bare-metal-programming-guide
stm32-overclocking-challenge
bare-metal-programming-guide | stm32-overclocking-challenge | |
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13 | 1 | |
2,579 | 9 | |
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6.7 | 7.6 | |
about 2 months ago | 5 months ago | |
C | C | |
MIT License | MIT License |
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bare-metal-programming-guide
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STM32MP2: ST’s first Linux capable 64-bit MPU with NPU, GPU and TSN
What cruftware? STM32 will run your code right away after reset clears[0].
0. https://github.com/cpq/bare-metal-programming-guide
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Many Hands Make Light Work - Let’s Learn Together
If you want to build a deep understanding, there's nothing better than going bare-metal, in my opinion. Here's an amazing tutorial for bare-metal programming STM32s using just a compiler and a datasheet.
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Learning STM32 bare metal
I have just the article for you: https://github.com/cpq/bare-metal-programming-guide
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HAL's or Baremetal ARM
Not really an answer to the question, but someone linked this bare-metal programming guide repo a couple of days ago. Following the guide and trying to port it to your board might be really good exercise for someone at the beginning of their journey. At least I find it thorough enough and quite pedagogic.
- Beginner Tips
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Do I need to download an IDE for embedded development?
If you have a lot of programming knowledge and are willing to RTFM it's not a bad way to dive in, provided you've got a guide like this one to help you get started. It's a super easy source of projects because if you have a discovery board of some sort, you've already got all these peripherals available. It would be trivial (and thus boring) to use them with your IDE's automagic HAL stuff and configuration, but using them from a manually-bootstrapped project (starting from square 1 with linker scripts and blank text file) it becomes a pretty interesting project all on its own, without even finding something practical to do with the device. Many hours of manual reading guaranteed.
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Stumbling through STM8/32 development
Later, I walked through this post on baremetal STM32 and lots of details made a lot more sense. I'm still learning a lot, making mistakes and figuring things out as I go. That's part of the appeal for me, but then my livelihood isn't depending on this — I'm doing it just for fun.
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What's the process from Arduino to actual Embedded Systems?
Can I suggest a https://github.com/cpq/bare-metal-programming-guide ? Spend a couple of hours, follow it, maybe that is the fundamental basics you're searching for?
- Bare metal programming guide
- A bare metal programming guide (STM32)
stm32-overclocking-challenge
What are some alternatives?
NAU881x-stm32-C - NAU881x library for STM32 written in C
stm32_tiny_monitor - A tiny external monitor for PC using STM32 and ST7789. Connects to PC over USB and displays the captured screen on ST7789 (240x240) display.
STM32F746-CMSIS-Minimal-Blocking-Uart-Driver - Minimalist blocking UART driver for STM32F746-Disco UART1 ST-Link COM Port
stm32f103-example - A tiny example project for the STM32F103
raspberrypi - Raspberry Pi ARM based bare metal examples
stm32-rf-scanner - STM32 and nRF24L01+ based 2.4GHz RF scanner
modern-embedded-programming-course - Companion repository to the "Modern Embedded Systems Programming" video course.
STM32F103_MSD_BOOTLOADER - STM32F103 Mass Storage Device Bootloader
STM32-CMAKE-TEMPLATE - STM32 Template Project with Using CMake
stm32-uart - USART protocol implementation in STM32 using various methods and frameworks
cmsis_core - CMSIS Core module, fully aligned with ARM versions.
greenpill - STM32 Green Pill (STM32F103 Devvelopment Board)