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Course Overview
A beginners guide to quantum machine learning
Basics of supervised machine learning
A summary of classical supervised learning
Quiz on classical supervised learning
Quantum machine learning
Some basic concepts for quantum machine learning
Quiz on basic concepts
Deeper Classifiers
Quiz on deeper classifiers
Teaching the circle
Quiz on teaching the circle
QML with multiple qubits
More is different ? Working with multiple qubits
Quiz on working with multiple qubits
Quiz on working with multiple qubits
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In the last section we focus on the classification of data with more than two classes.
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True
False
Which of the following statements about the role of entanglement within the last lession are true
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It is necessary to entangle the qubits, when we work with more than one qubit
Entanglement is suspected to be a key ingredient to have quantum circuits that outperform classical circuits
Entanglement was mediated through two-qubit gates
The introduction of entanglement improved the accuracy of the circuit.
The introduction of entanglement made the algorithm better than any known classical algorithm
In the examples we worked with four classes. This required us to work with how many qubits.
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1
2
4
At this stage we were able to present you a clear path on how quantum algorithms could outperform classical algorithms in classification tasks.
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True
False
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