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The ARM Cortex-M family are ARM microprocessor cores that are designed for use in microcontrollers, ASICs, ASSPs, FPGAs, and SoCs.Cortex-M cores are commonly used as dedicated microcontroller chips, but also are "hidden" inside of SoC chips as power management controllers, I/O controllers, system controllers, touch screen controllers, smart battery controllers, and sensor controllers.
IAR Embedded Workbench for ARM by IAR Systems [20] ICC by ImageCraft [21] Keil MDK-ARM by Keil [22] LPCXpresso [note 4] by NXP [23] (formerly Red Suite by Code Red Technologies [24]) MikroC by mikroe – mikroC; MULTI by Green Hills Software, for all Arm 7, 9, Cortex-M, Cortex-R, Cortex-A; Ride and RKit for ARM by Raisonance [25]
ARMv6-M SC000 As Cortex-M0 0.9 DMIPS/MHz ARMv4T SC100 As ARM7TDMI ARMv7-M SC300 As Cortex-M3 1.25 DMIPS/MHz Cortex-M: ARMv6-M Cortex-M0: Microcontroller profile, most Thumb + some Thumb-2, [12] hardware multiply instruction (optional small), optional system timer, optional bit-banding memory Optional cache, no TCM, no MPU 0.84 DMIPS/MHz [13 ...
ARM7, ARM Cortex-M, ARM Cortex-A (on Jailhouse hypervisor), Hitachi H8, Altera Nios2, Microchip dsPIC (including dsPIC30, dsPIC33, and PIC24), Microchip PIC32, ST Microelectronics ST10, Infineon C167, Infineon Tricore, Freescale PPC e200 (MPC 56xx) (including PPC e200 z0, z6, z7), Freescale S12XS, EnSilica eSi-RISC, AVR, Lattice Mico32, MSP430 ...
Cortex-A12: Cortex-A15: Texas Instruments OMAP5, Samsung Exynos 5250, ST Ericsson NovaThor A9600, [20] Fujitsu, [21] Nvidia Tegra 4 Samsung/Google Nexus 10, Samsung Chromebook XE303 Cortex-A17: Rockchip: RK3288: RK3288 Asus Tinker Board, Boardcon EM3288 SBC [22] Cortex-A32: Cortex-A35: NXP i.MX8X, MediaTek MT6799, MT8516, Rockchip RK3308 ...
SAMS70 series, (2015) Atmel announced the SAM S70 series based on the ARM Cortex-M7. [18] SAME70 series, (2015) Atmel announced the SAM S70 series based on the ARM Cortex-M7. [18] SAMV70 series, (2015) Atmel announced the SAM S70 series based on the ARM Cortex-M7, which is the first Atmel chip automotive grade with a Cortex-M7 core. [19]
This is a comparison of ARM instruction set architecture application processor cores designed by ARM Holdings (ARM Cortex-A) and 3rd parties. It does not include ARM Cortex-R, ARM Cortex-M, or legacy ARM cores.
For example, the ARM Cortex-A32 supports only AArch32, [163] the ARM Cortex-A34 supports only AArch64, [164] and the ARM Cortex-A72 supports both AArch64 and AArch32. [165] An ARMv9-A processor must support AArch64 at all Exception levels, and may support AArch32 at EL0.