Numerical study of five symmetry-preserving HVAs for Z2 gauge theory finds overparametrization eliminates local minima and loss decay rate scales linearly with number of parameters.
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The QuaST Decision Tree is a configurable modular system that automates recommendations for hybrid quantum algorithms, featuring a module for assessing variational algorithm feasibility through scalability analysis.
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Symmetries and overparametrization properties of Hamiltonian variational ansatzes for the $(1+1)$d $\mathbb{Z}_2$ lattice gauge theory
Numerical study of five symmetry-preserving HVAs for Z2 gauge theory finds overparametrization eliminates local minima and loss decay rate scales linearly with number of parameters.
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The QuaST Decision Tree: Achieving Automation With Data-Based Recommendations
The QuaST Decision Tree is a configurable modular system that automates recommendations for hybrid quantum algorithms, featuring a module for assessing variational algorithm feasibility through scalability analysis.