English

Readout Rebalancing for Near Term Quantum Computers

Quantum Physics 2021-02-10 v1

Abstract

Readout errors are a significant source of noise for near term intermediate scale quantum computers. Mismeasuring a qubit as a 1 when it should be 0 occurs much less often than mismeasuring a qubit as a 0 when it should have been 1. We make the simple observation that one can improve the readout fidelity of quantum computers by applying targeted X gates prior to performing a measurement. These X gates are placed so that the expected number of qubits in the 1 state is minimized. Classical post processing can undo the effect of the X gates so that the expectation value of any observable is unchanged. We show that the statistical uncertainty following readout error corrections is smaller when using readout rebalancing. The statistical advantage is circuit- and computer-dependent, and is demonstrated for the WW state, a Grover search, and for a Gaussian state. The benefit in statistical precision is most pronounced (and nearly a factor of two in some cases) when states with many qubits in the excited state have high probability.

Keywords

Cite

@article{arxiv.2010.07496,
  title  = {Readout Rebalancing for Near Term Quantum Computers},
  author = {Rebecca Hicks and Christian W. Bauer and Benjamin Nachman},
  journal= {arXiv preprint arXiv:2010.07496},
  year   = {2021}
}

Comments

8 pages, 4 figures, 1 table

R2 v1 2026-06-23T19:21:50.801Z