Adaptive Quantum Optimization Algorithms

报告人
Robert Joynt
头衔
教授
单位
威斯康星大学
时间
2024-10-18 (周五) 10:00
地点
上海研究院4号楼329报告厅(合肥物质楼B1102同步视频)
摘要

报告摘要:
One of the most promising types of quantum algorithms are those that solve combinatorial optimization problems. There are a number of difficulties that stand in the way: small gaps to excited states, barren plateaus in the energy, and incomplete expressibility of the states. These obstacles can be mitigated by making the quantum algorithms adaptable. I will describe several ways to do this, and show that considerable improvements over non-adaptive algorithms are possible.
Robert Joynt is Emeritus Professor of Physics at the University of Wisconsin-Madison, where he has also served as Department Chair. His research has ranged from the quantum Hall effect to high-Tc superconductivity, the quantum adiabatic algorithm, decoherence from evanescent-wave Johnson noise, and new designs for qubit devices.

Prof. Joynt is the founder and director of the MSc program in Quantum Computing at UW-Madison, which began in 2019. This was the first degree program in quantum computing in the US.

报告人简介:
Robert Joynt is Emeritus Professor of Physics at the University of Wisconsin-Madison, where he has also served as Department Chair. His research has ranged from the quantum Hall effect to high-Tc superconductivity, the quantum adiabatic algorithm, decoherence from evanescent-wave Johnson noise, and new designs for qubit devices.

Prof. Joynt is the founder and director of the MSc program in Quantum Computing at UW-Madison, which began in 2019. This was the first degree program in quantum computing in the US.

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