M1: Apple did it

Extracted from:  Apple M1 System-on-Chip report, System Plus Consulting, 2020 | APU Quarterly Market Monitor, Yole Développement, Q4 2020

OUTLINE:

• APU[1] market dynamics:

Q4 2020 APU revenue expected just below US$10 billion.

Yole Développement (Yole) is expecting a US$38 billion market for 2020.

Near term: seasonally weak Q1-20 and COVID-19 impacts are overlapped to place H1-20 revenue just 3% above H1-19.

Long term: following the bounce back of demand in 2021, expecting modest unit and ASP[2] growth will combine and generate growing APU revenues by 2023.

• Recent news…

Apple announced two new processors A14 and M1. M1 is the long-awaited introduction of a Mac processor designed on Apple silicon.

Strongly impacted by US – China tensions, HiSilicon collaborates now with the Chinese foundry SMIC for the development of its Kirin710A.

Qualcomm has chosen to switch from TSMC to Samsung foundry to manufacture their latest flagship processor.

• Apple’s M1 marketing data - M1 SoC contains these major IP blocks: Four “Firestorm” high-performance CPU cores - Four “Icestorm” power efficient CPU cores - Eight GPU cores - Machine learning core, “Neural Engine” - Dual core secure processor, “Secure Enclave” - PCI Express high speed serial interfaces (X2) - Display engine.

It is now done. Apple did it. Last November, the leading smartphones manufacturer, Apple has released its first ARM-based SoC[3]. M1 has been designed by Apple, as a CPU[4] for its line of Macintosh product and Apple claims that the M1 SoC is the world’s fastest CPU with the best CPU performance per watt.

“Two new Apple MacBook models and the Mac mini are now powered by an Apple in-house SoC design,” announces Belinda Dube, Technology & Cost Analyst, Memories at System Plus Consulting. And she adds: “The transition from Intel x86 processors has created shockwaves felt throughout the processor and computing world. This new, first SoC for Mac features 4-CPU high-performance cores, 4-CPU high-efficiency cores, and 8-GPU cores.”

The tight software-hardware integration inside Apple enabled a compact, efficient processor for personal computer that outcompetes many premium microprocessors. 16 billion transistors using TSMC 5nm process were used to build it. The chip architecture provides optimized power efficiency.

John Lorenz, Technology & Market Analyst, Processors at Yole Développement (Yole) comments: “By switching to the M1 processor, Apple gives a boost to the prospects of ARM-based PCs, previously the domain of low-performing Chromebooks. Not only is this a well-spec’d solution for Apple, this is likely saving some cost on the MacBook’s components. Other notebook OEMs[5] are sure to take note and may further examine their x86-based solutions, although Apple can do more coordination between hardware and software as they control their operating system. Most Windows-based OEMs would not have that luxury.”

System Plus Consulting, the reverse engineering and costing company is pleased to announce a dedicated analysis focused on the latest Apple’s innovation. This report is titled: Apple M1 System-on-Chip.

To reveal all the details of Apple M1, System Plus Consulting’ report features multiple analyses: a floor plan analysis to understand the high-level chip architecture with IP[6] block area contribution measurements, a front-end construction analysis that reveals the most interesting features of the new TSMC 5nm process, a back-end construction analysis of the packaging structure, and a detailed manufacturing cost analysis.

“On the SoC side, it appears that the die area of the M1 was optimized for functionality rather than SRAM cache,” comments Belinda Dube from System Plus Consulting. According to the Apple M1 report, there is limited on-chip cache, taking cues from mobile SoC designs relying on the UMA[7] concept and external LPDDR4X DRAM. Significant die area is devoted to standard cell functions, indicating that Apple is leveraging in-house chip design to optimize hardware for the operating system.

On the packaging side, the same structure is used for Apple’s A12X and A12Z, with the integration of the DRAM on the SoC substrate, and embedded silicon capacitors in the substrate.

Don Scansen collaborates with System Plus Consulting’s team to analyze Apple’s M1. “The first product from Apple’s chip design team meant for the personal computer line surpassed many competing microprocessors and nearly everything currently in other Apple products, particularly in single core and GPU tests…”, wrote Don in a dedicated article for EETIMES. Discover the full article: here.

In collaboration with Yole Développement, System Plus Consulting publishes numerous reports and tracks all year long. In addition, experts realize various key presentations and organize key conferences. Make sure to follow our activities on i-Micronews.

[1] APU: Application Processing Unit

[2] ASP: Average Selling Price

[3] SoC: System on a Chip

[4] CPU: Central Processing Unit

[5] OEM: Original Equipment Manufacturer

[6] IP: Intellectual Property

[7] UMA: universal memory architecture

Sources: www.systemplus.fr - www.yole.fr