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Controlled NOT gate
Formal sciences
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Related lectures (32)
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Heisenberg Interaction and Quantum Gates
Covers the Heisenberg interaction, SWAP gate, and CNOT gate in quantum computing.
Trapped Ions: Quantum Gates
Covers the fundamentals of trapped ions in quantum information and the importance of geometric phases in quantum optics.
Quantum circuit model of computation
Explores the quantum circuit model of computation, focusing on unitary gates and multi-controlled gates.
Irreversible and Reversible Circuit Theorems
Covers the proofs of Irreversible and Reversible circuit theorems, focusing on gates and the issue of irreversibility and reversibility.
Quantum Gates: C-NOT and Toffoli
Covers the principles behind quantum gates, focusing on the C-NOT and Toffoli gates.
Heisenberg Interaction: 2-Qubit Gates
Explores Heisenberg interaction and 2-qubit gates in quantum systems with intrinsic magnetic moments and Pauli matrices.
Computational Quantum Physics
Introduces quantum computing basics, covering qubits, gates, circuits, and simulations.
Quantum Measurement: General Description
Explores the general description of quantum measurements, including post-measurement states and Kraus operators.
Quantum Information Processing: CNOT Gate
Explores the implementation of the CNOT gate in quantum information processing.
Fault Tolerance
Covers the concept of fault tolerance in quantum computing and the implementation of error correction codes.
Quantum Computing: Qubit Testing
Covers classical testing of qubits, including measuring in different bases and obtaining uniform results.
The Paradigm of Digital Quantum Computation
Discusses digital quantum computation, focusing on gate implementation and circuit construction.
Quantum Circuits: Classic Circuits
Explores classic circuits in quantum computing, including Boolean functions and reversible gates.
Quantum Compilation: Synthesis and Decomposition
Covers quantum computing fundamentals, compilation, error correction, unitary synthesis, quantum gates, and FPGA-based ADCs.
Quantum and Nanocomputing: Qubit Realization & Control
Covers the design, control, and readout of superconducting qubits.
Quantum Information: Bloch Sphere and Gates
Covers the basics of quantum information, including the Bloch sphere representation and quantum gates.
Quantum and Nanocomputing
Covers the fundamentals of quantum computing, qubit control, readout techniques, qubit controller specifications, Horse Ridge architectures, power breakdown, and more.
Input State Preparation and Output Measurement
Covers input state preparation, output measurement, digital quantum computing paradigm, Pauli rotations, C-Z gates, and Solovay-Kitaev theorem.
Proof of Schmidt Theorem and Entropy Properties
Covers the proof of the Schmidt theorem and properties of von Neumann entropy, including dense coding and entanglement.
Quantum Computing: Fundamentals and Applications
Covers the fundamentals of quantum computing, including qubit realization, scalable quantum computers, quantum communication, and quantum algorithms.
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