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arxiv: 2503.04905 · v1 · pith:I3HFGOXS · submitted 2025-03-06 · quant-ph

Systematic benchmarking of quantum computers: status and recommendations

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keywords benchmarksquantumbenchmarkingcomputersdocumentperformancerecommendationsapplication-level
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Architectures for quantum computing can only be scaled up when they are accompanied by suitable benchmarking techniques. The document provides a comprehensive overview of the state and recommendations for systematic benchmarking of quantum computers. Benchmarking is crucial for assessing the performance of quantum computers, including the hardware, software, as well as algorithms and applications. The document highlights key aspects such as component-level, system-level, software-level, HPC-level, and application-level benchmarks. Component-level benchmarks focus on the performance of individual qubits and gates, while system-level benchmarks evaluate the entire quantum processor. Software-level benchmarks consider the compiler's efficiency and error mitigation techniques. HPC-level and cloud benchmarks address integration with classical systems and cloud platforms, respectively. Application-level benchmarks measure performance in real-world use cases. The document also discusses the importance of standardization to ensure reproducibility and comparability of benchmarks, and highlights ongoing efforts in the quantum computing community towards establishing these benchmarks. Recommendations for future steps emphasize the need for developing standardized evaluation routines and integrating benchmarks with broader quantum technology activities.

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Cited by 3 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. A Toolbox to Understand the Physics of Quantum Data Management

    quant-ph 2026-05 unverdicted novelty 5.0

    Introduces a toolbox for studying energy gaps, eigenstate structure, and optimization dynamics in quantum annealing formulations of database problems.

  2. Design and Benchmarking of a Quantum Photonic Chip

    quant-ph 2026-07 conditional novelty 4.0

    A room-temperature CMOS-compatible photonic chip encoding three qubits in single-photon degrees of freedom demonstrates competitive accuracy on ML tasks and superior noise tolerance compared to a superconducting processor.

  3. Evaluating System-Level Fidelity with Peaked Random Circuits

    quant-ph 2026-05 unverdicted novelty 4.0

    Peaked random circuits can serve as a high-precision system-level fidelity benchmark for NISQ devices, comparable to quantum volume but with greater sensitivity to interference effects.