Buckets:
| pretty_name: "IBM-QML-Kernel Branch-Transfer Benchmarks (ibm-qml-kernel)" | |
| license: mit | |
| tags: | |
| - quantum-computing | |
| - ibm-quantum | |
| - qiskit | |
| - superconducting-qubits | |
| - reproducibility | |
| - benchmarks | |
| - wigners-friend | |
| task_categories: | |
| - other | |
| size_categories: | |
| - n<1K | |
| # IBM-QML-Kernel Branch-Transfer Benchmarks (ibm-qml-kernel) | |
| ## Dataset Summary | |
| This dataset is the **reproducibility artifact bundle** corresponding to the arXiv submission: | |
| **“Wigner's Friend as a Circuit: Inter-Branch Communication Witness Benchmarks on Superconducting Quantum Hardware.”** | |
| - GitHub release checkpoint: [v1.0-wigner-branch-benchmark](https://github.com/christopher-altman/ibm-qml-kernel/releases/tag/v1.0-wigner-branch-benchmark) | |
| - Paper page: https://huggingface.co/papers/2601.16004 | |
| - GitHub: https://github.com/christopher-altman/ibm-qml-kernel | |
| It snapshots the experimental and simulation outputs for a **five‑qubit “branch‑transfer / message‑transfer” circuit primitive** (message transfer in the *compiled circuit / measurement record* sense, not physical signaling), executed on **IBM Quantum hardware** and mirrored with **backend‑matched noisy simulations**. | |
| ## What’s inside (high level) | |
| The release is designed as a “stable, citeable checkpoint” and includes, at minimum: | |
| - **Hardware execution** on IBM Quantum `ibm_fez` (N = 20,000 shots). | |
| - **Coherence-sensitive witness evaluation** (X and Y bases) + a **visibility baseline**. | |
| - **Backend-matched noisy simulations** using calibration-synchronized noise models. | |
| - **Execution provenance**: IBM Quantum job IDs + backend calibration snapshots. | |
| - **Deterministic figure regeneration** from archived artifacts. | |
| - **Tamper-evident manifest**: SHA256 hashes for bundle files. | |
| (See the GitHub release notes for the canonical inventory.) | |
| ## Intended Use | |
| This dataset is for: | |
| - Reproducing figures/tables/values from the associated paper. | |
| - Auditing compilation + noise impacts on the reported witnesses. | |
| - Serving as a reference artifact for future “branch-transfer / inter-branch witness” benchmark runs on other devices/backends. | |
| Not intended for: training NLP/Vision models. It’s an experiment + provenance bundle. | |
| ## How to Use | |
| ### Option A — download the full artifact snapshot (recommended for exact reproduction) | |
| For non-tabular artifacts (plots, calibration dumps, intermediate files), the most faithful workflow is to download the full repository snapshot: | |
| ```python | |
| from huggingface_hub import snapshot_download | |
| local_dir = snapshot_download( | |
| repo_id="Cohaerence/wigner-friend-v2b", | |
| repo_type="dataset", | |
| ) | |
| print(local_dir) | |
| ``` | |
| ### Option B — `datasets.load_dataset(...)` (best if files are extracted + structured) | |
| Hugging Face Datasets works best when the dataset includes common formats like `csv`, `jsonl`, or `parquet`, optionally referenced via `data_files=`. | |
| ```python | |
| from datasets import load_dataset | |
| ds = load_dataset("Cohaerence/wigner-friend-v2b") | |
| print(ds) | |
| ``` | |
| Docs: https://huggingface.co/docs/datasets/loading | |
| ## Reproduction Quickstart (paper-aligned) | |
| These commands reflect the intended “paper-aligned” reproduction workflow described in the release notes: | |
| ```bash | |
| # Verify IBM Quantum connectivity | |
| python -c "from qiskit_ibm_runtime import QiskitRuntimeService as S; s=S(); bs=s.backends(simulator=False, operational=True); print('n_backends=', len(bs))" | |
| # Hardware coherence witness (X + Y bases) | |
| python -m experiments.branch_transfer.run_ibm --backend ibm_fez --mode coherence_witness --include-y-basis --shots 20000 --optimization-level 2 | |
| # Hardware visibility (rp_z mode) | |
| python -m experiments.branch_transfer.run_ibm --backend ibm_fez --mode rp_z --mu 1 --shots 20000 --optimization-level 2 | |
| # Backend-matched noisy simulations | |
| python -m experiments.branch_transfer.run_sim --mode coherence_witness --include-y-basis --mu 1 --shots 20000 --noise-from-backend ibm_fez | |
| python -m experiments.branch_transfer.run_sim --mode rp_z --mu 1 --shots 20000 --noise-from-backend ibm_fez | |
| # Generate analysis figures | |
| python -m experiments.branch_transfer.analyze --artifacts-dir artifacts/branch_transfer --figures-dir artifacts/branch_transfer/figures --plot-all | |
| ``` | |
| ## Citations | |
| - arXiv:2601.16004 — “Wigner's Friend as a Circuit: Inter-Branch Communication Witness Benchmarks on Superconducting Quantum Hardware.” | |
| https://arxiv.org/abs/2601.16004 | |
| - Code + artifact checkpoint: GitHub release tag `v1.0-wigner-branch-benchmark`. | |
| https://github.com/christopher-altman/ibm-qml-kernel/releases/tag/v1.0-wigner-branch-benchmark | |
| --- | |
| ## References | |
| 1. Violaris, M. (2026). Quantum observers can communicate across multiverse branches. *arXiv:2601.08102*. [arXiv:2601.08102](https://arxiv.org/abs/2601.08102) | |
| 2. Mukherjee, S. and Hance, J. Limits of absoluteness of observed events in timelike scenarios: A no-go theorem, *arXiv:2510.26562*. [arXiv:2510.26562](https://arxiv.org/abs/2510.26562) | |
| --- | |
| ## License | |
| MIT License. See [LICENSE](LICENSE) for details. | |
| --- | |
| ## Contact | |
| - **Website:** [christopheraltman.com](https://christopheraltman.com) | |
| - **Research portfolio:** https://lab.christopheraltman.com/ | |
| - **GitHub:** [github.com/christopher-altman](https://github.com/christopher-altman) | |
| - **Google Scholar:** [scholar.google.com/citations?user=tvwpCcgAAAAJ](https://scholar.google.com/citations?user=tvwpCcgAAAAJ) | |
| - **Email:** x@christopheraltman.com | |
| --- | |
| *Christopher Altman (2026)* | |
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