The HAWRA Project (Hardware-Agnostic Wetware-Reliant Architecture) has achieved the world's first end-to-end numerical and protocol validation for a Phyto-synthetic Quantum Processing Entity (PQPE). By repurposing the reaction centers of Ficus elastica, we have demonstrated that biological systems can act as quantum registers, operating at room temperature without the need for cryogenic cooling.
- The Bio-Quantum Core: Utilizing the P700 reaction center in Photosystem I as a native bio-qubit.
- The Silica Shield Breakthrough: A genetic engineering approach (Lsi1 transporter) that creates a biomineralized protective cage, extending quantum coherence (T2) by several orders of magnitude at 300K.
- The Arbol-BSIM Stack: A full-stack software architecture that compiles high-level biological quantum logic into executable molecular instructions.
- Algorithm Fidelity: >94.2% average fidelity for Grover's Search and Deutsch-Jozsa algorithms across multiphysics simulations.
- DNA Synthesis Readiness: A complete 18.1 kb DNA cassette has been designed, validated, and fragmented into 7 blocks for Gibson Assembly.
- Eco-Efficiency: 0.0W external cooling power required. The system is powered entirely by solar energy and atmospheric CO2.
- Q1 2026: DNA synthesis and transformation of initial Ficus elastica clones.
- Q2 2026: First in-vivo quantum state preparation ("First Bloom" experiment).
- Q3 2026: Integration with distributed open-source bio-computing networks.
HAWRA represents a paradigm shift from "Computing on Silicon" to "Computing with Life." It offers a sustainable, scalable, and decentralized future for quantum information science.
Full Technical Details: HAWRA Mega-Report 2026 Scientific Archive: Zenodo Repository