stm32f1-baremetal
MiROS
stm32f1-baremetal | MiROS | |
---|---|---|
2 | 7 | |
8 | 73 | |
- | - | |
7.1 | 0.9 | |
4 months ago | about 1 year ago | |
C | C | |
GNU General Public License v3.0 only | GNU General Public License v3.0 only |
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stm32f1-baremetal
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Writing your own linker script for STM32f103 from scratch
GitHub: https://github.com/csrohit/stm32-baremetal/tree/optimize-code
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How to efficiently pack your source code into a binary executable for embedded projects in ARM Cortex M3 💾.
Please check out this detailed blog about "Optimising the size of the executable for embedded projects💾": https://medium.com/@csrohit/optimizing-binary-size-for-embedded-programs-be8937a5754b For the complete source code visit the GitHub repo: https://github.com/csrohit/stm32-baremetal/tree/optimize-code
MiROS
- Beginners Project
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Where should I start if I want to learn embedded systems ?
Have you checked this one? https://www.state-machine.com/quickstart
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Do World Need Another RTOS?
You can check out the YouTube videos [about building your own minimal RTOS](https://www.youtube.com/playlist?list=PLPW8O6W-1chyrd_Msnn4LD6LBs2slJITs). This minimal RTOS (called MiROS) is used as a teaching aid. The project is also available on GitHub.
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How can I do a context switch with rust?
I've checked out C implementations like os h and (MirOS)[https://github.com/QuantumLeaps/MiROS] but when I port them to rust (even with C2Rust) they cause hard faults too.
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A Tiny RTOS Simply Explained
To see "A Tiny RTOS Simply Explained" you might want to watch the RTOS video playlist on YouTube. The videos teach about the RTOS by building a "Minimal Real-Time Operating System" (MiROS) for ARM Cortex-M, which is available on GitHub.
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path of learning the arm cortex-m embedded c programming?
For example, in the segment about the RTOS, you witness building a "Minimal Real-time Operating System "MiROS". The MiROS code is available on GitHub, and you can keep adding to it other features. Building a functional RTOS is a great way to learn about RTOSes.
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How to find out how to write an operating system
You will build there a small "Minimal Real-time Operating System (MiROS)" for ARM Cortex-M. You will start with performing context switching manually, and then you will automate the process in assembly. Then you will build schedulers, first time-slicing round-robin and then preemptive, priority-based. You will learn about real-time and Rate Monotonic Scheduling. You will see how all this works using a logic analyzer. The RTOS code, and the examples are available on GitHub.
What are some alternatives?
qpc - QP/C Real-Time Embedded Framework/RTOS for embedded systems based on active objects (actors) and hierarchical state machines
modern-embedded-programming-course - Companion repository to the "Modern Embedded Systems Programming" video course.
QuarkTS - An open-source OS for embedded applications that supports prioritized cooperative scheduling, time control, inter-task communications primitives, hierarchical state machines and CoRoutines.
light_cube - L I G H T C U B E (neat desk light thing based on an stm32 and a bunch of ws2812bs)
OOP-in-C - Simple and efficient implementation of OOP in C suitable for real-time embedded systems.
cortexm-threads - Simple context switching library for ARM Cortex-M MCUs in Rust
ChaOS - Simple RTOS for cortex-m processors
os.h - A simple context switcher for Cortex-M0 processors
EmbeddedProto - Embedded Proto is a C++ Protocol Buffers implementation specifically suitable for microcontrollers. It is small, reliable and easy to use.
HeliOS - A community delivered, open source embedded operating system project.