Apple M3 MAX SoC Digital Floorplan Quick Look Analysis

Apple M3 MAX SoC Digital Floorplan Quick Look Analysis

Discover the advanced technology behind Apple's APL1204 application processor extracted from the 14-inch MacBook Pro with M3 MAX. Explore our in-depth analysis of its 64-bit 14-core design, 3 nm TSMC N3B process, and cutting-edge FinFET transistors.

The Apple APL1204 application processor was extracted from a 14-inch Apple MacBook Pro with M3 MAX. The 14-inch Apple MacBook Pro with M3 MAX can support the APL1204 64-bit 14-core processor [2]. The processor is composed of 10 performance cores and 4 efficiency cores with 36 GB of memory utilizing LPDDR5. The Apple TMQG40 die was manufactured on 300-mm wafers using TMSC N3B FINFLEX HKMG CMOS process with an 11-track library. The 3 nm process employs high-k metal gate (HKMG) FinFET transistors and a two-level contact, featuring contacts to transistor source/drain (S/D) (CT) and to metal gate (VG), as well as via contacts (VC) to CT/CG, and 19 metal levels, including 18 levels of copper (Cu). Our conclusions on how the process node in which the TMQG40 die was manufactured are based on findings of a contacted gate, logic fin, minimum metal pitches, and a comparison to the process features of previously analyzed devices.

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