3fad50287c
Since most of the code in i2c_api.c is now relying on STM32 HAL, there is now a possibility to make a common usage of this code accross families. The IP version definition is introduced per family, to allow a switch of functionnalities, especially the frequency management which differs. BTw, we fix the F0 frequency settings at the same time. F1 is managed for now as an exception as the HAL API for sequential transmit /receive is not yet available (coming soon) |
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| .github | ||
| TESTS | ||
| cmsis | ||
| docs | ||
| drivers | ||
| events | ||
| features | ||
| hal | ||
| platform | ||
| rtos | ||
| targets | ||
| tools | ||
| .gitattributes | ||
| .gitignore | ||
| .pylintrc | ||
| .travis.yml | ||
| CONTRIBUTING.md | ||
| DOXYGEN_FRONTPAGE.md | ||
| Jenkinsfile | ||
| LICENSE | ||
| README.md | ||
| mbed.h | ||
| requirements.txt | ||
README.md
ARM mbed OS
mbed OS is an open-source embedded operating system designed specifically for the "things" in the Internet of Things (IoT). It includes all the features you need to develop a connected product based on an ARM Cortex-M microcontroller.
mbed OS accelerates the process of creating a connected product by providing a platform operating system that includes robust security foundations, standards based communication capabilities, built-in cloud management services, and drivers for sensors, I/O devices and connectivity. mbed OS is built as a modular, configurable software stack so that you can readily customize it to the device you're developing for, and reduce memory requirements by excluding unnecessary software components.
Current release
Our current release series is mbed OS 5.2:
Getting Started for Developers
We have a getting started guide for developers using mbed OS in applications:
Getting Started for Contributors
We have a getting started guide for contributors working on mbed OS:
- Have a look in the docs directory