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What this means is that Intel is stuffing all of the K-series 12th Gen chips, those which are arriving at launch, with two types of cores: Performance Cores (P-Cores) and Efficient Cores (E-Cores). The most notable change of the lot for Intel Alder Lake, though, is the hybrid Core architecture.
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With Alder Lake, it's no longer tied to that node, so it's free to do more in the space it's got, and the company says it even expects to shift a lot of Alder Lake chips this side of New Year So perhaps this is some silicon you'll actually be able to buy at launch. Intel has finally broken free the shackles of 14nm and managed to escape the node that was once so congested it caused a fairly embarrassing pile-up for the chipmaker. Alder Lake is Intel's first desktop processor to use the Intel 7 process node, which was previously referred to as Intel 10nm SuperFin, and also the first in a very long time to not use the 14nm process node. So let's dig into it, starting with the process that defines the entire chip: Intel 7.
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The most notable change of the lot for Intel Alder Lake is the hybrid Core architecture. All of which makes for fascinating analysis. With that comes frame rates, OS requirements, and idiosyncrasies. At its simplest, that equates to more cores, more speed, and more bandwidth than ever before, but if you dig beneath the surface you'll find a chip architecture that is wildly different to what came before. The Core i9 12900K represents the very best in Intel's desktop 12th Generation processors, and what that means is it houses the Alder Lake architecture in its most performant form. (Image credit: Future) What's different about the Intel Core i9 12900K?