ORCHID: Orchestrated Reduction Consensus for Hash-based Integrity in Distributed Ledgers
摘要
We present \textbf{ORCHID} (\textit{Orchestrated Reduction Consensus for Hash-based Integrity in Distributed Ledgers}), a novel bio-inspired consensus protocol that maps the neuroscientific \emph{binding problem} -- how the brain integrates distributed neural oscillations into a unified conscious percept -- onto the distributed systems \emph{consensus problem}, how blockchain nodes agree on a single ledger state under Byzantine faults. Grounded in the Penrose--Hameroff Orchestrated Objective Reduction (Orch~OR) hypothesis and the Kuramoto synchronisation model, ORCHID equips each node with a quantum-noisy phase oscillator; consensus is triggered when the network's order parameter crosses a \emph{binding threshold} , mirroring the gamma-band binding event in conscious perception. ORCHID is further strengthened by a coherence-weighted Quantum Secret Sharing (QSS) layer, extending the survey framework of Weinberg to a concrete consensus application. Simulation results on Watts--Strogatz small-world networks (--) demonstrate: (i)~the Kuramoto order parameter reaches under coupling , well above the theoretical critical coupling ; (ii)~a sharp QSS fidelity phase transition at coherence , confirming Theorem~2; (iii)100\% consensus rate at all tested Byzantine fractions (0\%--40\%), with median convergence under 4~s for ; and (iv)~ORCHID achieves message complexity, outperforming PBFT's at . These results establish ORCHID as a scalable, biologically plausible, and quantum-augmented consensus mechanism for post-quantum distributed ledgers.
引用
@article{arxiv.2605.12211,
title = {ORCHID: Orchestrated Reduction Consensus for Hash-based Integrity in Distributed Ledgers},
author = {Abraham Itzhak Weinberg},
journal= {arXiv preprint arXiv:2605.12211},
year = {2026}
}