Qubit mapping and routing tai- lored to advanced quantum ISAs: Not as costly as you think

Zhaohui Yang, Kai Zhang, Xinyang Tian, Xiangyu Ren, Yingjian Liu, Yunfeng Li, Dawei Ding, Jianxin Chen, Yuan Xie · 2025

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Per-Phase Fidelity Attribution for Quantum Compilers using HBR Decomposition

cs.ET · 2026-05-08 · unverdicted · novelty 7.0

HBR decomposition quantifies per-phase fidelity loss in quantum compilers, revealing that routing causes up to 60% loss in search circuits while synthesis dominates Hamiltonian simulation, and correctly predicts SDK rankings on both simulation and real hardware.

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Per-Phase Fidelity Attribution for Quantum Compilers using HBR Decomposition cs.ET · 2026-05-08 · unverdicted · none · ref 47
HBR decomposition quantifies per-phase fidelity loss in quantum compilers, revealing that routing causes up to 60% loss in search circuits while synthesis dominates Hamiltonian simulation, and correctly predicts SDK rankings on both simulation and real hardware.

Qubit mapping and routing tai- lored to advanced quantum ISAs: Not as costly as you think

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