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This is a list of open-source hardware projects, including computer systems and components, cameras, radio, telephony, science education, machines and tools, robotics, renewable energy, home automation, medical and biotech, automotive, prototyping, test equipment, and musical instruments.
GitHub (/ ˈ ɡ ɪ t h ʌ b /) is a developer platform that allows developers to create, store, manage, and share their code.It uses Git software, which provides distributed version control of access control, bug tracking, software feature requests, task management, continuous integration, and wikis for every project. [6]
After a few months of development by a small group, many developers at Twitter began to contribute to the project as a part of Hack Week, a hackathon-style week for the Twitter development team. It was renamed from Twitter Blueprint to Twitter Bootstrap and released as an open-source project on August 19, 2011. [ 8 ]
The TIC-80 is capable of storing and loading back serialized dumps of memory regions using so called cartridges, another 80's metaphor.Unlike the original ones, which were actual physical objects, the TIC-80 cartridges are just files in .tic format. [11]
Minimig (a portmanteau of Mini Amiga) is an open source re-implementation of an Amiga 500 using a field-programmable gate array (FPGA). Minimig started around January 2005 as a proof of concept by Dutch electrical engineer Dennis van Weeren.
The ungoogled-chromium project was founded by a hobbyist with the user name Eloston in 2015. It was first developed for Linux, then for other operating systems. [12] [13] Eloston used to release builds, but eventually he stopped doing so and allowed others to provide builds with his patches.
NodeMCU started on 13 Oct 2014, when Hong committed the first file of nodemcu-firmware to GitHub. [13] Two months later, the project expanded to include an open-hardware platform when developer Huang R committed the gerber file of an ESP8266 board, named devkit v0.9. [ 14 ]
A secondary goal of the project is to develop methods and tools for "systems programming in Java". Compiler extensions, configured in VM source code using Java annotations, allow use, with no performance penalty, of low-level operations otherwise disallowed in Java. These extensions provided the foundation for the Graal compiler.