Hardware-Agnostic Wetware-Reliant Architecture (HAWRA)
The first living quantum operating system, orchestrated by the photosynthetic coherence of Ficus elastica at room temperature. A metabiotic architecture unifying synthetic genomics and quantum computing.
Executive Summary
"We have designed, simulated, and open-sourced the first complete operating system running natively within plant DNA. Unlike traditional quantum computing requiring near-absolute zero temperatures, HAWRA leverages the natural quantum coherence of Photosystem I (P700) stabilized by a biomineralized 'Silica Shield'."
Major Scientific Contributions
P700 Bio-Qubit
Harnessing the Photosystem I reaction center as a native quantum register. Utilizing ballistic exciton transport for room-temperature computation.
Silica Shield (Lsi1)
Engineering biomineralization via the Lsi1 transporter to create a nanostructured silica cage, extending T2 coherence time by +66%.
BioOS & Arbol DSL
Development of the first biological operating system and a programming language (Arbol) with full end-to-end compilation into multiphysics instructions.
PQPE Formalism
Unified modeling coupling the Lindblad equation (quantum) and Hill equations (biological) to simulate a Phyto-synthetic Quantum Processing Entity.
2026 Roadmap
Synthesis Ready
Synthesis of the HAWRA v18.1 cassette (18.1kb) and assembly into Agrobacterium expression vectors.
In Vitro Validation
Initial ultrafast spectroscopy measurements on regenerated tissues to validate coherence stabilization by the silica cage.
Root Scaling
Development of the PQPE root system to reach a theoretical capacity of 10⁹ qubits per plant via epigenetic redundancy.
Metabiotic Network
Photonic interconnection between PQPE entities for the creation of the first distributed living computing cluster.