PRX Quantum (Jan 2025)

Hybrid Tree Tensor Networks for Quantum Simulation

  • Julian Schuhmacher,
  • Marco Ballarin,
  • Alberto Baiardi,
  • Giuseppe Magnifico,
  • Francesco Tacchino,
  • Simone Montangero,
  • Ivano Tavernelli

DOI
https://doi.org/10.1103/PRXQuantum.6.010320
Journal volume & issue
Vol. 6, no. 1
p. 010320

Abstract

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Hybrid tensor networks (hTNs) offer a promising solution for encoding variational quantum states beyond the capabilities of efficient classical methods or noisy quantum computers alone. However, their practical usefulness and many operational aspects of hTN-based algorithms, like the optimization of hTNs, the generalization of standard contraction rules to an hybrid setting, and the design of application-oriented architectures have not been thoroughly investigated yet. In this work, we introduce a novel algorithm to perform ground-state optimizations with hybrid tree tensor networks (hTTNs), discussing its advantages and roadblocks, and identifying a set of promising applications. We benchmark our approach on two paradigmatic models, namely the Ising model at the critical point and the Toric-code Hamiltonian. In both cases, we successfully demonstrate that hTTNs can improve upon classical equivalents with equal bond dimension in the classical part.