QUEST: systematically approximating Quantum circuits for higher output fidelity-Reference-Cited by-同舟云学术

QUEST: systematically approximating Quantum circuits for higher output fidelity

Published:2022-02-22 Issue: Volume: Page:
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Container-title:Proceedings of the 27th ACM International Conference on Architectural Support for Programming Languages and Operating Systems
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Author:

Patel Tirthak¹,Younis Ed²,Iancu Costin²,de Jong Wibe²,Tiwari Devesh¹

Affiliation:

1. Northeastern University, USA

2. Lawrence Berkeley National Laboratory, USA

Publisher

ACM

Link

https://dl.acm.org/doi/pdf/10.1145/3503222.3507739

Reference48 articles.

1. https://github.com/BQSKit. BQSKit: Berkeley Quantum Synthesis Toolkit. https://github.com/BQSKit. BQSKit: Berkeley Quantum Synthesis Toolkit.

2. G Aleksandrowicz T Alexander P Barkoutsos L Bello Y Ben-Haim and D Bucher. [n.d.]. Qiskit: An Open-source Framework for Quantum Computing.(2019). G Aleksandrowicz T Alexander P Barkoutsos L Bello Y Ben-Haim and D Bucher. [n.d.]. Qiskit: An Open-source Framework for Quantum Computing.(2019).

3. A Meet-in-the-Middle Algorithm for Fast Synthesis of Depth-Optimal Quantum Circuits

4. Lindsay Bassman Connor Powers and Wibe A de Jong. 2021. ArQTiC: A Full-Stack Software Package for Simulating Materials on Quantum Computers. arXiv preprint arXiv:2106.04749. Lindsay Bassman Connor Powers and Wibe A de Jong. 2021. ArQTiC: A Full-Stack Software Package for Simulating Materials on Quantum Computers. arXiv preprint arXiv:2106.04749.

5. SIAM Journal on computing, 26, 5;Bernstein Ethan,1997

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