QGeo: A Python package for calculating geodesic control functions for quantum computing
QGeo: A Python package for calculating geodesic control functions for quantum computing
We present a new Python package that uses the established notion of geometric quantum complexity to numerically compute the difficulty associated with preparing a given unitary transformation on a quantum computer. The numerical procedure we implement is presented and discussed. Analyzed quantum circuits include: the quantum fourier transform for up to four qubits, a random circuit with depth 100, and a circuit for analyzing the evolution of a fermionic chain with several lattice sites. This package can be found for download at https://github.com/JAGDiaz/quantum-geodesics
Sean T. Crowe、Joshua J. Leiter、John P. T. Stenger、Zachary L. Barvian、Joseph A. Diaz、Shoshana Krishel、Joanna N. Ptasinski、Daniel Gunlycke
计算技术、计算机技术信息科学、信息技术物理学系统科学、系统技术
Sean T. Crowe,Joshua J. Leiter,John P. T. Stenger,Zachary L. Barvian,Joseph A. Diaz,Shoshana Krishel,Joanna N. Ptasinski,Daniel Gunlycke.QGeo: A Python package for calculating geodesic control functions for quantum computing[EB/OL].(2025-04-22)[2025-05-22].https://arxiv.org/abs/2504.16157.点此复制
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