Awesome Quantum Computing Experiments

Quantum Error Correction (QEC)

The QEC database tracks implementations of quantum error correction codes across different platforms.

Key Parameters:

n: Total number of physical data qubits
k: Number of logical qubits
d: Code distance

Magic State Distillation (MSD)

Magic state distillation is crucial for fault-tolerant quantum computation, enabling high-fidelity T gates for instance.

Tracked Metrics:

Implementation Platform
Distillation Protocol
Year

Entangled State Error

This database tracks progress in creating and maintaining high-fidelity entangled states.

Key Metrics:

Error Rate
Platform
Year

Physical Qubit Count

Tracking the evolution of physical qubit counts across different quantum computing platforms.

Tracked Information:

Platform Type
Number of Qubits
Year

Physical Qubit Coherence Times

This database tracks the evolution of coherence times (T1 and T2) across different physical qubit implementations.

Key Metrics:

T1 (Energy relaxation time)
T2 (Dephasing time)
Platform
Year

Contributing

Have a new experiment to add? Check our Contributing Guide for instructions on how to submit new entries.

Each experiment entry should include:

Article Title
Link (preferably arXiv or DOI)
Publication Year
Implementation Platform
Relevant Measurements
Additional Notes

Citation

If you use this dataset in your research, please cite:

@unpublished{leregentAwesomeQuantumComputing2025,
  title = {Awesome Quantum Computing Experiments: Benchmarking Experimental Progress Towards Fault-Tolerant Quantum Computation},
  author = {Le Régent, François-Marie},
  date = {2025-07-04},
  doi = {10.48550/arXiv.2507.03678},
  url = {http://arxiv.org/abs/2507.03678},
}

Copyright © 2025 François-Marie Le Régent. Distributed under an MIT license.

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