Embedding of Tree Tensor Networks into Shallow Quantum Circuits

Sugawara, Shota; Inomata, Kazuki; Okubo, Tsuyoshi; Todo, Synge

Embedding of Tree Tensor Networks into Shallow Quantum Circuits

Shota Sugawara
(
- Tokyo U.
)
,
Kazuki Inomata
(
- Tokyo U.
)
,
Tsuyoshi Okubo
(
- Tokyo U.
)
,
Synge Todo
(
- Tokyo U. and
- Tokyo U., ISSP
)

Jan 30, 2025

11 pages

e-Print:

2501.18856 [quant-ph]

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Abstract: (arXiv)

Variational Quantum Algorithms (VQAs) are being highlighted as key quantum algorithms for demonstrating quantum advantage on Noisy Intermediate-Scale Quantum (NISQ) devices, which are limited to executing shallow quantum circuits because of noise. However, the barren plateau problem, where the gradient of the loss function becomes exponentially small with system size, hinders this goal. Recent studies suggest that embedding tensor networks into quantum circuits and initializing the parameters can avoid the barren plateau. Yet, embedding tensor networks into quantum circuits is generally difficult, and methods have been limited to the simplest structure, Matrix Product States (MPSs). This study proposes a method to embed Tree Tensor Networks (TTNs), characterized by their hierarchical structure, into shallow quantum circuits. TTNs are suitable for representing two-dimensional systems and systems with long-range correlations, which MPSs are inadequate for representing. Our numerical results show that embedding TTNs provides better initial quantum circuits than MPS. Additionally, our method has a practical computational complexity, making it applicable to a wide range of TTNs. This study is expected to extend the application of VQAs to two-dimensional systems and those with long-range correlations, which have been challenging to utilize.

Note:

11 pages, 5 figures

References(81)

Figures(5)

A Quantum algorithm providing exponential speed increase for finding eigenvalues and eigenvectors

Daniel S. Abrams
(
- MIT, LNS
)
,
Seth Lloyd
(
- MIT
)

- Phys.Rev.Lett. 83 (1999) 5162-5165
•
e-Print:
- quant-ph/9807070
•
DOI:
- 10.1103/PhysRevLett.83.5162

and

A. Arrasmith
,
M. Cerezo
,
P. Czarnik
,
L. Cincio

Effect of barren plateaus on gradient-free optimization

- Quantum 5 (2021) 558
•
e-Print:
- 2011.12245
•
DOI:
- 10.22331/q-2021-10-05-558

Quantum machine learning

J. Biamonte
,
P. Wittek
,
N. Pancotti
,
P. Rebentrost
,
N. Wiebe

et al.

Nature, 549(7671):195-202

Hand-waving and interpretive dance: an introductory course on tensor networks. Journal of Physics A: Mathematical and

J.C. Bridgeman
,
C.T. Chubb

Theoretical, 50(22):223001

Variational quantum algorithms

M. Cerezo
(
- Los Alamos and
- Oak Ridge
)
,
Andrew Arrasmith
(
- Los Alamos and
- Oak Ridge
)
,
Ryan Babbush
(
- Unlisted, US, CA
)
,
Simon C. Benjamin
(
- Oxford U.
)
,
Suguru Endo
(
- Nippon NTT, Kanagawa
)

et al.

- Nature Rev.Phys. 3 (2021) 9, 625-644
•
e-Print:
- 2012.09265
•
DOI:
- 10.1038/s42254-021-00348-9

Higher order derivatives of quantum neural networks with barren plateaus

M. Cerezo
,
P.J. Coles

Higher order derivatives of quantum neural networks with barren plateaus

- Quantum Sci.Technol. 6 (2021) 3, 035006,
- Quantum Sci.Technol. 6 (2021) 035006
•
e-Print:
- 2008.07454
•
DOI:
- 10.1088/2058-9565/abf51a

(b). Cost function dependent barren plateaus in shallow parametrized quantum circuits. Nature

M. Cerezo
,
A. Sone
,
T. Volkoff
,
L. Cincio
,
P.J. Coles

Communications, 12(1):1791

Tree tensor networks for generative modeling

S. Cheng
,
L. Wang
,
T. Xiang
,
P. Zhang

- Phys.Rev.B 99 (2019) 155131

On optimizing a class of multi-dimensional loops with reduction for parallel execution. Parallel Processing

L. Chi-Chung
,
P. Sadayappan
,
R. Wenger

Letters, 7(02):157-168

Algorithms for entanglement renormalization

- Phys.Rev.B 79 (2009) 144108,
- Phys.Rev.B 79 (2009) 14, 144108
•
e-Print:
- 0707.1454
•
DOI:
- 10.1103/PhysRevB.79.144108

A Quantum Approximate Optimization Algorithm

Edward Farhi
(
- MIT, Cambridge, CTP
)
,
Jeffrey Goldstone
(
- MIT, Cambridge, CTP
)
,
Sam Gutmann
(
- MIT, Cambridge, CTP
)

e-Print:
- 1411.4028

Avoiding barren plateaus with classical deep neural networks

- Phys.Rev.A 106 (2022) 4, 042433
•
e-Print:
- 2205.13418
•
DOI:
- 10.1103/PhysRevA.106.042433

Language design as information renormalization

A.J. Gallego
,
R. Orus

- SN Comput.Sci. 3 (2022) 140

E. Grant
,
L. Wossnig
,
M. Ostaszewski
,
M. Benedetti

[2019]

An initialization strategy for addressing barren plateaus in parametrized quantum circuits

Edward Grant
(
- U. Coll. London
)
,
Leonard Wossnig
(
- U. Coll. London
)
,
Mateusz Ostaszewski
(
- Cracow, INP
)
,
Marcello Benedetti
(
- U. Coll. London
)

- Quantum 3 (2019) 214
•
e-Print:
- 1903.05076
•
DOI:
- 10.22331/q-2019-12-09-214

A fast quantum mechanical algorithm for database search. In Proceedings of the twentyeighth annual ACM symposium on Theory of computing, pages 212-219

L.K. Grover

Threelegged tree tensor networks with SU(2) and molecular point group symmetry

K. Gunst
,
F. Verstraete
,
D. Van Neck

- J.Chem.Theor.Comput. 15 (2019) 2996-3007

Z.-Y. Han
,
J. Wang
,
H. Fan
,
L. Wang
,
P. Zhang

[2018]

Unsupervised Generative Modeling Using Matrix Product States

- Phys.Rev.X 8 (2018) 3, 031012
•
DOI:
- 10.1103/PhysRevX.8.031012

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