Apple’s upcoming M5 Pro chip is set to break from its traditional System-on-a-Chip (SoC) design by separating the CPU and GPU components.
This shift, expected to improve performance and production yields, marks a significant evolution in Apple’s chip design.
Traditional SoC vs. M5 Proโs New Approach
Apple’s A-series and M-series chips have long integrated the CPU and GPU into a tightly unified SoC package. However, the M5 Pro chip, along with its Max and Ultra variants, will use TSMCโs SoIC-mH packaging (System-on-Integrated-Chips-Molding-Horizontal).
This server-grade design enhances thermal performance, enabling the chip to maintain peak power longer before throttling due to heat.
Additionally, the SoIC-mH process improves production efficiency, reducing the number of defective chips during manufacturing.
Advanced Manufacturing and Features
The M5 series chips will leverage TSMCโs N3P node, with mass production timelines as follows:
- M5: First half of 2025
- M5 Pro/Max: Second half of 2025
- M5 Ultra: 2026
These chips will power high-performance Macs and are also expected to support Apple Intelligence servers through a new Private Cloud Compute (PCC) infrastructure. This aligns with Appleโs push into AI inferencing and advanced computing.
What This Means for Apple Devices
The M5 Pro chipโs design mirrors reports that Appleโs iPhone 18 might adopt a similar separation approach for RAM components.
Such innovations could redefine Appleโs hardware capabilities across consumer devices and enterprise applications.
Appleโs move to separate CPU and GPU components in the M5 Pro highlights its commitment to pushing performance boundaries while optimizing production processes.
This innovation could further solidify Appleโs leadership in chip design and AI-driven applications.