A workshop at CodeBEAM America 2024 showcasing custom hardware and Erlang-based firmware development.
- Introduction
- Hardware
- Firmware Overview
- Getting Started
- References
- Contributing
- License
- Acknowledgements
This project is an exploration into custom hardware design and manufacturing, and modern firmware development using AtomVM and the Erlang ecosystem. It is meant to serve as a workshop for the upcoming CodeBEAM America 2024.
Central to the design is the ESP32C3 microcontroller, chosen for it's RISC-V and WiFi capabilities, as well as it's versatility and full compatibility with AtomVM.
There is also a Neopixel LED array for it's programmable RGB capabilities, allowing for a wide range of visual outputs. An AHT20 sensor for cheap, low-powered and high-precision temperature readings. An SSD1306 OLED display as an effective solution for real-time data display, offering a 128x64 pixel resolution.
And the last stellar feature of this project is the use of AtomVM, a new implementation of the BEAM targetted at microcontrollers and embedded systems. This choice is driven by the desire to leverage all of the Erlang capabilities and robust features when it comes to concurrency and fault-tolerant designs in a resource-constrained environment such as the ESP32.
The overall list of components is the following:
- SSD1306 OLED display
- 4 buttons
- WS2812 Neopixel LED array
- AHT20 sensor
- 1 I2C Qwiic connector
And the default IO pinouts are mapped as:
- IO0: Vbattery sense
- IO1: Charging flag
- IO2: I2C SDA
- IO3: I2C SCL
- IO4: WS2812 LED
- IO5: Button 1
- IO9: Button 2
- IO7: Button 3
- IO8: Button 4
- IO10: OLED Reset
As mentioned before, we are going to implement the application using Erlang and leveraging the AtomVM BEAM implementation.
The application resembles a regular OTP application structure with some caveats to take into consideration.
- ESP IDF v5.x for compiling AtomVM for the target device
- rebar3 is used for compiling the application, packing the .beam files and flashing the device
- Erlang/OTP equal or higher than 25
Before installing the application we need to flash AtomVM to the C3 card in order to have a starting image that can run the BEAM files.
You can follow the instructions at the AtomVM getting started guide.
If you are compiling AtomVM from scratch, you need to compile a couple of extra components that are not included by default:
To fetch the dependencies and to compile the project, the standard
rebar3 build tool is used:
rebar3 compileThe device port will vary depending on the chipset you use, but
normally will be bound to /dev/ttyUSB0 or /dev/ttyACM0.
rebar3 atomvm esp32_flash -p $DEVICE_PORTDocumentation is provided via ex_doc, and can be generated with
rebar3:
rebar3 ex_docWe welcome any contributions to the project, via hardware design enhancements or new software features. Whether you are submitting a fix or a new feature, your input is valuable. Here is a few guidelines for making it easier to contribute:
- Report issues
- Submit patches
- Review hardware and software
- Update documentation
- Stay engaged
Copyright © 2024, Erlang Solutions Ltd.
Apache License, Version 2.0
- Omer Kilic for making this awesome board
- Ricardo Lanziano for writing the firmware application
- AtomVM team for their hard work