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Name License Source model Target uses Status Platforms Apache Mynewt: Apache 2.0: open source: embedded: active: ARM Cortex-M, MIPS32, Microchip PIC32, RISC-V: BeRTOS: Modified GNU GPL: open source
FreeRTOS is a real-time operating system kernel [3] [4] [5] for embedded devices that has been ported to 40 microcontroller platforms. It is distributed under the MIT License . History
Zephyr (/ ˈ z ɛ f ə r /) is a small real-time operating system (RTOS) [7] for connected, resource-constrained and embedded devices (with an emphasis on microcontrollers) supporting multiple architectures and released under the Apache License 2.0.
The electronic schematics [9] and firmware [10] of the Flipper Zero project are open sourced under the GNU General Public License.At the same time, the device does not fit into the open-source hardware category because the printed circuit boards are not open-sourced, which does not allow enthusiasts to make their own copies of the device without knowledge of electrical engineering.
Ac6 System Workbench for STM32 [note 1] [1] [2] (based on Eclipse and the GNU GCC toolchain with direct support for all ST-provided evaluation boards, Eval, Discovery and Nucleo, debug with ST-LINK) ARM Development Studio 5 by ARM Ltd. [3] Atmel Studio [note 2] by Atmel [4] (based on Visual Studio [5] and GNU GCC Toolchain [6])
Simulates a PIC microcontroller: Logisim-evolution [4] [5] Multiple Universities 2024: Windows, macOS, Linux VHDL: Fork of Logisim (development ended in 2011) [6] LTspice: Analog Devices: 2024 Windows, macOS, POL: Very popular, updated often [7] Originally created at Linear Technology. Micro-Cap: Spectrum Software: 2021 Windows PLD expressions
The EFM32 microcontroller family is one of the two products of Energy Micro. The other being EFR4D Draco SoC radios. In April 2008, Energy Micro announced that it licensed the ARM Cortex-M3 core. [21] In October 2009, Energy Micro announced the EFM32 Gecko MCU family (EFM32G series) based on Cortex-M3. [22]
QP ports and ready-to-use examples are provided for several RTOSes (such as Segger Microcontroller Systems#embOS, ThreadX, FreeRTOS, uC/OS-II, etc.) The most important reason why you might consider using a traditional RTOS kernel for executing event-driven QP applications is compatibility with the existing software.