Dyb analyse af de nye Apple M1 Pro og Apple M1 Max systemchips
System Plus Consulting har udført en komplet analyse af de to nye Apple M1 systemchips (SoCs), der benyttes i henholdsvis Apple notebooks og MacBook Pro (in english).The reverse engineering and costing company System Plus Consulting has released two major reverse engineering & costing analyses: Apple M1 Pro System-on-Chip and the Apple M1 Max System-on-Chip. Both studies provide valuable and accurate insights into the technical data, manufacturing cost, and selling price of the latest innovative products from Apple.
System Plus Consulting, the partner of Yole Développement (Yole), has developed core computing & software expertise with a dedicated team of reverse engineering & costing analysts. System Plus Consulting collaborates closely with Yole to identify the latest innovations and understand and analyze the technological choices made by the leading OEMs. Both partners combine their expertise to analyze the industry’s evolution through the technologies and the strategies of the leading companies.
Ying-Wu Liu, Technology& Cost Analyst at System Plus Consulting, explains:
- While x86 architecture is still expected to account for most PC processing, Apple's switch to in-house processor silicon signals a major shift in this structure. Yole's Processor Quarterly Market Monitor expects 14% of PCs to run on non-x86 processors by 2027, up from just 4% in 2020. Apple's strategy with the M1 family and its derivatives is the main factor in this market shift, as Apple shows what is possible at the high-end of PC performance.
In 2020, Apple published the M1 SoC to run its macOS on a proprietary design. The birth of Apple’s first processor for personal computing created a shockwave in the industry. Apple became totally independent in processor development, leaving many to speculate whether the end of Apple sockets for Intel processors had arrived.
The following year, Apple presented the M1 Pro and Max SoC as the next generation of M1. Once again, Apple showed its ambition and capability with these two powerful SoCs. The M1 Pro’s die is twice the size of the M1’s die, and the M1 Max die almost four times bigger.
According to Apple, the biggest and most powerful chip for the Pro Notebook – M1 Max SoC – includes 57 billion transistors, 70% more than the M1 Pro and 3.5 times more than the M1. Regarding chip architecture, the M1 Max is equipped with a 10-core CPU, a 32-core GPU, a 16-core neural engine, and an Apple-designed media engine that boosts video processing while maximizing battery life.
The chip is fabricated by TSMC on a 5nm process, which is also used to manufacture Apple’s A14 & A15 SoCs and the other M1 variants. The Apple M1 Max SoC integrates four external LPDDR5 SDRAMs into a SiP. The SoC die is flip-chip mounted onto the M1 Max SoC PCB by BGA and shares the same PCB with LPDDR5 SDRAM packages. The package also includes MLCC s and IPDs.
To reveal all the details of the Apple M1 Max SoC and the Apple M1 Pro SoC, both System Plus Consulting’s reports feature multiple analyses. These include a front-end construction analysis to reveal the most interesting features of the TSMC 5nm process, as well as package assembly and structure.
In addition to a complete construction analysis using SEM cross-sections, material analyses, and delayering, System Plus Consulting’s analysts show high-resolution TEM cross-sectional images of TSMC’s 5nm features. A CT scan (3D X-ray) is also provided to reveal the layout structure of the whole chip package. Moreover, the floorplan of the SoC die is included to give a clear view of IP blocks and general chip architecture. Lastly, both reports contain a complete cost analysis and selling price estimation of Apple’s M1 Pro SoC and M1 Max SoC.