Introduction to Quantum Circuits and Gates Aimed at High-School Students 26-27 April 2022
Duration: 12 Minutes of lecture, 30 Minutes of additional self-study at home Form of Teaching: Teacher presents the content, support from exercises to grasp the concepts Explaining the main difference from classical computers and quantum computers, based on the superposition of states Conceptify the idea of qubit states and how to interact with them. Have a clear understanding of superposition, without falling in complex mathematical and physical descriptions
Duration: 25 Minutes of lecture, 60 Minutes of additional self-study at home Form of Teaching: Teacher presents the content, support from exercises to grasp the concepts Explaining the idea of controlling methods for qubits to students. Discuss the difference form reversible and irreversible computation. Present basic gates: Pauli gates, Hadamard gate, rotation gates
Duration: 10 Minutes of lecture Form of Teaching: Presentation of topic by teacher, interactive demo in Qiskit Understanding of a probability tree applied in Quantum Mechanics. Meaning of performing a measurement on a qubit, and its consequences.
Duration: 10 Minutes of lecture Form of Teaching: Presentation of topic by teacher, interactive demo in Qiskit Showcase bottlenecks in current hardware. Identify decoherence in real-uses. Connect knowledge form teh previous sections
Duration: at home Form of Teaching: Reading material Mathematical and physical basis of the concepts mentioned in class.