Open Ephys offers open-source software and hardware for electrophysiology research. Scientists can use it to design flexible, cost-effective experiments, record neural activity, and share tools and data to enhance reproducibility and collaboration.
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Open Source Code and Hardware Sharing
Open source code and hardware sharing refers to making the software, scripts, algorithms, and even physical research tools freely available for others to use, modify, and distribute.
GitHub
GitHub is a platform for hosting and sharing code, collaborating on projects, and building software. Researchers can use it to version, share, and collaboratively develop analysis scripts, pipelines, or computational tools — enabling transparency, reproducibility, and easier collaboration across teams.GitLab
GitLab is a platform for hosting code, managing projects, and collaborating with integrated tools for development and security. Researchers can use it to streamline workflows, ensure reproducibility, and collaborate efficiently on software and analysis pipelines.Binder
MyBinder is a platform for creating, sharing, and running reproducible code environments. Researchers can use it to share interactive analyses and notebooks, allowing others to reproduce and explore their work without complex setup.OpenBCI
OpenBCI provides open-source hardware for brain-computer interfaces and biosensing. Researchers can use it to build customizable neuroscience experiments, collect high-quality physiological data, and share designs to promote reproducibility and innovation.Open Ephys
Center for Functional and Metabolic Mapping (CFMM)
This CFMM provides open‑source software and hardware tools for functional and metabolic brain mapping. Scientists can use it to design and run brain imaging or metabolic studies more affordably and transparently — and share their protocols so others can replicate or build on their work.3D Neuro
This resource offers open‑source hardware for in vivo electrophysiology — including microdrive systems, head‑fixation devices for rodents, and related tools. Researchers can adopt these designs to build affordable, customizable setups for animal studies, facilitating reproducibility and shared development of electrophysiological methods.Open-Labware
OpenLabware is a community‑based repository of open‑source plans and protocols for 3D‑printing lab equipment. Scientists can use it to build affordable, customizable lab tools, reducing costs and enabling greater access to specialized equipment — while encouraging sharing and reproducibility across labs.Open Source Initiative
Open Source Initiative (OSI) is a global nonprofit that promotes and protects open‑source software by certifying licenses and fostering a community of transparency, collaboration, and sharing. Scientists can rely on OSI principles to guide the use and distribution of their code — ensuring legal clarity, encouraging reuse, and supporting open, collaborative science.Choose A License
A resource that helps you select the right open‑source license for your code. Scientists can use it to choose a license that clarifies how others can reuse, modify, or distribute their work — making their research code legally and ethically shareable under open‑science norms.Where Should I Publish?
That resource offers a curated list of journals where researchers can publish articles about their software. Scientists can use it to find suitable publication venues for sharing and getting academic recognition for their computational tools and software — helping integrate code development into traditional scholarly outputs.