HAWRA is a pioneering open-science initiative that successfully merged Quantum Computing with Synthetic Biology. For the first time, a living plant (Ficus elastica) has been transformed into a biological quantum computer (PQPE) capable of executing complex algorithms at room temperature.
- Sustainability: Traditional quantum computers require near-absolute zero temperatures (-273°C). HAWRA works at ambient temperature using natural photosynthesis.
- Open Science: The entire architecture, from genetic code to quantum compiler, is open-source.
- Living Hardware: It introduces "Wetware" as a viable, carbon-sequestering alternative to silicon-based computing.
- Validated Quantum Logic: Successful execution of Grover's Search and Deutsch-Jozsa algorithms in a biological substrate.
- T2 Coherence Breakthrough: Genetic engineering of a "Silica Shield" to protect quantum states within the plant's cells.
- Arbol Language: Creation of the first programming language for living matter.
- Synthesis Ready: The project has moved from theoretical models to validated DNA synthesis protocols.
- Project URL: https://selectess.github.io/HAWRA/
- Source Code: GitHub Repository
- Scientific Archive: Zenodo (DOI: 10.5281/zenodo.17908061)
- Technical Compendium: HAWRA Mega-Report 2026
"On ne rêve plus, on compile." — HAWRA Core Team.
For media inquiries, technical interviews, or collaboration requests, please open an issue on the GitHub repository.