Salvato in:
Dettagli Bibliografici
Autori principali: Provazza, Justin, Gunst, Klaas, Zhai, Huanchen, Chan, Garnet K. -L., Shiozaki, Toru, Rubin, Nicholas C., White, Alec F.
Natura: Preprint
Pubblicazione: 2023
Soggetti:
Accesso online:https://arxiv.org/abs/2312.17657
Tags: Aggiungi Tag
Nessun Tag, puoi essere il primo ad aggiungerne!!
_version_ 1866913326998487040
author Provazza, Justin
Gunst, Klaas
Zhai, Huanchen
Chan, Garnet K. -L.
Shiozaki, Toru
Rubin, Nicholas C.
White, Alec F.
author_facet Provazza, Justin
Gunst, Klaas
Zhai, Huanchen
Chan, Garnet K. -L.
Shiozaki, Toru
Rubin, Nicholas C.
White, Alec F.
contents We describe a matrix product state (MPS) extension for the Fermionic Quantum Emulator (FQE) software library. We discuss the theory behind symmetry adapted matrix product states for approximating many-body wavefunctions of spin-1/2 fermions, and we present an open-source, MPS-enabled implementation of the FQE interface (MPS-FQE). The software uses the open-source pyblock3 and block2 libraries for most elementary tensor operations, and it can largely be used as a drop-in replacement for FQE that allows for more efficient, but approximate, emulation of larger fermionic circuits. Finally, we show several applications relevant to both near-term and fault-tolerant quantum algorithms where approximate emulation of larger systems is expected to be useful: characterization of state preparation strategies for quantum phase estimation, the testing of different variational quantum eigensolver Ansätze, the numerical evaluation of Trotter errors, and the simulation of general quantum dynamics problems. In all these examples, approximate emulation with MPS-FQE allows us to treat systems that are significantly larger than those accessible with a full statevector emulator.
format Preprint
id arxiv_https___arxiv_org_abs_2312_17657
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Fast emulation of fermionic circuits with matrix product states
Provazza, Justin
Gunst, Klaas
Zhai, Huanchen
Chan, Garnet K. -L.
Shiozaki, Toru
Rubin, Nicholas C.
White, Alec F.
Quantum Physics
Chemical Physics
We describe a matrix product state (MPS) extension for the Fermionic Quantum Emulator (FQE) software library. We discuss the theory behind symmetry adapted matrix product states for approximating many-body wavefunctions of spin-1/2 fermions, and we present an open-source, MPS-enabled implementation of the FQE interface (MPS-FQE). The software uses the open-source pyblock3 and block2 libraries for most elementary tensor operations, and it can largely be used as a drop-in replacement for FQE that allows for more efficient, but approximate, emulation of larger fermionic circuits. Finally, we show several applications relevant to both near-term and fault-tolerant quantum algorithms where approximate emulation of larger systems is expected to be useful: characterization of state preparation strategies for quantum phase estimation, the testing of different variational quantum eigensolver Ansätze, the numerical evaluation of Trotter errors, and the simulation of general quantum dynamics problems. In all these examples, approximate emulation with MPS-FQE allows us to treat systems that are significantly larger than those accessible with a full statevector emulator.
title Fast emulation of fermionic circuits with matrix product states
topic Quantum Physics
Chemical Physics
url https://arxiv.org/abs/2312.17657