Fujitsu & University of Osaka Deploy Early-FTQC Framework for Chemical Energy Calculations

STAR architecture ver. 3 combined with molecular model optimization cuts qubit requirements to 1/15–1/80 of conventional FTQC, enabling catalyst energy calculations in ~35 days at 0.10% physical error rate — down from millennia-scale runtimes.

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Partially Fault-Tolerant Quantum Computation for Megaquop-Scale Circuits

QRE of the STAR partial FTQC architecture identifies a Goldilocks zone of ~10⁵–10⁶ small-angle rotations. Code-growth shrinks analog rotation factories. 2D Fermi-Hubbard simulation feasible with ~100K physical qubits in minutes.

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Knill Error Correction: Simplified Circuit-Level Decoding for Quantum LDPC Codes

Knill EC enables fault-tolerant quantum error correction using a code-capacity decoder for real-time decoding under circuit-level noise, reducing classical control overhead for surface and lifted product codes.

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