Introduction.- Background.- How quantum computers can classify data.- Organisation of the book.- Machine Learning.- Prediction.- Models.- Training.- Methods in machine learning.- Quantum Information.- Introduction to quantum theory.- Introduction to quantum computing.- An example: The Deutsch-Josza algorithm.- Strategies of information encoding.- Important quantum routines.- Quantum advantages.- Computational complexity of learning.- Sample complexity.- Model complexity.- Information encoding.- Basis encoding.- Amplitude encoding.- Qsample encoding.- Hamiltonian encoding.- Quantum computing for inference.- Linear models.- Kernel methods.- Probabilistic models.- Quantum computing for training.- Quantum blas.- Search and amplitude amplification.- Hybrid training for variational algorithms.- Quantum adiabatic machine learning.- Learning with quantum models.- Quantum extensions of Ising-type models.- Variational classifiers and neural networks.- Other approaches to buildquantum models.- Prospects for near-term quantum machine learning.- Small versus big data.- Hybrid versus fully coherent approaches.- Qualitative versus quantitative advantages.- What machine learning can do for quantum computing.- References.
Francesco Petruccione received his PhD (1988) and ”Habilitation”
(1994) from the University of Freiburg, Germany. Since 2004 he
is Professor of Theoretical Physics at the University of
KwaZulu-Natal in Durban, Africa, where in 2007 he was granted
a South African Research Chair for Quantum Information
Processing and Communication from the National Research
Foundation. He is the co-author of “The theory of open quantum
systems” (Oxford University Press, 2002) and has
published more than 100 papers in refereed journals, adding up
to more than 7000 citations. Francesco Petruccione’s research
focusses on quantum information and open quantum systems.
Maria Schuld received her PhD degree from the University of
KwaZulu-Natal in South Africa in 2017 as a fellow of the German
Academic Foundation. Her Master’s degree was awarded by the
Technical University of Berlin and supported through a scholarship
of the German Academic Exchange Service (DAAD). Since 2013 she
dedicates her research to the design of quantum machine learning
algorithms, which she presented at numerous international
conferences and in a range of research articles. Maria Schuld is a
Post-Doc at the University of KwaZulu-Natal and works as a
researcher for the Canadian-based quantum computing startup Xanadu.
“The book is very well written and contains sufficiently many examples and illustrations. The authors make a concerted effort to make the material accessible to both computer science graduates as well as scientists with a quantum physics background. … The intended audience are thus machine learning scientists that want to explore the quantum approach to their discipline or quantum information scientists that want to enter the field of machine learning.” (Andreas Maletti, zbMATH 1411.81008, 2019)
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