Quantum (Mar 2021)

Dimensional Expressivity Analysis of Parametric Quantum Circuits

  • Lena Funcke,
  • Tobias Hartung,
  • Karl Jansen,
  • Stefan Kühn,
  • Paolo Stornati

DOI
https://doi.org/10.22331/q-2021-03-29-422
Journal volume & issue
Vol. 5
p. 422

Abstract

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Parametric quantum circuits play a crucial role in the performance of many variational quantum algorithms. To successfully implement such algorithms, one must design efficient quantum circuits that sufficiently approximate the solution space while maintaining a low parameter count and circuit depth. In this paper, develop a method to analyze the dimensional expressivity of parametric quantum circuits. Our technique allows for identifying superfluous parameters in the circuit layout and for obtaining a maximally expressive ansatz with a minimum number of parameters. Using a hybrid quantum-classical approach, we show how to efficiently implement the expressivity analysis using quantum hardware, and we provide a proof of principle demonstration of this procedure on IBM's quantum hardware. We also discuss the effect of symmetries and demonstrate how to incorporate or remove symmetries from the parametrized ansatz.