Boosting on the shoulders of giants in quantum device calibration

Code

• github.com/a-wozniakowski/scikit-physlearn
  none★ 10

Abstract

Traditional machine learning applications, such as optical character recognition, arose from the inability to explicitly program a computer to perform a routine task. In this context, learning algorithms usually derive a model exclusively from the evidence present in a massive dataset. Yet in some scientific disciplines, obtaining an abundance of data is an impractical luxury, however; there is an explicit model of the domain based upon previous scientific discoveries. Here we introduce a new approach to machine learning that is able to leverage prior scientific discoveries in order to improve generalizability over a scientific model. We show its efficacy in predicting the entire energy spectrum of a Hamiltonian on a superconducting quantum device, a key task in present quantum computer calibration. Our accuracy surpasses the current state-of-the-art by over 20\%. Our approach thus demonstrates how artificial intelligence can be further enhanced by "standing on the shoulders of giants."

Tasks

Benchmark Results

Reproductions