 - link

    How does higher clock speed help IPC exactly? Let's just call it single thread performance and leave IPC to microarchitectural discussions. Reply

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