Benchmarking VQE for the square-octagon-lattice Kitaev model
ORAL
Abstract
The variational quantum eigensolver (VQE) is a promising apporoach to find eigenstates and eigenenergies on NISQ devices. In this presentation, we consider the Kitaev spin model with a square-octagon lattice geometry that matches the connectivity map of Rigetti's QPUs. The hardware-native geometry allows the possibility of efficiently exploring the spin model's rich phase diagram with the VQE approach. We will illustrate the advantage of a mixed optimization approach using the Hamiltonian variational ansatz (HVA) by benchmarking several choices of variational ansatzes and classical optimizers. We will also demonstrate the implementation of a proof-of-principle HVA circuit on the Rigetti's Aspen-9 QPU with appropriate error mitigation techniques.
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Publication: arXiv:2108.13375
Presenters
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Andy C. Y. Li
Fermilab
Authors
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Andy C. Y. Li
Fermilab
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M. Sohaib Alam
Universities Space Research Association / NASA Ames Research Center, Rigetti Computing
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Thomas Iadecola
Iowa State University
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Ammar Jahin
University of Florida
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Doga Kurkcuoglu
Fermilab
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Richard Li
Yale University
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Peter P Orth
Department of Physics and Astronomy, Iowa State University, Ames, Iowa 50011, USA, Iowa State University, Ames Laboratory / Iowa State University, Ames Laboratory and Iowa State University, Iowa State University / Ames Laboratory
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A. Baris Ozguler
Fermilab
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Gabriel Perdue
Fermilab
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Norm M Tubman
University of California, Berkeley, NASA Ames Research Center