FDS-Q2: Finite Distinction Maintenance in Fault-Tolerant Quantum Computation — Logical Distinction Ledgers, Error-Correction Infrastructure, and Architecture-Specific Resource Bounds

Yining Wu · 2026-05-19

Treats fault-tolerant quantum computation as finite distinction maintenance. Logical qubits are protected quantum quotients whose error correction converts distinction loss into maintenance work. The central object is a vector ledger: syndrome, decoding, reset, latency, power, cooling, and effective-error components must each fit their corresponding capacity window and physical location. Includes componentwise ledger audit, scaling-wall diagnostics, ledger-relocation latency tax, autonomous QEC hidden ledger analysis, and a minimum Q2 reporting template.

@misc{wu2026fdsq2,
  author = {Yining Wu},
  title = {FDS-Q2: Finite Distinction Maintenance in Fault-Tolerant Quantum Computation — Logical Distinction Ledgers, Error-Correction Infrastructure, and Architecture-Specific Resource Bounds},
  year = {2026},
  doi = {10.5281/zenodo.20302569},
}