The Development History of ARM Core – A Visual Summary

The development history of ARM Core can be summarized as follows:

1. 1980s:

• The origin of the ARM architecture can be traced back to 1983 when Acorn Computers developed the first ARM processor (ARM1), primarily used in personal computers.

1990s:

• The ARM7 and ARM9 series were released, marking the widespread application of ARM processors in embedded systems. ARM Holdings was established in 1990 and began licensing its architecture.

2000s:

• The ARM11 series was launched, supporting higher performance and more complex functions, gradually entering the mobile phone and portable device markets.

2010s:

• The ARM Cortex series was released, including Cortex-A, Cortex-R, and Cortex-M, targeting application processing, real-time processing, and microcontroller markets, respectively.

• The ARMv7 architecture became the mainstream architecture for smartphones and tablets.

2016 and beyond:

• The ARMv8 architecture introduced 64-bit computing, enhancing processing power and security. The Cortex-A series and ARM Cortex-M series continue to evolve.

• ARM’s applications in emerging fields such as artificial intelligence, the Internet of Things, and automotive electronics are increasing.

To make it easier for everyone to understand, just look at the picture below.

The development history of ARM Core can be summarized as follows:

1. 1980s:

• The origin of the ARM architecture can be traced back to 1983 when Acorn Computers developed the first ARM processor (ARM1), primarily used in personal computers.

1990s:

• The ARM7 and ARM9 series were released, marking the widespread application of ARM processors in embedded systems. ARM Holdings was established in 1990 and began licensing its architecture.

2000s:

• The ARM11 series was launched, supporting higher performance and more complex functions, gradually entering the mobile phone and portable device markets.

2010s:

• The ARM Cortex series was released, including Cortex-A, Cortex-R, and Cortex-M, targeting application processing, real-time processing, and microcontroller markets, respectively.

• The ARMv7 architecture became the mainstream architecture for smartphones and tablets.

2016 and beyond:

• The ARMv8 architecture introduced 64-bit computing, enhancing processing power and security. The Cortex-A series and ARM Cortex-M series continue to evolve.

• ARM’s applications in emerging fields such as artificial intelligence, the Internet of Things, and automotive electronics are increasing.