ORCHID maps the brain's binding problem to blockchain consensus via Kuramoto oscillators and quantum secret sharing, claiming 100% consensus rates up to 40% Byzantine faults and better message complexity than PBFT in small-network simulations.
A quantum engineer’s guide to superconducting qubits
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ORCHID: Orchestrated Reduction Consensus for Hash-based Integrity in Distributed Ledgers
ORCHID maps the brain's binding problem to blockchain consensus via Kuramoto oscillators and quantum secret sharing, claiming 100% consensus rates up to 40% Byzantine faults and better message complexity than PBFT in small-network simulations.