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Dive into the fascinating world of reversible quantum circuits with this interactive, hands-on session using Qiskit, IBM's open-source quantum computing framework. This talk is designed for quantum enthusiasts, researchers, and developers looking to deepen their understanding of quantum gates and how to build efficient reversible circuits that preserve information.
Throughout the session, we'll explore the fundamental principles behind reversible computation, its significance in quantum computing, and how classical logic gates translate into their quantum counterparts. You'll gain practical experience with essential quantum gates such as Hadamard (H), Pauli (X, Y, Z), Toffoli, Fredkin, and CNOT, and learn how to design and simulate reversible circuits that can be executed on quantum hardware.
Key Takeaways:
- Introduction to Reversible Computing: Understanding its role in quantum algorithms.
- Quantum Gates Overview: In-depth exploration of unitary operations and their reversible properties.
- Hands-on Circuit Building: Using Qiskit to construct and simulate reversible circuits step-by-step.
- Implementation of Classical Logic in Quantum Circuits: Mapping Boolean functions to quantum gates.
- Optimization Techniques: Reducing gate complexity and improving circuit efficiency.
- Running Experiments: Simulating circuits on Qiskit Aer and executing on real IBM Quantum devices.
