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Lecture
Quantum Simulation: Fundamentals and Applications
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Related lectures (30)
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Quantum Principles
Covers the fundamental principles of quantum computing and unitary evolution in quantum systems.
Quantum Simulation: Concepts and Methods
Explores quantum simulation using programmable quantum systems to simulate model systems and discusses the challenges and methods involved.
Digital Quantum Computing
Explores digital quantum computing fundamentals, applications in quantum chemistry, and near-term quantum approaches for various scientific fields.
Quantum Delegation Protocols
Covers classical single qubit Hamiltonian verification and quantum delegation protocols.
Quantum Circuits: Models and Approximations
Explores quantum circuit modeling, approximations, unitary matrices, and measurement operations.
Quantum Circuits: Classic Circuits
Explores classic circuits in quantum computing, including Boolean functions and reversible gates.
Quantum Computational Advantage: Recent Progress and Next Steps
Explores recent progress in quantum computational advantage and discusses the challenges in achieving quantum supremacy.
Quantum and Nanocomputing
Delves into quantum computing fundamentals, including entanglement, quantum gates, and algorithms, emphasizing unitary transformations and quantum coherence.
Quantum Computing and Error Correction
Explores quantum computing, error correction, quantum gates, and hybrid quantum-classical algorithms.
Quantum Computing: Fundamentals and Applications
Covers the fundamentals of quantum computing, including qubit realization, scalable quantum computers, quantum communication, and quantum algorithms.
