Automatic Post-selection by Ancillae Thermalisation
Abstract
Tasks such as classification of data and determining the groundstate of a Hamiltonian cannot be carried out through purely unitary quantum evolution. Instead, the inherent non-unitarity of the measurement process must be harnessed. Post-selection and its extensions provide a way to do this. However they make inefficient use of time resources -- a typical computation might require measurements over qubits to reach a desired accuracy. We propose a method inspired by the eigenstate thermalisation hypothesis, that harnesses the induced non-linearity of measurement on a subsystem. Post-selection on ancillae qubits is replaced with tracing out (where p is the probability of a successful measurement) to attain the same accuracy as the post-selection circuit. We demonstrate this scheme on the quantum perceptron and phase estimation algorithm. This method is particularly advantageous on current quantum computers involving superconducting circuits.
Cite
@article{arxiv.2010.04173,
title = {Automatic Post-selection by Ancillae Thermalisation},
author = {Lewis Wright and Fergus Barratt and James Dborin and George H. Booth and Andrew G. Green},
journal= {arXiv preprint arXiv:2010.04173},
year = {2023}
}