Affiliation:
1. Perimeter Institute
2. University of Waterloo
3. Institute of Photonic Sciences
4. Flatiron Institute
Abstract
As we enter a new era of quantum technology, it is increasingly
important to develop methods to aid in the accurate preparation of
quantum states for a variety of materials, matter, and devices.
Computational techniques can be used to reconstruct a state from data,
however the growing number of qubits demands ongoing algorithmic
advances in order to keep pace with experiments. In this paper, we
present an open-source software package called QuCumber that uses
machine learning to reconstruct a quantum state consistent with a set of
projective measurements. QuCumber uses a restricted Boltzmann machine to
efficiently represent the quantum wavefunction for a large number of
qubits. New measurements can be generated from the machine to obtain
physical observables not easily accessible from the original data.
Funder
Canada Excellence Research Chairs, Government of Canada
Horizon 2020
Ministerio de Economía y Competitividad
Ministry of Research and Innovation
Natural Sciences and Engineering Research Council
Nvidia
Subject
General Physics and Astronomy
Cited by
22 articles.
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