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Quantum and Nanocomputing: Qubit Realization & Control
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Related lectures (32)
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Quantum and Nanocomputing
Explores quantum computing fundamentals, quantum Fourier transform, RSA encryption, Shor's algorithm, and experimental implementations.
Quantum Compilation: Synthesis and Decomposition
Covers quantum computing fundamentals, compilation, error correction, unitary synthesis, quantum gates, and FPGA-based ADCs.
Quantum and nanocomputing
Explores quantum computing fundamentals, qubit realization, control, scalable quantum computers, and spin qubits.
Hybrid superconducting / quantum dot circuits
Covers hybrid cavity quantum electrodynamics with quantum dots and Josephson junction arrays, focusing on spin qubits and superconducting qubits.
Quantum Computation Delegation
Explores fully classical qubits, blind quantum computing, and verifiability in quantum delegation protocols.
Superconducting Qubits: Non-Demolition Measurements and Control Techniques
Covers superconducting qubits, focusing on non-demolition measurements and control techniques essential for quantum computing.
Quantum Metrology: Superconducting Devices and Qubits
Explores quantum metrology, superconducting devices, qubits, and quantum computing principles.
Quantum and Nanocomputing
Covers the birth of quantum mechanics, Schrödinger's equations, superconductivity, Josephson effect, and the theory of superconductivity.
Quantum and Nanocomputing
Explores the fundamentals and history of quantum computing, including qubit realization and the first and second quantum revolutions.
Quantum Information Processing: Superconducting Circuits
Introduces experimental realizations of quantum information processing, focusing on superconducting circuits and the differences between classical and quantum computing.
