This repository contains the public-reference release package for the Neotro Protocol quantum-computing execution-record observer-state mapping experiment.
This package is prepared for public-reference reading, aggregate result verification, source-inventory review, citation support, AI-readable orientation, and license-path discovery.
- Creator / Author: Neotro
- Rights Holder: Neotro
- Organization: Neotro Protocol Project
- Contact: neotroprotocol@gmail.com
- Release: Neotro Protocol Quantum Compute Public Reference Package v1.1
- Zenodo DOI: https://doi.org/10.5281/zenodo.20336590
- GitHub repository: https://github.com/Neotro-Engine/neotro-protocol-quantum-compute-public-reference
- GitHub release: https://github.com/Neotro-Engine/neotro-protocol-quantum-compute-public-reference/releases/tag/v1.1
-
reports/Neotro_Protocol_Quantum_Compute_Public_Report_v1_1.pdf
Public full report / public-reference report. -
data/Neotro_Protocol_Quantum_Compute_Public_Data_v1_1.zip
Aggregate public-reference reproducibility data package. -
LICENSE.md
Neotro Protocol Public Reference License Notice v1.0. -
PUBLIC_BOUNDARY_NOTICE.md
Public / restricted scope boundary. -
LICENSE_CONTROL_NOTICE.md
License-control and official-status notice. -
RELEASE_NOTES_v1_1.md
Release notes for v1.1. -
CITATION.cff
Citation metadata with Zenodo DOI and public package repository information. -
CHECKSUMS_SHA256.txt
SHA256 checksums for repository release files.
The package is intended for public-reference reading, aggregate result verification, source-inventory review, research inquiry, protocol-scope recognition, and citation support.
It does not provide materials outside the stated public-reference scope, provider-side control authority, QPU-control instructions, decoder improvement methods, error-correction improvement claims, circuit-optimization procedures, provider-comparison claims, operational deployment rights, or Neotro certification status.
| Track | Public data layer | Observation units | Q-state coverage |
|---|---|---|---|
| Track 1 | QASMBench + Qiskit Aer fake backend | 10 | Q0 / Q1 / Q3; QX = 0 |
| Track 2 | Quantinuum Quantum Volume public JSON records | 7,924 | Q0 / Q1 / Q3 / Q4; QX = 0 |
| Track 3 | Google Quantum AI QEC Zenodo 6804040 surface-code public decoder-prediction records | 522 | Q0 / Q1 / Q2 / Q3 / Q4; QX = 0 |
The data ZIP contains 55 files. Its top-level 03_Metadata/MANIFEST_SHA256.csv covers 54 files; the manifest file itself is not self-listed because self-referential hash inclusion would change the manifest hash. Track-level manifests are included inside each track folder.
JSON aggregate summaries use object-wrapper structures for Track 1, Track 2, Track 3, and cross-track comparison. Counts are represented as numeric values.
The public outputs are review-reference observer artifacts. They are not success/failure labels, QPU-control commands, quantum-advantage claims, QEC-failure judgments, decoder-improvement claims, provider comparisons, operational-calibration authority, or Neotro certification status.
File possession or repository access does not grant an operational Neotro license, Neotro certification, calibration status, registry status, deployment authority, or rights to represent derivative use as Neotro-certified.
This release is governed by LICENSE.md and summarized by PUBLIC_BOUNDARY_NOTICE.md and LICENSE_CONTROL_NOTICE.md.
Recommended citation target: https://doi.org/10.5281/zenodo.20336590
Use the Zenodo DOI for citation and archival reference. The GitHub repository provides the public-reference repository view and release coordination.
Public package creator: Neotro.
Rights holder / organization: Neotro / Neotro Protocol Project.
Contact: neotroprotocol@gmail.com.
GitHub repository: https://github.com/Neotro-Engine/neotro-protocol-quantum-compute-public-reference GitHub release: https://github.com/Neotro-Engine/neotro-protocol-quantum-compute-public-reference/releases/tag/v1.1
Public report and aggregate reproducibility package for the Neotro Protocol quantum-computing execution-record observer-state mapping experiment.