This record contains the preprint, reproducibility package, and specialist code bundle for USCEG: A Reproducible Event-Anchored Benchmark and Closure-Audit Framework for Public-Data Gravitational-Wave Analysis. The work presents a reproducible, event-anchored benchmark framework centered on public-data gravitational-wave analysis, together with a structured closure-audit layer for evaluating the proof-status of a broader unified-program workflow. The archive includes the main paper PDF, source and build materials, figures, machine-readable result files, claim-to-artifact mapping, and a dedicated code bundle for specialists who wish to inspect, run, or extend the algorithmic components directly.The benchmark is demonstrated on GW150914 with auditable baseline outputs, protocol logic, and reproducibility-oriented artifacts. The archive also includes a second-event portability attempt on GW151226, reported transparently as an actual negative verdict under the unchanged event-gated grammar. This is included to document the present empirical scope honestly and to distinguish what is currently supported from what remains open. In this sense, the record is intended not as a final claim of universal closure or a final theory of everything, but as a rigorous, reusable benchmark-and-audit framework with explicit support boundaries.The package is designed for researchers working in public-data gravitational-wave analysis, reproducible computational physics, benchmark methodology, and structured proof-status evaluation in foundational research programs. It provides a code-and-artifact-centered basis for re-running the benchmark, checking the documented outputs, examining the closure logic, and extending the framework in future work.If you want a slightly shorter Zenodo description, use this instead:This record contains the preprint, reproducibility bundle, and specialist code package for USCEG: A Reproducible Event-Anchored Benchmark and Closure-Audit Framework for Public-Data Gravitational-Wave Analysis. The archive includes the main paper, source and build materials, figures, machine-readable outputs, claim-to-artifact documentation, and a code bundle for direct technical reuse. The framework is demonstrated on GW150914 and includes a transparent second-event portability attempt on GW151226. The work is released as a reproducible benchmark-and-audit framework with explicit limits of support, rather than as a final universal-closure or TOE claim.
Ammar Nasir Hussein Al-Mantafji (Wed,) studied this question.