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2. ARM Cortex-M - Wikipedia

   en.wikipedia.org/wiki/ARM_Cortex-M

   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.

3. Comparison of single-board microcontrollers - Wikipedia

   en.wikipedia.org/wiki/Comparison_of_single-board...

   Cortex M4 ARMv7E-M 168 MHz Arduino 69mm x 53mm USB 5V - 9V DC 384 Kb 100 Kb 16 6 6 11/8/2012 168 MHz 32-bit ARM7 microcontroller board with support for the .NET Micro Framework. Pin compatible with Arduino shields although drivers are required for some shields. [251] Netduino N3 [251] Wilderness Labs [251] Yes Cortex-M4 (STM32F4) ARMv7E-M 168 MHz

4. List of Arduino boards and compatible systems - Wikipedia

   en.wikipedia.org/wiki/List_of_Arduino_boards_and...

   ARM Cortex-M4: 64 MHz 45 mm × 18 mm [ 1.8 in × 0.7 in ] Micro USB 3.3 V 1 MB flash 256 14 All digital pins (4 at once) 8 Nano 33 BLE Sense ARM Cortex-M4: 64MHz 45 mm × 18 mm [ 1.8 in × 0.7 in ] Micro USB 3.3 V 1 MB 256 14 14 8 Nano RP2040 Connect [50] Raspberry Pi RP2040: 133MHz 45 mm × 18 mm [ 1.8 in × 0.7 in ] Micro USB

5. ARM architecture family - Wikipedia

   en.wikipedia.org/wiki/ARM_architecture_family

   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.

6. Cypress PSoC - Wikipedia

   en.wikipedia.org/wiki/Cypress_PSoC

   The PSoC 4 features a 32-bit ARM Cortex-M0 CPU, with programmable analog blocks (operational amplifiers and comparators), programmable digital blocks (PLD-based UDBs), programmable routing and flexible GPIO (route any function to any pin), a serial communication block (for SPI, UART, I²C), a timer/counter/PWM block and more. [3]

7. BeagleBoard - Wikipedia

   en.wikipedia.org/wiki/Beagleboard

   The BeagleBoard-X15 [36] [37] is based on the TI Sitara AM5728 processor with two ARM Cortex-A15 cores running at 1.5 GHz, two ARM Cortex-M4 cores running at 212 MHz and two TI C66x DSP cores running at 700 MHz. [38] The processor provides USB 3.0 support and has a PowerVR dual-core SGX544 GPU running at 532 MHz.

8. NXP LPC - Wikipedia

   en.wikipedia.org/wiki/NXP_LPC

   In September 2012, NXP announced the LPC4000 series based on ARM Cortex-M4F. [34] In November 2012, NXP announced the LPC800 series based on the ARM Cortex-M0+ core, and the first ARM Cortex-M in a DIP8 package. [35] In April 2013, NXP announced the LPC-Link 2 JTAG / SWD debug adapter. Multiple firmware versions are available to emulate popular ...

9. TI MSP432 - Wikipedia

   en.wikipedia.org/wiki/TI_MSP432

   It is based on a 32-bit ARM Cortex-M4F CPU, and extends their 16-bit MSP430 line, with a larger address space for code and data, and faster integer and floating point calculation than the MSP430. Like the MSP430, it has a number of built-in peripheral devices, and is designed for low power requirements. In 2021, TI confirmed that the MSP432 has ...