2024:
- Kalloor, Justin, et al. “Quantum Hardware Roofline: Evaluating the Impact of Gate Expressivity on Quantum Processor Design.” [preprint]
2023:
- Nguyen, Long B, et al. “Empowering high-dimensional quantum computing by traversing the dual bosonic ladder.” [preprint]
- Szasz, Aaron, et al. “Ground state energy and magnetization curve of a frustrated magnetic system from real-time evolution on a digital quantum processor.” [preprint]
- Younis, Ed, et al. “QSweep: Pulse-Optimal Single-Qudit Synthesis.” [preprint]
- Niu, Siyuan, et al. “Powerful Quantum Circuit Resizing with Resource Efficient Synthesis.” [preprint]
- Kukliansky, Alon, et al. “QFactor — A Domain-Specific Optimizer for Quantum Circuit Instantiation.” IEEE International Conference on Quantum Computing and Engineering (QCE’23). [link] [preprint]
- Weiden, Mathias, et al. “Improving Quantum Circuit Synthesis with Machine Learning.” IEEE International Conference on Quantum Computing and Engineering (QCE’23). [link] [preprint]
- Liu, Ji, Younis, Ed, et al. “Tackling the Qubit Mapping Problem with Permutation-Aware Synthesis.” IEEE International Conference on Quantum Computing and Engineering (QCE’23). [link] [preprint]
- Szasz, Aaron, et al. “Numerical circuit synthesis and compilation for multi-state preparation.” IEEE International Conference on Quantum Computing and Engineering (QCE’23). [link] [preprint]
2022:
- Mueller, Juliane, et al. “Accelerating Noisy VQE Optimization with Gaussian Processes.” IEEE International Conference on Quantum Computing and Engineering (QCE’22). (Best Paper Award)
- Younis, Ed et al. “Quantum Circuit Optimization and Transpilation via Parameterized Circuit Instantiation” IEEE International Conference on Quantum Computing and Engineering (QCE’22)
- Weiden, Mathias, et al. “Wide Quantum Circuit Optimization with Topology Aware Synthesis.” CoRR abs/2206.13645 (2022)
- Smith, Ethan, et al. “Leap: scaling numerical optimization based synthesis using an incremental approach.” ACM Transactions on Quantum Computing (2022). [link]
- Bassman, Lindsay, et al. “Constant-depth circuits for dynamic simulations of materials on quantum computers.” Materials Theory 6.1 (2022): 1-18. [link]
- Patel, Tirthak, et al. “QUEST: systematically approximating Quantum circuits for higher output fidelity.” Proceedings of the 27th ACM International Conference on Architectural Support for Programming Languages and Operating Systems (2022). [link]
2021:
- Wu, Xin-Chuan, et al. “Reoptimization of Quantum Circuits via Hierarchical Synthesis.” ICRC2021: 35-46
- Wilson, Ellis, et al. “Empirical evaluation of circuit approximations on noisy quantum devices.“SC 2021: 96:1-96:15
- Younis, Ed, et al. “Qfast: Conflating search and numerical optimization for scalable quantum circuit synthesis.” 2021 IEEE International Conference on Quantum Computing and Engineering (QCE). IEEE, 2021. [link](Best Paper Award)
- Bassman, Lindsay, et al. “Constant-Depth Circuits for Dynamic Simulations of Materials on Quantum Computers.” arXiv preprint arXiv:2103.07429 (2021). [link]
- Younis, Ed, et al. “QFAST: Conflating Search and Numerical Optimization for Scalable Quantum Circuit Synthesis.” arXiv preprint arXiv:2103.07093 (2021). [link]
- Smith, Ethan, et al. “LEAP: Scaling Numerical Optimization Based Synthesis Using an Incremental Approach.” arXiv preprint arXiv:2106.11246 (2021). [link]
2020:
- Davis, Marc G., et al. “Towards Optimal Topology Aware Quantum Circuit Synthesis.” 2020 IEEE International Conference on Quantum Computing and Engineering (QCE). IEEE, 2020. [link] (Best Paper Award)
- Younis, Ed, et al. “QFAST: Quantum Synthesis Using a Hierarchical Continuous Circuit Space.” arXiv preprint arXiv:2003.04462 (2020). [link]
- Wu, X. et al. “Optimizing Noisy-Intermediate Scale Quantum Circuits: A Block-Based Synthesis.” arXiv preprint arXiv:2012.09835 (2020). [link]
- Smith, Ethan, et al. “LEAP: Scaling Numerical Optimization Based Synthesis Using an Incremental Approach.” (2020). [pdf]
2019:
- Davis, Marc Grau, et al. “Heuristics for Quantum Compiling with a Continuous Gate Set.” arXiv preprint arXiv:1912.02727 (2019). [link]