Lukas Franken scite author profile

Variational Quantum Eigensolvers (VQEs) have recently attracted considerable attention. Yet, in practice, they still suffer from the efforts for estimating cost function gradients for large parameter sets or resource-demanding reinforcement strategies. Here, we therefore consider recent advances in weight-agnostic learning and propose a strategy that addresses the tradeoff between finding appropriate circuit architectures and parameter tuning. We investigate the use of NEAT-inspired algorithms which evaluate circuits via genetic competition and thus circumvent issues due to exceeding numbers of parameters. Our methods are tested both via simulation and on real quantum hardware and are used to solve the transverse Ising Hamiltonian and the Sherrington-Kirkpatrick spin model.

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Quantum Circuit Evolution on NISQ Devices

Franken

Georgiev

Sascha

et al. 2022

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Lukas Franken

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Quantum Circuit Evolution on NISQ Devices

Quantum Circuit Evolution on NISQ Devices

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