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ARM Cortex-R

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(Redirected from ARM Cortex-R8)
ARM Cortex-R
Mediatek MT6280A ARM Cortex-R4
General information
Designed byArm Ltd.
Architecture and classification
Instruction setARMv7-R, ARMv8-R,
ARM (32-bit),
ARM (64-bit),
Thumb (16-bit)

The ARM Cortex-R is a family of 32-bit and 64-bit RISC ARM processor cores licensed by Arm Ltd. The cores are optimized for hard real-time and safety-critical applications. Cores in this family implement the ARM Real-time (R) profile, which is one of three architecture profiles, the other two being the Application (A) profile implemented by the Cortex-A family and the Microcontroller (M) profile implemented by the Cortex-M family. The ARM Cortex-R family of microprocessors currently consists of ARM Cortex-R4(F), ARM Cortex-R5(F), ARM Cortex-R7(F), ARM Cortex-R8(F), ARM Cortex-R52(F), ARM Cortex-R52+(F), and ARM Cortex-R82(F).

Overview

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32-bit
Year Core
2011 Cortex-R4(F)
2011 Cortex-R5(F)
2011 Cortex-R7(F)
2016 Cortex-R8(F)
2016 Cortex-R52(F)
2022 Cortex-R52+(F)
64-bit
Year Core
2020 Cortex-R82(F)

The ARM Cortex-R is a family of ARM cores implementing the R profile of the ARM architecture; that profile is designed for high performance hard real-time and safety critical applications. It is similar to the A profile for applications processing but adds features which make it more fault tolerant and suitable for use in hard real-time and safety critical applications.

Real time and safety critical features added include:

The Armv8-R architecture includes virtualization features similar to those introduced in the Armv7-A architecture. Two stages of MPU-based translation are provided to enable multiple operating systems to be isolated from one another under the control of a hypervisor.

Prior to the R82, introduced on 4 September 2020,[1] the Cortex-R family did not have a memory management unit (MMU). Models prior to the R82 could not use virtual memory, which made them unsuitable for many applications, such as full-featured Linux.[1] However, many real-time operating systems (RTOS), with an emphasis on total control, have traditionally regarded the lack of an MMU as a feature, not a bug.[1] On the R82, it may be possible to run a traditional RTOS in parallel with a paged OS such as Linux, where Linux takes advantage of the MMU for flexibility, while the RTOS locks the MMU into a direct translation mode on pages assigned to the RTOS so as to retain full predictability for real-time functions.[1]

ARM license

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Arm Holdings neither manufactures nor sells CPU devices based on its own designs, but rather licenses the core designs to interested parties. ARM offers a variety of licensing terms, varying in cost and deliverables. To all licensees, ARM provides an integratable hardware description of the ARM core, as well as complete software development toolset and the right to sell manufactured silicon containing the ARM CPU.

Silicon customization

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Integrated device manufacturers (IDM) receive the ARM Processor IP as synthesizable RTL (written in Verilog). In this form, they have the ability to perform architectural level optimizations and extensions. This allows the manufacturer to achieve custom design goals, such as higher clock speed, very low power consumption, instruction set extensions, optimizations for size, debug support, etc. To determine which components have been included in a particular ARM CPU chip, consult the manufacturer datasheet and related documentation.

Applications

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The Cortex-R is suitable for use in computer-controlled systems where very low latency and/or a high level of safety is required. An example of a hard real-time, safety critical application would be a modern electronic braking system in an automobile. The system not only needs to be fast and responsive to a plethora of sensor data input, but is also responsible for human safety. A failure of such a system could lead to severe injury or loss of life.

Other examples of hard real-time and/or safety critical applications include:

See also

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References

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  1. ^ a b c d Salter, Jim (9 September 2020). "Arm's new Cortex-R82 is its first 64-bit real-time processor". arstechnica.com. Ars Technica. Retrieved 11 September 2020.
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ARM Cortex-R official documents
ARM
Core
Bit
Width
ARM
Website
ARM Technical
Reference Manual
ARM Architecture
Reference Manual
Cortex-R4(F) 32 Link Link ARMv7-R
Cortex-R5(F) 32 Link Link ARMv7-R
Cortex-R7(F) 32 Link Link ARMv7-R
Cortex-R8(F) 32 Link Link ARMv7-R
Cortex-R52(F) 32 Link Link ARMv8

ARMv8-R

Cortex-R52+(F) 32 Link Link ARMv8-R
Cortex-R82(F) 64 Link Link ARMv8-R (AArch64)
Migrating
Other