Improved machine learning algorithm for predicting ground state properties
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Finding the ground state of a quantum many-body system is a fundamental problem in quantum physics. In this work, we give a classical machine learning (ML) algorithm for predicting ground state properties with an inductive bias encoding geometric locality. The proposed ML model can efficiently predict ground state properties of an n-qubit gapped local Hamiltonian after learning from only 𝒪(log(n)) data about other Hamiltonians in the same quantum phase of matter. This improves substantially upon previous results that require 𝒪(n^c) data for a large constant c. Furthermore, the training and prediction time of the proposed ML model scale as 𝒪(n log n) in the number of qubits n. Numerical experiments on physical systems with up to 45 qubits confirm the favorable scaling in predicting ground state properties using a small training dataset.
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