MQT Bench
MQT Bench is a comprehensive quantum computing benchmark suite containing over 70 algorithm implementations across various application domains. Developed by the Technical University of Munich, it provides quantum circuits at different abstraction levels (2 to 130 qubits) and in multiple formats. MQT Bench is designed for evaluating quantum compilers, simulators, and hardware platforms.[1]
- Algorithm: 70+ quantum algorithms across multiple domains
- Category: other
- Qubits: 130
- Framework: Qiskit
- Reproducible: Yes
- Published:
- benchmark-suite
- scalable
- compiler
- standardization
What algorithm does MQT Bench use?
MQT Bench uses the 70+ quantum algorithms across multiple domains algorithm, categorized under other.
Frequently Asked Questions
What is the MQT Bench benchmark?
MQT Bench is a comprehensive quantum computing benchmark suite containing over 70 algorithm implementations across various application domains. Developed by the Technical University of Munich, it provides quantum circuits at different abstraction levels (2 to 130 qubits) and in multiple formats. MQT Bench is designed for evaluating quantum compilers, simulators, and hardware platforms.
Is MQT Bench reproducible?
Yes, this benchmark is reproducible.
Sources
- "MQT Bench: Benchmarking Software and Design Automation Tools for Quantum Computing", accessed 2026-03-19 — quantum-journal.org
- "MQT Bench GitHub Repository", accessed 2026-03-20 — github.com