213 lines
6.9 KiB
Markdown
213 lines
6.9 KiB
Markdown
<!-- Title -->
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<p align="center">
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<img width=15% src="https://www.svgrepo.com/show/68860/microchip.svg">
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<h1 align="center">Embassy RP Skeleton</h1>
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</p>
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The **Embassy RP Skeleton** repository is a project template intended as a starting point for developing your own
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firmware for the [`rp2040`][1] based on the [`embassy`][2] asynchronous embedded development framework for [Rust][3].
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It includes all of the [`knurling-rs`][4] tooling ([`defmt`][5], [`defmt-rtt`][5], [`panic-probe`][5], [`flip-link`][6],
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[`probe-run`][7]) to enhance the embedded development process.
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The default [`cargo`][8] runner is configured as [`probe-run`][7], so you can build, flash and run your firmware _with_
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output from the device via a [`probe-rs`][9] compatible debug probe with the command:
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```shell
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$ cargo run
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```
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If you want to use a different runner with your debugger (e.g., [`cargo-embed`][10], [`probe-rs-debugger`][11], etc.) or
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if you _aren't_ using a debugger and want the runner to flash the firmware via USB (e.g., [`elf2uf2-rs`][12],
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[`picotool`][13], etc.) then see: [Alternative Runners][14]
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## Table of Contents
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1. [Requirements](#requirements)
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2. [Setup](#setup)
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1. [System Setup](#system-setup)
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2. [Probe Setup](#probe-setup)
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3. [Hardware Setup](#hardware-setup)
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3. [Usage](#usage)
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6. [Appendix](#appendix)
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## Requirements
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* Ubuntu
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* Raspberry Pi Pico
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* Debug Probe (*or* another Raspberry Pi Pico)
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* Rust Toolchain ([`cargo`][8], [`rustup`][15])
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## Setup
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### System Setup
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1. Install [Rust][3] and [`cargo`][8] using [`rustup`][15]
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```shell
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# Install `rustup` for Rust Toolchain
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$ curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh
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```
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2. Install Cortex-M Target Toolchain Support for [`Rust`][3]
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```shell
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# Install `thumbv6m-none-eabi` Target for `rp2040`
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$ rustup target add thumbv6m-none-eabi
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```
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3. Install [`probe-run`][7]
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```shell
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# Install Linux Dependencies
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$ sudo apt install -y libusb-1.0-0-dev libudev-dev
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# Install `probe-run`
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$ cargo install probe-run
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# (Optional) Install `udev` Rules and Reload
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$ sudo curl https://probe.rs/files/69-probe-rs.rules -o /etc/udev/rules.d/69-probe-rs.rules
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$ sudo udevadm control --reload
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$ sudo udevadm trigger
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# (Optional) Add User to `plugdev` Group
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$ sudo usermod -aG plugdev $USER
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```
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4. Install [`flip-link`][6]
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```shell
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# Install `flip-link`
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$ cargo install flip-link
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```
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### Probe Setup
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You can use a Raspberry Pi Pico as a CMSIS-DAP debug probe.
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1. Download CMSIS-DAP debugger firmware [`DapperMime`][16] for the Raspberry Pi Pico
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2. Boot the Raspberry Pi Pico in "Bootloader Mode" by holding the _BOOTSEL_ button while plugging it in
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3. Open the mounted Raspberry Pi Pico storage device
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4. Copy the `raspberry_pi_pico-DapperMime.uf2` onto the Raspberry Pi Pico
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5. Firmware will be flashed to the Raspberry Pi Pico and it will disconnect
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Any [`probe-rs`][9] compatible debug probe can be used with [`probe-run`][7]. For a short list of alternative
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compatible debug probes see: [Alternative Debug Probes][17].
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### Hardware Setup
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#### Connecting the Raspberry Pi Pico Debug Probe
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The diagram below shows the wiring loom between Raspberry Pi Pico A (left) and Raspberry Pi Pico B (right), configuring
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Raspberry Pi Pico A as a debug probe.
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<!-- Embed Image -->
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<p align="center">
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<img width=50% src="https://user-images.githubusercontent.com/62866982/191892108-daabc0d6-5ec1-4265-8722-226c512b995c.svg">
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</p>
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The connections shown in the diagram above are listed below.
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```
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Pico A GND -> Pico B GND
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Pico A GP2 -> Pico B SWCLK
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Pico A GP3 -> Pico B SWDIO
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Pico A GP4/UART1 TX -> Pico B GP1/UART0 RX
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Pico A GP5/UART1 RX -> Pico B GP0/UART0 TX
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Pico A VSYS -> Pico B VSYS
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```
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For more information on connecting the two Raspberry Pi Picos, the wiring loom between them and its connections, see
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the section _Appendix A > Wiring Loom_ in: [Getting Started with Raspberry Pi Pico][18]
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#### Raspberry Pi Pico Dev Board
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Alternatively, a custom printed Raspberry Pi Pico Dev Board can be used to enhance development, which includes:
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* Debug Probe Host (Raspberry Pi Pico)
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* Detachable Target (Raspberry Pi Pico)
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* Serial Interface
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* Reset Button
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* Breakout Pins
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* Selection of _VSys_ or _VBus_ Power Sources
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The custom printed Raspberry Pi Pico Dev board is shown below:
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<!-- Embed Image -->
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<p align="center">
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<img width=50% src="https://user-images.githubusercontent.com/62866982/191941119-a21dd273-d29b-49a5-8daf-5e4429268965.png">
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</p>
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For more information on printing your own custom Raspberry Pi Pico Dev Board, see:
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[Raspberry Pi Pico Dev Board][19]
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## Usage
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#### Running
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To run the firmware in debug mode:
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```shell
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$ cargo run
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```
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To run the firmware in release mode:
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```shell
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$ cargo run --release
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```
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#### Logging
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To change the default [`defmt`][5] log level, see `.cargo/config.toml`:
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```toml
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[env]
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DEFMT_LOG = "trace"
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```
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You can also set the log level inline:
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```shell
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$ DEFMT_LOG=debug cargo run
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$ DEFMT_LOG=error cargo run --release
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```
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## Appendix
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#### Documentation
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* [Raspberry Pi Pico][1]
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* [Rust][3]
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* [Cargo][8]
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* [Rustup][15]
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* [Embassy][2]
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* [Knurling-RS `defmt`][5]
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* [Knurling-RS `flip-link`][6]
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* [Knurling-RS `probe-run`][7]
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* [Probe-RS `cargo-embed`][10]
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* [Probe-RS `probe-rs-debugger`][11]
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* [Raspberry Pi Pico `elf2uf2`][12]
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* [Raspberry Pi Pico `picotool`][13]
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* [CMSIS-DAP Firmware `DapperMime`][16]
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#### Resources
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* [Rust Embedded Book][20]
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* [Awesome Embedded Rust][21]
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* [Getting Started with Raspberry Pi Pico][22]
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* [Ferrous Systems Embedded Training][23]
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* [Ferrous Systems Embedded Teaching Material][24]
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* [RP-RS App Template][25]
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* [RP-RS Alternative Debug Probes][17]
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* [RP-RS Alternative Runners][14]
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* [Knurling-RS App Template][4]
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* [Probe-RS Probe Setup][9]
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* [Raspberry Pi Pico Dev Board][19]
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<!-- Reference -->
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[1]: https://www.raspberrypi.com/documentation/microcontrollers/rp2040.html
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[2]: https://embassy.dev/dev/index.html
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[3]: https://www.rust-lang.org/
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[4]: https://github.com/knurling-rs/app-template
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[5]: https://github.com/knurling-rs/defmt
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[6]: https://github.com/knurling-rs/flip-link
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[7]: https://github.com/knurling-rs/probe-run
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[8]: https://doc.rust-lang.org/cargo/
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[9]: https://probe.rs/docs/getting-started/probe-setup/
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[10]: https://github.com/probe-rs/cargo-embed
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[11]: https://github.com/probe-rs/vscode
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[12]: https://github.com/JoNil/elf2uf2-rs
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[13]: https://github.com/raspberrypi/picotool
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[14]: https://github.com/rp-rs/rp2040-project-template#alternative-runners
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[15]: https://rustup.rs/
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[16]: https://github.com/majbthrd/DapperMime
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[17]: https://github.com/rp-rs/rp2040-project-template/blob/main/debug_probes.md
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[18]: https://datasheets.raspberrypi.com/pico/getting-started-with-pico.pdf#picoprobe-wiring-section
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[19]: https://timsavage.github.io/rpi-pico-devboard/
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[20]: https://docs.rust-embedded.org/book/
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[21]: https://github.com/rust-embedded/awesome-embedded-rust
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[22]: https://datasheets.raspberrypi.com/pico/getting-started-with-pico.pdf
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[23]: https://embedded-trainings.ferrous-systems.com/
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[24]: https://github.com/ferrous-systems/teaching-material
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[25]: https://github.com/rp-rs/rp2040-project-template
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